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Электроника и Медтехника
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Service Manual
SSD-4000
FILE 1
SERVICE MANUAL
PRO SOUND
SSD — 4000
1 / 2
English Edition
Document Number : MN2-0233Document Revision : 3
Copyright©
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
1/6
Contents of SSD-4000 SERVICE MANUAL 1/2PAGE
Section 1 How to use this service manual page 1-1~1-4 (4 pages)
1-1 Service Manual ‥‥‥‥ ‥‥‥‥ 1- 1
1-2 Contents of this Service Manual ‥‥‥‥ ‥‥‥‥ 1- 1
1-3 Construction of This Service Manual ‥‥‥‥ ‥‥‥‥ 1- 2
1-4 Contents of Each Section ‥‥‥‥ ‥‥‥‥ 1- 2
Section 2 PRECAUTIONS (read without fail) page 2-1~2-6 (6 pages)
2-1 Precautions Against Electrical Hazards to Serviceman ‥‥‥‥ 2- 1
2-2 Precautions Against Mechanical Hazards to Serviceman ‥‥‥‥ 2- 1
2-3 Precautions Against Germ Hazards to Serviceman ‥‥‥‥ 2- 1
2-4 Precautions for Keeping Electrical Safety ‥‥‥‥ 2- 2
2-5 Precautions for Keeping Mechanical Safety ‥‥‥‥ ‥‥‥‥ 2- 2
2-6 Precautions for Keeping Chemicals Safety ‥‥‥‥ ‥‥‥‥ 2- 2
2-7 Preparation to be Made at Service Center ‥‥‥‥ ‥‥‥‥ 2- 2
2-8 Care to be Taken in the Field ‥‥‥‥ ‥‥‥‥ 2- 3
2-9 Precaution for Monitor repairing ‥‥‥‥ ‥‥‥‥ 2- 3
2-10 Handling of S.M.D. PCBs ‥‥‥‥ ‥‥‥‥ 2- 4
2-11 System Symbols ‥‥‥‥ ‥‥‥‥ 2- 5
2-12 A combination of UCW-4000B and software version ‥‥‥‥ 2- 6
2-13 A combination of SCU-4000/4000B and AD_DA “EP444400”/DBP “EP478400” board ‥‥‥‥ 2- 6
Section 3 BEFORE REPAIRING page 3-1~3-14 (14 pages)
3-1 Repair work on the description of Service Manual ‥‥‥‥ 3- 1
3-2 Upgrade work on the description of Service Manual ‥‥‥‥ 3- 6
3-3 Messages ‥‥‥‥ ‥‥‥‥ 3- 12
Section 4 PRINCIPLE OF SYTSTEM OPERATION page 4-1~4-104 (120 pages)
4-1 System Specification ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 1
4-2 System Configuration ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 9
4-3 System Block Diagram ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 9
4-4 Principle of System Operation ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 15
4-4-1 System Control ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 15
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
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4-4-2 Transmission and Reception block ‥‥‥‥ ‥‥‥‥ 4- 18
4-4-3 Digital Imaging Unit ‥‥‥‥ ‥‥‥‥ 4- 23
4-4-4 Physio. signal display unit PEU-4000 (Option) ‥‥‥‥ 4- 29
4-4-5 Power supply unit PSU-S4000 ‥‥‥‥ ‥‥‥‥ 4- 30
4-5 Principle of PCB operation ‥‥‥‥ ‥‥‥‥ 4- 34
4-5-1 Probe Selector 1 ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 31
4-5-2 Probe Selector 2 ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 34
4-5-3 Tx & Tx Focus ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 36
4-5-4 Pre AMP & Variable Gain AMP ‥‥‥‥ ‥‥‥‥ 4- 38
4-5-5 Rx Beam Former ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 40
4-5-6 Tx Rx Control ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 44
4-5-7 A ITF ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 48
4-5-8 AD_DA ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 52
4-5-9 CFP ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 54
4-5-10 SDP ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 56
4-5-11 STCW ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 58
4-5-12 BSC ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 60
4-5-13 CSC ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 64
4-5-14 VPU ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 68
4-5-15 MGR ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 72
4-5-16 CPU ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 74
4-5-17 Audio ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 78
4-5-18 PSC ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 80
4-5-19 Physio. AMP ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 84
4-5-20 VOL/Servo Control ‥‥‥‥ ‥‥‥‥ 4- 88
4-5-21 Mecha. Connector ‥‥‥‥ ‥‥‥‥ 4- 90
4-5-22 VCM (Video Cine Memory) ‥‥‥‥ ‥‥‥‥ 4- 92
4-5-23 Tx & Tx Focus 2 ‥‥‥‥ ‥‥‥‥ 4- 94
4-5-24 CMB ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 96
4-5-25 DBP ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 4- 102
Section 5 SCHEMATICS page 5-1~5-162 (162 pages)
Main Body
CABLE CONNECTION SSD-4000 ‥‥‥‥ 5- 1
CABLE 001, 002, 011, 012, 020, 250, 100, 201, 301, 302 ‥‥‥‥ 5- 3
CABLE 021, 400 ‥‥‥‥ 5- 13
Mother EP4445 ‥‥‥‥ 5- 15
Power Supply Unit PSU-S4000 ‥‥‥‥ 5- 25
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
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Transformer Unit (Primary) PSU-S4000-1 ‥‥‥‥ 5- 26
Power Supply unit (Secondly) PSU-S4000-2 ‥‥‥‥ 5- 27
Relay circuit unit EP4482 ‥‥‥‥ 5- 28
Connector Junction unit EP4495 ‥‥‥‥ 5- 29
Mother board EP4486 ‥‥‥‥ 5- 30
Low voltage circuit (1) EP4483 ‥‥‥‥ 5- 31
Low voltage circuit (2) EP4484 ‥‥‥‥ 5- 32
High voltage circuit EP4485 ‥‥‥‥ 5- 33
AC power cable unit(100~120V) JB-258 ‥‥‥‥ 5- 36
AC power cable unit(200~240V) JB-259 ‥‥‥‥ 5- 37
AC Outlet Box (100-120V) JB-260 ‥‥‥‥ 5- 38
AC Outlet Box (200-240V) JB-261 ‥‥‥‥ 5- 39
Foot SW PCB EP4261 ‥‥‥‥ 5- 40
DISTRIBUTOR EP4472 ‥‥‥‥ 5- 41
Physio Signal display unit PEU-4000
PHYSIO UNIT EU-5044 ‥‥‥‥ 5- 46
Physio. Volume unit EP4536 ‥‥‥‥ 5- 47
CABLE 710, 711, 712 ‥‥‥‥ 5- 48
Operation Panel L-KEY-75 ‥‥‥‥ 5- 51
Viewing Color TV monitor IPC-1530Q ‥‥‥‥ 5- 69
Power supply unit PSU-S4000B ‥‥‥‥ 5- 81
Transformer unit circuit PSU-S4000B-1‥‥‥‥ 5- 83
Power supply unit (2) PSU-S4000B-2‥‥‥‥ 5- 85
Hi-Voltage circuit EP440701 ‥‥‥‥ 5- 87
Rectification circuit EP4622 ‥‥‥‥ 5- 88
Power supply circuit EP4631 ‥‥‥‥ 5- 89
Power supply circuit EP4632 ‥‥‥‥ 5- 90
Mother board for PSU-S4000B-2 EP4633 ‥‥‥‥ 5- 93
Output connector circuit EP4634 ‥‥‥‥ 5- 94
Power Supply Unit (Block diagram) PSU-S4000B ‥‥‥‥ 5- 95
Power Supply Unit (Wiring diagram) PSU-S4000B ‥‥‥‥ 5- 96
Power Supply Unit (2) PSU-S4000B-2B‥‥‥‥ 5- 97
Power Supply Unit (2) (Wiring diagram) PSU-S4000B-2B‥‥‥‥ 5- 98
High Voltage Circuit EP463200CC ‥‥‥‥ 5- 99
Mother board for PSU-S4000B-2 EP4633 ‥‥‥‥ 5- 103
Foot switch PCB EP4732 ‥‥‥‥ 5- 104
Mother board EP4812 ‥‥‥‥ 5- 105
Viewing Monitor IPC-1530U DWU-135B ‥‥‥‥ 5- 112
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
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Viewing Monitor IPC-1530U DWU-141 ‥‥‥‥ 5- 129
Power Supply Unit (2) PSU-S4000B-2B‥‥‥‥ 5- 147
Mother board for PSU-S4000B-2B EP4633 ‥‥‥‥ 5- 148
Operation Panel L-KEY-75C ‥‥‥‥ 5- 149
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
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Contents of SSD-4000 SERVICE MANUAL 2/2
Section 6 TROUBLESHOOTING
Section 7 ADJUSTMENT PROCEDURE
Section 8 PERFORMANCE CHECK
Section 9 DISASSEMBLING PROCEDURE
Section 10 PARTS LIST
Section 11 SERVICE INFORMATION
Appendix SSD-4000 SERVICE MANUAL Appendix
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
6/6
(Blank page)
SECTION 1
SECTION 1
How to use this service manual
MN2-0233 Rev.2SECTION 1 How to use this service manual
1 — 1
1-1 Service Manual
1) This service manual has been prepared for persons in charge of repair at the field.
2) This service manual is compiled according to the following basic principle.“For service, pick
out a faulty PCB and replace it with a new PCB .”
3) Make the best use of this service manual, making also reference to available technical support
information such as “Technical Bulletin”.
1-2 Contents of this Service Manual
1) The equipment is repaired by PCB replacement. Therefore this service manual does not
include the circuit diagrams of the PCB unit. For the function of each PCBs whose circuit
diagram is not included, refer to“SECTION 4 PRINCIPLE OF SYSTEM OPERATION”.
In “SECTION 4”, Specification of System, Principle of System, System Block Diagram, PCB
Block Diagram, the explanation of each PCB Block Diagram, and signal list are described.
However, “Cable Connection Diagram”, “Circuit Diagram of PCB equipped with the panel
switches which are easily exchangeable at the field” and“Circuit Diagram composed of
general circuit such as TV monitor and Power Supply unit” are described in“SECTION 5
SCHEMATICS”.
2) For changes and modifications of as well as additions to specifications, if any, prompt
information will be given to you by means of“APPENDIX Manual Change Information”.
●IMPORTANT● Always observe the manner specified for replacement, addition, or
deletion of “Manual Change” to prevent missing of necessary
information and keeping of erroneous information.
MN2-0233SECTION 1 How to use this service manual
1 — 2
1-3 Construction of This Service Manual
The structure of Service Manual is as follows:
1) Service Instructions ………………………………………………..SECTION 1~3, 5~9, 11
2) Principle of Operation………………………………………………SECTION 4
3) Parts List ……………………………………………………………..SECTION 10
4) Manual Change Information ………………………………………APPENDIX
1-4 Contents of Each Section
SECTION 1 How to use this service manual
Describes the purpose of the Service Manual.
SECTION 2 PRECAUTIONS
Describes general precautions and preparations for maintenance service. Be sure to follow
working procedures if mentioned.
SECTION 3 BEFORE REPAIRING
Gives information peculiar to the equipment and care to be taken before starting repair work.
SECTION 4 PRINCIPLE OF SYSTEM OPERATION
Describes Specification of System, Principle of System, System Block Diagram, PCB Block
diagram, the explanation of each PCB Block Diagram, and Signal List. Gives the convenience of
grasping flow of major signals and mutual communication between units in the whole system.
SECTION 5 SCHEMATICS
Gives the cable connection diagram including all cables used, the circuit diagram of PCB equipped
with switches, and the circuit diagram of TV monitor and Power Supply unit.
MN2-0233SECTION 1 How to use this service manual
1 — 3
SECTION 6 TROUBLESHOOTING
Describes precautions on actual repair work and shows the necessary tools and measuring
instruments. Also, includes many hints on primary diagnosis and measures to be taken in the field.
SECTION 7 ADJUSTMENT PROCEDURE
Gives guides of adjustments of PCBs and units which some PCBs need when they are replaced.
SECTION 8 PERFORMANCE CHECK
Describes the procedure of checking for proper operation after repair and provides the forms of
check sheet.
SECTION 9 DISASSEMBLING PROCEDURE
Disassembling Procedure Illustrates the disassembly and assembly of main components. Be sure to
follow working procedures if specified.
SECTION 10 PARTS LIST
Lists the mechanical parts and electrical part which replacement possibility are considered .
SECTION 11 SERVICE INFORMATION
Provides available information about maintenance service.
APPENDIX SERVICE MANUAL Appendix
Manual change information, the revision list of this manual, is filed in this section.
MN2-0233SECTION 1 How to use this service manual
1 — 4
( Blank page )
SECTION 2
SECTION 2
PRECAUTIONS
MN2-0233SECTION 2 PRECAUTIONS
2 — 1
2-1 Precautions Against Electrical Hazards to Serviceman
When disassembling the equipment after checking it for a trouble symptom, give care to the
following:
1) Be sure to unplug the equipment before disassembly.
2) Be sure to turn off the main switch on the equipment when removing electrical parts such as
PCBs, probe, and cable.
3) Safety alert symbols
The indication used on this equipment and in this service manual have the following
meaning.
“Indicates a potentially hazardous situation which, if not avoided, may result in minor or
moderate injury.”
“A caution message is inserted here.”
2-2 Precautions Against Mechanical Hazards to Serviceman
When disassembling the equipment, give care to the following to protect serviceman from
hazards :
1) Keep the working environment neat.
Wear working gloves to protect your hands from getting injured by burrs on the unit and
casing.
2) Use only proper tools suited to work being made.
3) Be sure to observe the specified disassembly procedure shown in SECTION 9.
4) Take sufficient care not to damage component with undue load.
2-3 Precautions Against Germ Hazards to Serviceman
1) When it is necessary to touch the equipment, options and/or other peripheral devices at a
customer who uses intracorporeal (transesophageal, transurethral, transvaginal, transrectal)
probes that need sterilization, take special care to protect your hands against germs,
irrespective of the usage of the equipment: whether it is used in the operation room or not.
2) Service tools are subject to germ pollution in hospitals and, therefore, need periodical
sterilization.
3) Be careful not to directly touch anything assumable to have germ pollution. If necessary, ask
the customer for effective protection against germs.
MN2-0233SECTION 2 PRECAUTIONS
2 — 2
2-4 Precautions for Keeping Electrical Safety
1) Be sure to ground the equipment securely.
2) Perfectness in grounding, screw tightening, and cover installation is essential. Negligence of it
could cause a possibility of leakage current from outer fitting which may lead to serious
damage to a patient being diagnosed.
2-5 Precautions for Keeping Mechanical Safety
Take care to the following to prevent the equipment from being damaged or broken during
disassembly and reassembly work.
1) Be sure to observe the specified disassembly procedure.
2) Take care not to damage component parts by undue load.
3) When reassembling the equipment, carefully check every part for loosening, distortion and
creak.
4) Use only the specified screws and nuts. Using any other screws and/or nuts would affect not
only mechanical performance, but also electrical performance of the equipment.
2-6 Precautions for Keeping Chemicals Safety
Whenever grease, oil or other chemicals is used for maintenance service, options and/or
peripheral devices, be sure to clean the equipment and/or devices after service work.
2-7 Preparation to be Made at Service Center
1) When called by a customer on the telephone, note the followings:
l Name of equipment
l Serial number of equipment
l Name of hospital
l Telephone number
l Name of person in charge
l Detail of trouble symptom as far as possible
l State of connection to optional devices
2) Go over the “Technical Bulletin” to see whether the complained trouble can be mended by
means of regular repairing method.
MN2-0233SECTION 2 PRECAUTIONS
2 — 3
2-8 Care to be Taken in the Field
1) Check for trouble symptoms.
2) Check for connection to optional devices and other peripheral devices.
3) Record the preset data to a floppy disk.
When record in a lump the internal data such as the preset data, patient data, image data and
others, record them to an MO disk.
4) After working, restore the equipment according to the above mentioned contents of memory
if necessary.
5) After completion of work, put back the peripheral devices to the original condition.
2-9 Precaution for Monitor repairing
1) Subjecting the unit to strong shocks may result in damage to the CRT or malfunction, therefore
care must be taken when transporting or installing the unit.
2) CRT with the deflecting yoke is already adjusted to the best condition. Do not touch the
deflecting yoke and the magnet of the neck part.
3) Be sure to detach the metallic goods such as a wrist watch from your body before doing the
repair work.
To prevent the secondary damage and the electrical shock, the matters above should be taken
into careful consideration.
● D A N G E R ● High voltages are present inside the display chassis. Only
experienced technicians should touch internal parts.
● D A N G E R ● The electric charge has remained in CRT after the power switch is
turned off. Because the high voltage is usually used for CRT. So
make the electric charge escape with a grounding stick which is
connected to the ground of the chassis and through the resistance for
high voltage (Approx. 1MΩ) before removing the anode cap.
Some electric charge remains in CRT after escaping with a grounding
stick. Do not touch the metallic part of anode cap with bare hands,
when detaching the anode cap directly.
MN2-0233 Rev.1SECTION 2 PRECAUTIONS
2 — 4
2-10 Handling of S.M.D. PCBs
It is an Aloka’s policy that neither repair nor modification of PCBs used for S.M.D. is made in the
field as a rule because of the following reasons:
[REMARKS] PCB does not need repairing or modifying in the field as a rule.
When handling a PCB, do not touch the IC unless it is necessary.
IC soiled with worker’s hands may cause corrosion. Additionally, foreign particles such as fine
solder dust could be the cause of short-circuited IC lead wires whose pitch is smaller than that of
the traditional ones.
Do not give excessively large shocks to the PCB.
When replacing the ROM (Read Only Memory) on the PCB, attempting to force the ROM into its
socket would cause the PCB to be subjected to an undue force, and the following faults may :
1) Damage to PCB intermediate-layer patterns,
2) Peeling of chip devices (resistor, capacitor, diode, etc.)
3) Damage to a junction between electrode and internal element of chip devices,
4) Peeling of patterns (especially those for mounting the parts) together with chip devices since
those patterns are rather fragile compared with PCBs used before now, and
5) Damage to parts on the reverse side in the case of PCBs of both-side mounting type.
Also, a PCB mounted improperly or a warped PCB mounted as it is may cause the chip devices to
come off and the fine patterns to be cut.
Additionally, reuse of chip devices (including resistors, capacitors, diodes, etc.) is strictly
inhibited because of the following reason: Since the chip devices are lacking in lead wires, such
as those found in the traditional component parts, heat given to the PCB will be directly conducted
to the inside of chip devices. As a result, a thermal stress will occur due to a difference in thermal
expansion coefficient between each chip device and PCB, giving rise of the possibility of cracks
inside of or on the surface of chip devices or the possibility of thermal breaking (internal burning).
Very thin wiring patterns require extreme care in handling of the PCB
Be sure to observe the precautions mentioned above also to prevent the secondary accidents.
●CAUTION● When handling a PCB, avoid touching the IC and connector pins on the
devices to prevent ESD (Electro Static Discharge) damage.
A service person should preferably wear an ESD wrist strap correctly
grounded when handling a PCB.
MN2-0233SECTION 2 PRECAUTIONS
2 — 5
2-11 System Symbols
Symbols used by Aloka are described below, together with reference to IEC publication(s).
No. Symbol IEC
publication
Description
1417-5032 Alternating current
2
417-5019 Protective earth (ground)
When remove the grounding cable from the terminal
which is indicated with this symbol on this equipment, you
must reconnect it to proper terminal to avoid electrical
shock hazard
3417-5017 Earth (ground)
When remove the grounding cable from the terminal
which is indicated with this symbol on this equipment, you
must reconnect it to proper terminal to avoid electrical
shock hazard.
4417-5021 Equipotentiality
5348 Attention, consult ACCOMPANYING DOCUMENTS
6417-5008 Off (power : disconnection from the mains)
7417-5007 On (power : connection to the mains)
8878-02-03 TYPE BF EQUIPMENT
9878-03-01 Dangerous voltage
MN2-0233 Rev.3SECTION 2 PRECAUTIONS
2 — 6
2-12 A combination of UCW-4000B and software version.
A steerable CW Doppler unit UCW-4000 was changed to UCW-4000B to apply Independent probe
connector unit EU-9094 (option). Therefore, please pay attention to the following points before
installation of UCW-4000B.
1) Both SCU-4000* and EU-9094 cannot install to SSD-4000 simultaneously. Because, the
Independent probe connector unit mounts to the same position of mechanical radial probe
connector.
2) UCW-4000B cannot apply to the systems of S/N. M00104 — M01100.
3) There is a difference of the setting of JP1 in EP409200 by a combination of software version.
Software versionUCW-4000/
UCW-4000BJP setting in the board
MAINTENANCE、
SYSTEM1screen display
Ver1.0~3.0 UCW-4000 None Displays as UCW-4000.
Ver1.0~3.0 UCW-4000BRemove a jumper from JP1 in
EP490200 board.Displays as UCW-4000.
Ver3.1~ UCW-4000 None Displays as UCW-4000.
Ver3.1~ UCW-4000BDo not remove a jumper from
JP1 in EP490200 board.Displays as UCW-4000B.
2-13 A combination of SCU-4000/4000B and AD_DA “EP444400”/DBP “EP478400” board.
There is a possibility that SSD-4000 does not work correctly by a combination of SCU-
4000/4000B and AD_DA “EP444400”/DBP “EP478400” board. Therefore, please refer to the
following list for availability.
Board in SSD-4000 SCU-4000/4000B Status
AD_DA EP444400 SCU-4000 Available without problem
AD_DA EP444400 SCU-4000B Available without problem
DBP EP478400 SCU-4000 Not available
DBP EP478400 SCU-4000B Available without problem
SECTION 3
SECTION 3
Before Repairing
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 1
3-1 Repair work on the description of Service Manual
The typical processes for the repair work are shown as the Flow Chart on the next page. Do the
repair work according to this procedure. In the case of modification of the Technical Bulletin or
Upgrade Kit, see the next item 3-2.
Each procedures of flow chart are numbered to refer its detail shown from page 3-3.
Furthermore, the Flow Chart and its explanation show the time when each section of service
manual are required on repair work. This is a guide for the usage of service manual.
The service manual is very important for the repair work, especially readjustment and
performance check after completion of repair work. This is to keep the safety and quality of
equipment. If you make them, you have to describe that the treatment has been done according to
the applied section of service manual, on the repair report or the like.
The circled numbers shown in the Flow Chart on next page, are corresponded to the procedure
number shown from page 3-3.
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 2
at customer side
at your site
Yes
No
4
3
2
1
No
Yes
Reception andInvestigation
Selection and order ofrequired part(s)
Preparation
Confirmation
Repair andadjustment
Operation check
Work as normal?
Check by customerFill repair report
Approve by customerRepair again?
Present repair reportDemand to repair the
defective part(s)
Show comments of theprohibition to use on the
equipment
Report to customer
Section 4~6, 11
Section 6, 10
Technical Bulletin
History
Section 3
Section 2, 6, 9
Section 8
5
6
7
8
9 11
10
12
Demand of repair(START)
Completion(END)
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 3
Procedure 1 Reception of repair and investigation
Accept the repair request from the customer or distributor. At this time, the following points have
to be confirmed and checked,
l Model name/number, and serial number
l Name of customer, address, phone number, and name of person in charge
l Configuration of the connection of peripheral devices
l Software version or the like shown on the start up display (if possible)
l Detail of phenomenon appeared on the function of equipment
Make an examination what circuit may be defective as the function of equipment based on the
above information. If you need to know about the basic operation and special information for the
maintenance, refer to the following sections, or ask to the Technical Support,
u Section 4 PRINCIPLE OF SYSTEM OPERATIONu Section 5 SCHEMATICSu Section 6 TROUBLESHOOTINGu Section 11 SERVICE INFORMATION
The reported phenomenon may be the original problem on the equipment. Because, refer to the
Technical Bulletin separately issued to check it whether defectiveness or not. If it has been
reported as the original problem, make a work according to the Technical Bulletin.
Procedure 2 Selection of required parts and order
If you find the doubtful circuit, order the necessary parts. Then check the delivery date and
decide the date to visit on the consultation with the customer.
For the selection and order of parts, refer to the following sections,
u Section 6 TROUBLESHOOTINGu Section 10 PARTS LIST
For the electrical parts such as UNIT, check the history information on the HISTORY of this
equipment separately issued.
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 4
Procedure 3 Preparation of visiting the customer
Check the required tools, measuring devices and parts to be replaced before the visiting the
customer. Then check the special information for the equipment reference with the following
section,
u Section 3 BEFORE REPAIRING
Procedure 4 Confirmation of phenomenon
Confirm the appeared phenomenon and condition to happen it with the customer. If you don’t
know about the operation of equipment, refer to the Operation Manual attached to the equipment.
Procedure 5 Repair and readjustment
Repair the defective circuit with the brought parts. For the repair work, read the following section
carefully,
u Section 2 PRECAUTIONSAnd, examine the trouble reason depending on the situation with following section,
u Section 6 TROUBLESHOOTING The electrical or mechanical readjustment may be requested depending on the replaced parts.
Because, refer to the following section after completion of repair,
u Section 7 ADJUSTMENT
Procedure 6 Operation check
Check the system behavior to keep its condition as same as before in trouble, reference with the
following section. Be sure to do according to the description because check items are depending on
the portion to be treated.
u Section 8 PERFORMANCE CHECK
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 5
Procedure 7 Judgment of the operation quality
If the result of “Procedure 6” is passed to the all standards, do the next “Procedure 8”. On the
other side, if not, make a judgment of “Procedure 10”.
Procedure 8 Confirm by customer, make repair report and approve
Reconfirm the solution of trouble phenomenon with the customer. Then make a repair report and
obtain approval of customer.
The repair report shows not only the treatment but also the method of readjustment and operation
check. If they have been done according to the service manual, the followings have to be shown,
“Readjusted according to the Section 7 of service manual.”
“Checked according to the Section 8 of service manual, and passed.”
Procedure 9 Presentation of report and order to repair parts
Fill the repair report with necessary item, and present it according to the certain procedure.
If the defective parts that trouble cause included is available to use again by repair, make an order
to do. If you cannot judge whether the part can be used again or not, ask to the Technical Support.
Procedure 10 Judgment of possibility to repair again
As the result of judgment on “Procedure 7”, if the trouble is not solved, judge the possibility to
make the repair work again.
If available, return to “Procedure 5” and continue to work.
If unavailable, go to “Procedure 11”.
Procedure 11 Indication of the prohibition to use
As the result of judgment on “Procedure 10”, if you judge that it is impossible to continue the
repair work at this time, indicate that the equipment is still out of order, and also show the
prohibition to use, on the equipment.
Procedure 12 Report to the customer
Report the reason why the trouble cannot be solved to the customer. Then consult about the plan
of next repair work.
And do the same way from “Procedure 2”.
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 6
3-2 Upgrade work on the description of Service Manual
The typical processes for the upgrade work are shown as the Flow Chart on the next page. Do the
upgrade work according to this procedure. In the case of repair work, see the previous item 3-1.
Each procedures of flow chart are numbered to refer its detail shown from page 3-8.
Furthermore, the Flow Chart and its explanation show the time when each section of service
manual are required on upgrade work. This is a guide for the usage of service manual.
The service manual is very important for the upgrade work, especially readjustment and
performance check after completion of upgrade work. This is to keep the safety and quality of
equipment.
The circled numbers shown in the Flow Chart on next page, are corresponded to the procedure
number shown from page 3-8.
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 7
at customer side
at your site
Yes
No
Yes
4
3
2
1
No
No
Yes
Selection and order ofrequires parts/kits
Preparation
Upgrade
Can recover?
5
6
7
8
9
11
12
Operation check
Work as normal?
Do the repair work,according to item 3-1
Operation check
Work as normal?
Check by customer
Consultation withTechnical Support
10
13
14
Demand to upgrade(START)
Section 3
Section 8
Installation Procedure
Installation ProcedureSection 9
Section 8
Tech.BulletinInstallationProcedure
Show comments of theprohibition to use on the
equipment
Report to customer
Return unnecessaryparts, and report of
upgrade
Completion(END)
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 8
Procedure 1 Selection of required parts / kits and order
Accept the upgrade request from the customer, distributor or person in charge of sales. At this
time, the following points have to be confirmed and checked to decide the parts and kits,
l Document name that announced the upgrade or kit requested
l Model name/number, and serial number
l Name of customer, address, phone number, and name of person in charge
l Configuration of the connection of peripheral devices
l Software version or the like shown on the start up display
Make an examination what parts or kits are required based on the above information. For the
selection, refer to the following document separately issued, or ask to the Technical Support,
u Technical Bulletin
To confirm the detail of upgrade, see the Installation Procedure attached with applied Technical
Bulletin.
Depending on the upgrade, hardware, or software, the other upgrade may be required. Check it
with the Technical Bulletin.
Then, confirm the delivery date of required parts or kits, and decide the date to visit on the
consultation with the customer.
Procedure 2 Preparation of visiting the customer
Check the required tools, measuring devices and parts or kits to be used before the visiting the
customer. Then check the special information for the equipment reference with the following
section and document,
u Section 3 BEFORE REPAIRINGu Technical Bulletin and/or Installation Procedure
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 9
Procedure 3 Operation check before upgrade
On the basis of work, the upgrade to the defective equipment is prohibited. Because, before
upgrade work, check the behavior of equipment whether normal or not according to following
section and document,
u Section 8 PERFORMANCE CHECKu Operation Manual
Procedure 4 Judgment of the operation quality
If the result of “Procedure 3” is passed to the all standards, do the next “Procedure 5”. On the
other side, if not, go to “Procedure 10”.
Procedure 5 Upgrade work
Do the upgrade work according to the following document,
u Installation Procedure attached with kit or Technical Bulletin
Procedure 6 Operation check after upgrade
Check the system behavior to keep its condition as same as before the upgrade, reference with the
following section. Be sure to do according to the description because check items are depending on
the portion to be treated.
u Section 8 PERFORMANCE CHECKu Installation Procedure
Procedure 7 Judgment of the operation quality
If the result of “Procedure 6” is passed to the all standards, do the next “Procedure 8”. On the
other side, if not, make a judgment of “Procedure 11”.
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 10
Procedure 8 Confirmation by customer
Reconfirm any functions of equipment with the customer. Then, if need, introduce and explain
about the new functions and specification added by this upgrade.
Furthermore, if need, make a report to be approved by the customer. The report shows not only
the treatment but also the method of operation check. If it has been done according to the service
manual, the following has to be shown,
“Checked according to the Section 8 of service manual, and passed.”
Procedure 9 Return of unnecessary parts and report of completion
According to the Technical Bulletin, return the unnecessary replaced or unused parts as soon as
possible if suggested.
And, if the report of upgrade is suggested on the same document, report it with the information
required.
Procedure 10 Work for the abnormal behavior of equipment
On the result of judgment in “Procedure 4”, if the equipment does not work normal, solve the
problem according to item 3-1 “Repair work on the description of service manual” shown in this
section.
When the problem is solved, return to “Procedure 5” of this item and continue to do the upgrade
work.
Procedure 11 Judgment of possibility to recover
As the result of judgment on “Procedure 7”, if the problem has been made by this upgrade, judge
the possibility to recover it.
If available, return to “Procedure 5” and continue to work.
If unavailable, go to “Procedure 12”.
Procedure 12 Indication of the prohibition to use
As the result of judgment on “Procedure 11”, if you judge that it is impossible to recover at this
time, indicate that the equipment is the out of order, and also show the prohibition to use, on the
equipment.
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 11
Procedure 13 Report to the customer
Report to the customer that the upgrade has not been completed because of the problem on the
upgrade work. Then make a schedule to fix and complete it.
Procedure 14 Asking to the Technical Support
Report to the Technical Support about the happening of problem on the upgrade work, make an
examination to solve and order the additional parts. Before the asking, check the following points,
l Name of kit, or the issue number of Technical Bulletin showing the upgrade
l Model name/number, and serial number
l Configuration of the connection of peripheral devices
l Software version or the like shown on the start up display
l Indication of equipment such as Upgrade or History Label
l Detail of phenomenon appeared on the function of equipment
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 12
3-3 Messages
In this equipment, messages are displayed warning that the equipment is malfunctioning or
advising the correct operation method.
There are two types of message, differing according to their content.
1) WARNING
This appears at the center of screen and an alarm tone is also emitted.
2) Measurement assistance message
These refer to message used to assist you in measurement and error message. They are
displayed in the message area at the bottom of the screen while measurement is taking place
(While you are using the track-ball or rotary switch during measurement).
3) Assistance message
When you use the keyboard to operate a function in a menu, assistance message appear in the
message area at the bottom of the screen.
4) General messages
These are message related to panel and menu operations. They are displayed in the message
area at the bottom of the screen.
5) Beep tone
This tone is emitted together with one of message 1 to 4. To mute this tone, select Warning
message in Display Control of PRESET.
6) Application measurement assistance message
These refer to message used to assist you in application measurement and error message.
They are displayed in the message area at the bottom of the screen while measurement is
taking place (While you are using the track-ball or rotary switch during measurement).
Warning Area
Message Area
Fig. Message Areas
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 13
1) WARNING
No. Message Cause Treatment
1 Backup memory will be reset to
factory default.
Do you still wish to continue?
Pressing both “CTRL” and “R”
simultaneously to clear the
PRESET data and stored data.
Select “OK” or “Cancel” after
displaying the arrow mark on
the screen.
If you select “OK”, all back up
data are cleared.
2 Hard disk Access error.
Hard disk requires being
diagnosed.
In Preset control function, Data
cannot write into the Hard disk.
Press “OK” after displaying the
arrow mark on the screen.
3 Disk crashed. In Preset control function, Data in
the Floppy Disk (FD) cannot read
out. (Disk crashed)
Press “OK” after displaying the
arrow mark on the screen.
4 Error: No disk,or disk
unformatted.
In Preset control function, the data
storing was performed though FD
was not inserted or unformatted FD
was inserted.
Select “Retry” or “Cancel” after
displaying the arrow mark on
the screen.
5 Error: Disk write protected. In Preset control function, the data
storing was performed though FD
was protected from the writing.
Select “Retry” or “Cancel” after
displaying the arrow mark on
the screen.
6 Error: Insufficient disk space.
Please insert new disk.
When the data are storing into the
FD in Preset control function, the
capacity is not enough to storing.
Select “Continue” or “Cancel”
after displaying the arrow mark
on the screen.
7 Error: Disk full. Please delete
image.
When the data are loading from the
FD or MO in Preset control function,
the capacity of Hard disk is not
enough to storing.
Press “OK” after displaying the
arrow mark on the screen.
8 Hard disk Access error.
Hard disk requires being
diagnosed.
The data has been Initialized,
because of the data of Hard disk
was damaged.
Press “OK” after displaying the
arrow mark on the screen.
9 Store images to Removable
disk.
The images were stored into the
external media by STORE switch.
Wait until storing of data is
completed.
10 Could not open DICOMDIR! When searching the DICOM files
from Image Browser, the data could
not be found.
Select “Retry” or “Cancel” after
displaying the arrow mark on
the screen.
No. Message Cause Treatment
11 Can not open file ********
(File name).
After searching the files from Image
Browser, the files cannot open.
Select “Retry” or “Cancel” after
displaying the arrow mark on
MN2-0233SECTION 3 BEFORE REPAIRING
3 — 14
the screen.
12 Disk crashed. The removable disk is crashed. Press “OK” after displaying the
arrow mark on the screen.
13 MO drive not accessible.
The device is not ready.
The removable disk cannot
recognize.
Press “OK” after displaying the
arrow mark on the screen.
14 Invalid probe connected. You connected a probe not intended
for use with the equipment.
Connect suitable probe
SECTION 4
SECTION 4
PRINCIPLE OF SYSTEM OPERATION
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 1
4-1 System Specifications
Scanning System Electronic Linear Scanning
Electronic Convex Scanning
Electronic Sector Scanning
Mechanical Radial Scanning *
*:Ver.1.1.1 and higher, the SCU-4000* is required.
Simultaneously Attached Probes
Electronic Probe 3 probes
Mechanical probe 1 probe *
*: Ver.1.1.1 and higher, the SCU-4000* is required.
Operating Modes: B, M, D (PW Doppler, CW Doppler, STCW Doppler),
Flow (Velocity/Variance, Power Flow)
VOL (Ver.1.1.1 and higher, the EU-9084* is required)
M, D Mode Display
Scroll display: Moving Bar display
Sweep Speed M: 7 speeds selectable (1, 1.5, 2, 3, 4, 6, 8 Sec/Plane)
D: 7 speeds selectable (1, 1.5, 2, 3, 4, 6, 8 Sec/Plane)
Diagnostic Distance: 2~24 cm (Each probe has a diagnostic distance limit.)Display modes
Electronic Linear
Electronic Convex
Electronic
Sector
Mechanical Volume In-
dependent
B, B-Zoom, 2B ○ ○ ○ ○ ×
B (F), B (PF),B(F)-Zoom, B(PF)-Zoom2B(F), 2B(PF)
○ ○ × ○ ×
B/M ○ ○ × ○ ×
B(F)/M(F)B(PF)/M(PF)
○ ○ × ○ ×
B/PW DopplerB(F)/PW DopplerB(PF)/PW Doppler
○ ○ × ○ ×
B/CW DopplerB(F)/CW DopplerB(PF)/CW Doppler
× ○(Dependent on
probe)
× × ×
M ○ ○ × ○ ×
M(F), M(PF) ○ ○ × ○ ×
PW Doppler ○ ○ × ○ ×
CW Doppler × ○(Dependent on
probe)
× × ○
B -> VOL × × × ○ ×
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 2
B/VOL × × × ○ ×
○:Possible, ×:Impossible, F: Flow, PF: Power Flow・The option unit is required for connection of the mechanical radial probe.・ The electronic sector probe CW Doppler function (STCW Doppler) is required optional
unit.・The option unit is required for connection of the independent probe.
Probe FrequencyElectronic Probes Probe nominal frequency is 2.5~7.5 MHz.
Selection is possible by Image Freq.Mechanical Probes 6~10 MHz (the SCU-4000* is required)Volume mode Probe 3.5 MHz (the Option unit is required)
Transmission Frequency2.14, 2.5, 3.0, 3.75, 5.0, 6.0, 7.5, 10MHz (Each probe has a frequency limit)
Transmission MethodElectronic Linear, Convex: One time wave transmission / Burst wave transmissionElectronic Sector: One time wave transmission / Burst wave transmission / Continuous
wave transmissionMechanical (the SCU-4000 is required): One time wave transmission
(Wave count during burst wave transmission: 15 waves max.)
Transmission Voltage Electronic: 100 V max.Mechanical (the SCU-4000* is required): 150 V max.CW Transmission voltage: 50 V max.
Transmission Power ControlTransmission voltage is controlled by a rotary encoder.
Transmission Voltage MonitoringThe transmission voltage value is monitored by the CPU, which also stopstransmission and cuts off transmission power supply output.
Focusing SystemElectronic Linear, Convex: Transmission: 4 Levels max. (selectable from 8 types) + Acoustic lens Reception: Continuously variable + Acoustic lensElectronic Sector: Transmission: 4 Levels max. (selectable from 8 types) + Acoustic lens Reception: Continuously variable + Acoustic lensMechanical (The SCU-4000* is required): Indented surface transducer.
Receiving Addition SystemElectronic: Digital additionMechanical (the SCU-4000* is required): Analog addition
Receiving Variable Band Filter: Compatible with each frequency
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 3
Receiving Multiprocessing (electronic probe):Bi-directional simultaneous reception in both black and white and color are possible.
Image Quality Adjustment
B Gain 30 ~ 90dB (60/256 dB step)
M Gain ± 30 dB from the B Gain setting
STC 8-level slide variable resistor
Treated as digital information from the panel.
Contrast 16 levels (B, M independent)
AGC 16 levels(B, M independent)
Relief Off + 3 levels
FTC On/Off
Image/Freq. Select B: 4 kinds
M: 4kinds
Scanning line density Variable in accordance with the diagnostic distance, zoom and line
density settings.
Steered Beam ±30° max. (special probe only)
Spectral Doppler
Frequency Analysis System: FFT system
Display: Power spectrum
Frequencies: PW Doppler 2.14, 2.5, 3, 3.75, 5, 6, 7.5 MHz
CW Doppler 2, 2.14, 3, 3.75, 5 MHz
Analysis Rate (Velocity Range) : There are limits depending on the probe frequency.PW Doppler:±0.5kHz ~ 20kHzCW Doppler : ±0.5kHz ~ 42kHz
Sample Point: 1 point
Sampling Volume: 0.5 ~ 20 mm (0.5mm step)
Filters: PW Doppler: Approx. 50, 100, 200, 400, 800, 1600 Hz
CW Doppler: Approx. 50, 100, 200, 400, 800, 1600 Hz
Doppler Gain: 0 ~ 60dB, 0.83dB step
Reject : 16 levels, selectable
Contrast : 16 levels, selectable
Audio Output: Speaker and VCR output, stereo
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 4
Base Line Shift : Possible after Freeze (However, not possible in the physiological
signal.)
Spectrum Invert: Possible after Freeze (However, the physiological signal also
moves together.)
Doppler information lost portion interpolation processing function: Yes
Doppler sound output function during B Mode image display: ………… Yes
Color Flow
Frequency Estimation System: Auto-correlation method
Display: Velocity
Variance
Velocity/Variance
Power Flow
Flow Gain: 0 ~ 31.75dB、0.25dB step
Frequencies: 2.14, 2.5, 3, 3.75, 5, 7.5 MHz
Depth of Field: 24 cm max.
Sampling: Changes in accordance with the diagnostic
distance.
Decimation: 8 times max.
Average: B-Flow mode: . ……………… 3 ~ 7
B-Tissue mode: ……………… 3 ~ 7
M-mode (Flow and Tissue): 20
Flow Filter: 6 types
Spatial Filter: 4 types
Rejection: Motion Reject 4 types
Color Reject Implemented in color coding.
Color Enhance: Implemented in color coding.
Color Image Select: 3 types
Multiple echo removal function: Yes
Color image integration display function: Yes (Color capture)
Color Coding: Total 30 types
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 5
DIU
Image Gradation: Black and White 64 steps, Velocity ± 31 steps,
Variance 16 steps, Power Flow 32 steps
Displayable Scanning Lines: 1024 lines max.
Cine Memory: Black and White 512 ×65536×6-bit
Velocity/Power Flow 512 ×65536×6-bit
Variance 512 ×65536×4-bit
Display Memory: Black and White 512 × 1024 × 8-bit
Velocity/Power 512 × 1024 × 8-bit
Variance 512 × 1024 × 4-bit
Image Display Synchronization Method: TV frame sync / Ultrasonic frame sync, switchable
Ping-Pong System ON/OFF switchable
Image Processing Line Correlation Off, Low, High
Frame Correlation Off, Low, Mid, High
Frame Interpolation On/Off
Post Process 5 types
View Gamma 5 types
Cine Memory Function: Search Max. 256 frames (when there are 256
scanning lines)
Scroll 128 screens (512 Pixels per screen)
Store/Review Max. 999 frames
Image Display Functions
B/* Mode Up/Down Left-Right Display Possible
B Mode Image: Zoom Write Zoom Possible
Read Zoom Possible (During Freeze ×2 only)
Position Movement Yes
Left-Right/Up-Down Inversion Yes
90° Rotation Display Yes
2B Image, Black and White/Color Real Time Display Yes
M Mode Image: Window Display Yes
Echo Erase Yes
Request Function (Display mode change after Freeze) Yes
D Mode Image Black and White Reversal Display Yes
Black and White, Color Display Priority Function Yes
Color display of black and white image Yes
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 6
Auto display: date, time, Imaging frequency, Image direction mark,Diagnostic distance, Gain, Contrast, Frame Rate, Transmission voltage (% display), Focus mark, Velocity range, Heart rate, R-delay, BSA/GW/PSA, Maximum Velocity, Doppler angle correction value,
Preset name, VOL gamma, Opacity
Character Input: Hospital name, Patient number (ID), Patient name, Patient age, Gender, Height, Weight, Body surface area, Number of weeks of pregnancy, Comments (Movable using a trackball.)Annotation characters (Movable using a trackball.)
Graphic Display: Range mark, Time mark, Velocity mark,
Puncture guide line, Body mark,
Cursor (includes Sample gate, M-window, Angle mark),
Flow area mark, Cine scale, Bi-plane mark,
Multi-plane mark
Measuring Function
B Mode Basic MeasurementsDIST, Area (Trace, Ellipse, Circle), Volume 1, Volume 2 (Biplane, Singleplane), B Index
M Mode Basic Measurements
M.VEL, M Length. M Time, Heart Rate, M Index
D Mode Basic MeasurementsD.VEL, ACCEL, Mean VEL, D.Time, Resistance Index, Pulsatility Index,
P1/2T(VA), Heart Rate, Time, D. Caliper, D. Index, Stenosis Flow,
Regurgitation Flow, D Trace
B/D Mode Basic Measurements
Flow Volume, Stroke Volume
Obstetric Measurements
Gestational age measurement, Fetal weight measurement, Amniotic fluid
index measurement, Fetal Doppler measurement, Fetal heart function
measurement, Cervix measurement
Gynecological MeasurementsGynecological measurement, Follicle growth measurement, Bladdermeasurement, GYN Dop measurement
Cardiac Function MeasurementsLeft ventricular function measurement, M Mode measurement, D modemeasurement
Peripheral Vessel Measurements
Histogram measurement
Report Functions: Obstetrical/ Gynecological ReportCardiac Report PV Report (Ver. 2.0 and higher)Urology Report (Ver. 2.0 and higher)
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 7
VCR manual calibration function (Ver.3.0 and higher)
TV Monitor: 15-inch Color Monitor (Non-interlace)
Input-Output Signal:
R, G, B, Sync output for color TV monitor: 1 system
Composite output for B/W video printer: 1 system
Control signal (Print/Busy): 1 system
R, G, B, Sync output for color video printer 1 system
Control signal (Print/Busy): 1 system
VTR Output
Color Composite: 1 system
Y/C: 1 system
R, G, B, SYNC: 1 system
Audio L/R: 1 system
VTR Input (Input signals are switched on the main unit side and used.)
Color Composite: 1 system
Y/C: 1 system
Audio L/R: 1 system
For VTR Remote Control (for SVO-9500MD/MDP) 1 system
External interface RS-232C 1 systemCentronics 1 system
Power Supply Voltage: 100 Volt System AC 100~120 V ± 10%200 Volt System AC 200~240 V ± 10%
Service Receptacle (AC outlet):
Color TV Monitor : 1 system (internal)Printers, VTR other (Total Max. 500 VA): 4 systems
Power Consumption 1100 VA
Classification according to protection against surges: Class 1 Device
Classification according to degree of protection against surges: BF type
Use Environment: Ambient Temperature 10~40℃Relative Humidity 30~75%Air Pressure 700~1060hPa
Cabinet Dimensions: 500 mm (W) × 850 mm (D) × 1350 mm (H)
Weight Approx. 150 kg
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 8
Major Options
Photographic Equipment
Black and White Video Printer UP-895MD (NTSC)
UP-895CE (PAL)
UP-895MD/SYN (NTSC/PAL)
P91/P91W/P91E
Color Video Printer UP-2950MD (NTSC)
UP-2850P (PAL)
UP-21MD (UC)
UP-21MD (CED)
CP700A/CP700UM/CP700E
CP900A/CP900UM/CP900E
VTR SVO-9500MD4/MDP4
AG-7350/AG-7350E
Physiological Signal Display Unit
PEU-4000
Display Information: ECG (or DC IN), PCG,
PULSE (or DC IN)
Sensitivity/Position: Variable
Sweep Speed: 1, 1.5, 2, 3, 4, 6, 8 (Sec/Frame )
Mechanical Probe Connection Unit
SCU-4000 (Ver.1.1.1 and higher) *1SCU-4000B(Ver.3.1 and higher)
STCW Doppler unit
UCW-4000
UCW-4000B (Ver.3.1 and higher) *2
Tissue Harmonic Imaging unit
EU-9082 * Note: In case where the serial number of system is M00501 onwards,
EU-9082 is not optional item. Since, EP444100** is included as
standard.
VCM unit
EU-9083 (Ver.1.1.2 and higher)
VOL mode unit
EU-9084 (Ver.1.1.1 and higher)
EU-9084B (Ver.2.1.3 and higher)
Foot switch
MP-2345B
MP-2614B (3-point)
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 8 — 1
Serial I/O isolation unit
SIU-4000 (Ver. 2.0 and higher)
Independent probe connecting unitEU-9094 (Ver.3.1 and higher)*3
*1: The SSD-4000 of which “DBP EP478400” was installed into the system is not able to useSCU-4000. See page 2-6 for detail.
*2: There is a difference of the setting of JP1 in EP409200 by a combination of software
version. See page 2-6 for detail.
*3: Both SCU-4000* and EU-9094 cannot install to SSD-4000 simultaneously. Because, the
Independent probe connector unit mounts to the same position of mechanical radial probe
connector.
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 8 — 2
(Blank page)
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 – 9
4-2 System Configuration
This ultrasonic diagnostic equipment (SSD-4000) consists of the following units.
Main Body PSC-135
USM-25*
Tx & Rx part
Digital Beam Former part
Flow/Doppler part
DIU part
Main Panel L-KEY-75*
Viewing Color TV monitor IPC-1530Q (Non-Interlace)IPC-1530(U) (Non-Interlace)
Power supply unit PSU-S4000*
Optional devices
Continuous Doppler unit UCW-4000UCW-4000B (Ver.3.1 and higher)
Tissue Harmonic Echo unit EU-9082
Note 1: In case where the serial number of system is M00501 onwards, EU-9082 is not
optional item. Since, EP444100** of EU-9082 is included as standard.
Physio. signal display unit PEU-4000
Mechanical scan unit SCU-4000 (Ver. 1.1.1 and higher)SCU-4000B (Ver.3.1 and higher)
Volume mode unit EU-9084 (Ver.1.1.1 and higher)EU-9084B (Ver. 2.1.3 and higher)
Data Management unit (VCM) EU-9083 (Ver.1.1.2 and higher)3-point foot switch MP-2614B
B/W printer UP-895MD (NTSC), UP-895CE (PAL)UP-895MD/SYN (NTSC/PAL)P91/P91W/P91E
Color Video Printer UP-2950MD (NTSC)UP-2850P (PAL)UP-21MD (UC)UP-21MD (CED)CP700A/CP700UM/CP700ECP900A/CP900UM/CP900E
VCR SVO-9500MD4 (NTSC)SVO-9500MDP4 (PAL)AG-7350 (NTSC)AG-7350E (PAL)
Serial I/O isolation unit SIU-4000 (Ver.2.0 and higher)Independent probe connecting unit EU-9094 (Ver.3.1 and higher)
4-3 System Block DiagramA list of all the PCB’s mounted in this equipment (with the exception of the power supply unit
and the external operations), and a system block diagram, are shown form the next
MN2-0233 Rev.1
SEC
TIO
N 4 P
rinciple of System
Operation
4 — 10
SSD-4000 PCB LIST (1/2) (Ver. 1.0.2 and lower)SSD-4000 Unit / Module PCB model
nameName Description
Main body PSC-135 EP4261 Foot SW PCB Connector for Foot Switch
Main panel L-KEY-75 Operation Panel part, connected to the CPU board with the RS232C.
EP4438 Probe Select 1 Probe connector
EP4439 Probe Select 2 HVS control
Tx/Rx part
EP4500
/EP4441
Tx & Tx Focus
/Tx & Tx Focus 2
The electronic probe Tx circuit, transmission voltage monitor, generates thetransmission trigger for the electronic probe. (Transmission circuit for STCW)
EP4437 Rx Connector
EP4440 Pre AMP Initial Stage Pre Amp, Variable Gain AMP(Pre AMP2 (Signal level matching tothe Beam Former input part)
EP4443 A. ITF PreSTC1, 2 generation, STC, LGC generation, mechanical probe control timing.
EP4444 AD_DA B/W image reception main amp unit, output of black and white data to the DIU.
Digital Beam EP4429 Rx Beam Former A/D, digital delay circuit, handles n-ch with one PCB.
Former EP4430 TxRx CTRL Control of transmission power, DBF control, ultrasound data collection timinggeneration, HR count.
Flow/Doppler
Ultrasound Main Unit
USM-25
part
EP4435 CFP Quadrature detection (for both Spectral Doppler and Color), Color FlowProcessor (Velocity, Variance, Power calculations)
EP4436 SDP Frequency analysis for Spectral Doppler., Spectral Doppler, Color FlowInterface
Mother Board EP4445 Mother
Digital Imaging EP4423 CPU SSD-4000 overall control CPU, graphic character generation
Part EP4467 MGR Generation of parameters for interpolation in the scan converter, generation ofthe DIU’s basic clock
EP4464 BSC
(B/W DSC)
Ultrasonic line data receiver for Black & White mode, pre-processing of data forthe Black & White mode., US line Mass Memory for black and white withcapacity for 65536 records and control for that memory, Black and white ScanConverter (2-dimensional interpolation), Video memory
MN2-0233 Rev.1
SEC
TIO
N 4 P
rinciple of System
Operation
4 – 11
SSD-4000 PCB LIST (2/2) (Ver. 1.0.2 and lower)SSD-4000 Unit / Module PCB model
nameName Description
EP4465 CSC
(COL DSC)
Ultrasonic line data receiver for Color mode, pre-processing of data for the Colormode, Color line Mass Memory with capacity for 65536 records, Color ScanConverter (2-dimensional interpolation), Video memory
EP4466 VPU Conversion of black and white, Velocity, Variance data to Composite, Y/C,analog RGB data, Conversion of external Composite, Y/C to digital RGB
EP4473 Audio Audio Amp
EP4472 DISTRIBUTOR Distribution of Video signals
Viewing Color TV monitor IPC-1530Q 15” Color TV monitor(Non-Interlace)
Power supply unit
PSU-S4000
Primary PowerSupply unit
PSU-S4000-1 Primary Power Supply Supplies AC100V or AC200V system
Secondary PowerSupply unit
PSU-S4000-2 Secondary PowerSupply
DC: +3.3V、+5.1V、±5.0V、+12V、±15V、HVA (0 ~ -80V)、 HVB (0 ~ +50V)
EP4536 Volume Control knobs for physiological signals.Physio signal display unit PEU-4000 EP4468 PSC A/D of physiological signals and conversion to TV signals.
Physio signal
unit EU-5044
EP4578 Physio Amp Amplifier for physiological signals (ECG, PCG, PULSE).
STCW Doppler unit UCW-4000 EP4442 STCW Quadrature detection and A/D for STCW Doppler
MN2-0233
SEC
TIO
N 4 P
rinciple of System
Operation
4 – 12
(Blank page)
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 – 13
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3521 3
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J
12
34
5
I
12
34
5
H
12
34
5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD第 3 角 法
4
L-013-10-82-A3
15inch VGAMonitor
IPC-1530Qor1530
VCR (Option)
B/W Printer(Option)
Foot SW (Option)
B / W V I D E O OUT
COMPVIDEO IN
COMPVIDEO OUT
VCR
AC Outlet
Main Panel Assembly
L-KEY-75
PSU-S4000Power Supply Unit
COL Printer(Option)
MA4-0036
SSD-4000回 路 系統 図
Sector or Convex orLinearProbe
EP443000TxRx CTRL
VBPF
EP444400
Log AMP SignalProcess
PSC-135
EP443500
CFP
EP443600
SDP
EP444300
B u sWindow
EP426100
Y/CVIDEO IN
Y/CVIDEO OUT
PRINTERCONTROL
AUDIO IN R
AUDIO IN L
AUDIOOUT L
AUDIOOUT R
PRINTERCONTROL
VTRCONTROL
RGB
EP447000VCM
PHYSIO AMP
PSC
PEU-4000 (Option) EU-5044
EP457800
PCG In HUM Filter
EP446800
FDD
EU-9083(Option)
A ITF(Analog Inteface)
EP444000
STCW
Pre AMP
Re
lay
UCW-4000(Option)
MechaConnect
MechaMotorDrive
SCU-4000(Option)
EP444200
EP444800
EP444100
(COL DSC)
EP446600
EP446700
(Video Process)
EP446500
(B/W DSC)
EP442300
Foot SW PCB
Rx BeamFormer EP442900
ECG In Pulse
Tx & Tx Focus
AD_DA
CPU
(Manager)
VOL
Mother
EP444500
Audio EP447300
To Mother
From TxRx CTRL
Q
MO
EP446900
Pro
be
Sel
ect
1,2
EP
4438
00 a
nd E
P44
3900
VO
LC
on
ne
cto
r
Rx Connector
EP443700
USM-25
EP
4472
00
11
EP446400
EU-9084(Option)
HDD
USI-150
ECG PCG PulseSENS & POSI
MechanicalProbe
VOLScanner
A/D DelayAdd Control
Rx BeamFormer
A/D DelayAdd
Control
EP442900
A/D DelayAdd Control
Rx BeamFormer EP442900
Pre PreA M P A M P
Re
lay
H V S
H V SCONT
Tx
TrigG e n
Tx VCONT
A/DSTCWR xB P F
Mecha Tx
A M P
LogA M P
Pre
TrigGen.
AnalogControl
Local Processor
Timing G e n
HVCONT
B u sWindow
Quad. Det.
Color FlowProcess
C.F. PostProcess
USD ITF
USD ITF
Spectrum Doppler Process
LocalProcessor
Timing G e n
(Color Folw Process)(Spectrum Dop Process)
LocalProcessor
B u sArbiter
VectorTable
Timing Table
Clock Gen.
PCI-Local Bridge
MGR
ColorPallete
Scale B a r
ENC/DEC
V C M ITF
RGBDAC
VideoENC
VideoDEC
VPU
LineCorr.
Frame Corr.
Frame Corr.
M MControl
M MControl
M MControl
MassMemory
MassMemory
MassMemory
FrameInterpole
2DInterpole
2DInterpole
2DInterpole
VideoMemory
VideoMemory
VideoMemory
BSC
CSC
AudioDAC
ECGSound Gen.
V O LServo
VOLCalc .
GainADC
SamplePacking
Unpack L ineMemory
PHSInterpole
(Physio SC)
LocalProcessor
CineMemory
(Video Cine Memory)
T o P S C
T o V O L
PSCFrom VPU
Ext Video
Ext Video
T o B S CT o C S CExt Video
T o V C MF r o m V C M
FromCPU
F r o m S D P
T o V P UFrom VPU
T o B S C
From BSC
T o B S C , C S C T o a n y P C B
T o P S U — S 4 0 0 0
T oG E U ,D B F
T o D I U
T oP r o b e S e l e c tP re AMPA D _ D A
To V ideo I /O 1
EP450000or
B P F
M,physio packing
F R O M V O L
Ext Video
Dis
trib
utor
EU-9082(Option)
From BSCF r o m C S C
T o B S CT o C S C
T o V O LF R O M V O L
SYSTEM BLOCK DIAGRAM
EP453600
Applied to Ver. 1.0.2 and lower
MN2-0233SECTION 4 Principle of System Operation
4 – 14
(Blank page)
MN2-0233 Rev.1
SEC
TIO
N 4 P
rinciple of System
Operation
4 – 14 — 1
SSD-4000 PCB LIST (1/2) (Ver. 1.0.3 and higher)SSD-4000 Unit / Module PCB model
nameName Description
Main body PSC-135 EP4261 Foot SW PCB Connector for Foot Switch
Main panel L-KEY-75 Operation Panel part, connected to the CPU board with the RS232C.
EP4438 Probe Select 1 Probe connector
EP4439 Probe Select 2 HVS control
Tx/Rx part
EP4500
/EP4441
Tx & Tx Focus
/Tx & Tx Focus 2
The electronic probe Tx circuit, transmission voltage monitor, generates thetransmission trigger for the electronic probe. (Transmission circuit for STCW)
EP4639 Rx Connector
EP4440 Pre AMP Initial Stage Pre Amp, Variable Gain AMP(Pre AMP2 (Signal level matching tothe Beam Former input part)
EP4443 A. ITF PreSTC1, 2 generation, STC, LGC generation, mechanical probe control timing.
EP4444 AD_DA B/W image reception main amp unit, output of black and white data to the DIU.
Digital Beam EP4625 Rx Beam Former A/D, digital delay circuit, handles n-ch with one PCB.
Former EP4430 TxRx CTRL Control of transmission power, DBF control, ultrasound data collection timinggeneration, HR count.
Flow/Doppler
Ultrasound Main Unit
USM-25
part
EP4435 CFP Quadrature detection (for both Spectral Doppler and Color), Color FlowProcessor (Velocity, Variance, Power calculations)
EP4436 SDP Frequency analysis for Spectral Doppler., Spectral Doppler, Color FlowInterface
Mother Board EP4445 Mother
Digital Imaging EP4423 CPU SSD-4000 overall control CPU, graphic character generation
Part EP4467 MGR Generation of parameters for interpolation in the scan converter, generation ofthe DIU’s basic clock
EP4464 BSC
(B/W DSC)
Ultrasonic line data receiver for Black & White mode, pre-processing of data forthe Black & White mode., US line Mass Memory for black and white withcapacity for 65536 records and control for that memory, Black and white ScanConverter (2-dimensional interpolation), Video memory
MN2-0233 Rev.1
SEC
TIO
N 4 P
rinciple of System
Operation
4 – 14 — 2
SSD-4000 PCB LIST (2/2) (Ver. 1.0.3 and higher)SSD-4000 Unit / Module PCB model
nameName Description
EP4465 CSC
(COL DSC)
Ultrasonic line data receiver for Color mode, pre-processing of data for the Colormode, Color line Mass Memory with capacity for 65536 records, Color ScanConverter (2-dimensional interpolation), Video memory
EP4466 VPU Conversion of black and white, Velocity, Variance data to Composite, Y/C,analog RGB data, Conversion of external Composite, Y/C to digital RGB
EP4473 Audio Audio Amp
EP4472 DISTRIBUTOR Distribution of Video signals
Viewing Color TV monitor IPC-1530Q 15” Color TV monitor(Non-Interlace)
Power supply unit
PSU-S4000
Primary PowerSupply unit
PSU-S4000B-1 Primary Power Supply Supplies AC100V or AC200V system
Secondary PowerSupply unit
PSU-S4000B-2 Secondary PowerSupply
DC: +3.3V、+5.1V、±5.0V、+12V、±15V、HVA (0 ~ -80V)、 HVB (0 ~ +50V)
EP4536 Volume Control knobs for physiological signals.Physio signal display unit PEU-4000 EP4468 PSC A/D of physiological signals and conversion to TV signals.
Physio signal
unit EU-5044
EP4578 Physio Amp Amplifier for physiological signals (ECG, PCG, PULSE).
STCW Doppler unit UCW-4000 EP4442 STCW Quadrature detection and A/D for STCW Doppler
Mechanical unit SCU-4000 EP4448 Mecha Connect Probe connector for mechanical radial probe, Pre Amp, BPF, Log Amp
(Ver.1.1.1and higher) EP444301 A_ITF Generates Tx Trigger signal for mechanical probe, Transmission circuit, Motordrive circuit, Position detector circuit for transducer element.
VOL mode unit
(Ver.1.1.1 and higher)
EU-9084 EP4469 VOL Volume mode calculator, Motor servo circuit
Data Management unit
(Ver.1.1.2 and higher)
EU-9083 EP4470 VCM Multi frames memory for DICOM
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 – 14 – 3
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3521 3
K L M N P R S T U V W X Y ZO
J
12
34
5
I
12
34
5
H
12
34
5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD第 3 角 法
4
L-013-10-82-A3
15inch VGAMonitor
IPC-1530Qor1530
VCR (Option)
B/W Printer(Option)
Foot SW (Option)
B/W VIDEO OUT
COMPVIDEO IN
COMPVIDEO OUT
VCR
AC Outlet
Main Panel Assembly
L-KEY-75
PSU-S4000BPower Supply Unit
COL Printer(Option)
MA4-0036
SSD-4000回 路 系統 図
Sector or Convex orLinearProbe
EP443000TxRx CTRL
VBPF
EP444400
Log AMP SignalProcess
PSC-135
EP443500
CFP
EP443600
SDP
EP444300
B u sWindow
EP426100
Y/CVIDEO IN
Y/CVIDEO OUT
PRINTERCONTROL
AUDIO IN R
AUDIO IN L
AUDIOOUT L
AUDIOOUT R
PRINTERCONTROL
VTRCONTROL
RGB
EP447000VCM
PHYSIO AMP
PSC
PEU-4000 (Option) EU-5044
EP457800
PCG In HUM Filter
EP446800
FDD
EU-9083(Option)
A ITF(Analog Inteface)
EP444000
STCW
Pre AMP
Re
lay
UCW-4000(Option)
MechaConnect
MechaMotorDrive
SCU-4000(Option)
EP444200
EP444800
EP444100
(COL DSC)
EP446600
EP446700
(Video Process)
EP446500
(B/W DSC)
EP442300
Foot SW PCB
Rx BeamFormer EP462500
ECG In Pulse
Tx & Tx Focus
AD_DA
CPU
(Manager)
VOL
Mother
EP444500
Audio EP447300
To Mother
From TxRx CTRL
Q
MO
EP446900
Pro
be
Sel
ect
1,2
EP
4438
00 a
nd E
P44
3900
VO
LC
on
ne
cto
r
Rx Connector
EP463900
USM-25B
EP
4472
00
11
EP446400
EU-9084(Option)
HDD
USI-150
ECG PCG PulseSENS & POSI
MechanicalProbe
VOLScanner
A/D DelayAdd Control
Rx BeamFormer
A/D DelayAdd
Control
EP462500
Pre PreA M P A M P
Re
lay
HVS
HVSCONT
Tx
TrigGen
Tx VCONT
A/DSTCWR xBPF
Mecha Tx
A M P
LogA M P
Pre
TrigGen.
AnalogControl
Local Processor
Timing Gen
HVCONT
B u sWindow
Quad. Det.
Color FlowProcess
C.F. PostProcess
USD ITF
USD ITF
Spectrum Doppler Process
LocalProcessor
Timing Gen
(Color Folw Process) (Spectrum Dop Process)
LocalProcessor
B u sArbiter
VectorTable
Timing Table
Clock Gen.
PCI-Local Bridge
MGR
ColorPallete
Scale B a r
ENC/DEC
VCM ITF
RGBDAC
VideoENC
VideoDEC
VPU
LineCorr.
Frame Corr.
Frame Corr.
M MControl
M MControl
M MControl
MassMemory
MassMemory
MassMemory
FrameInterpole
2DInterpole
2DInterpole
2DInterpole
VideoMemory
VideoMemory
VideoMemory
BSC
CSC
AudioDAC
ECGSound Gen.
V O LServo
VOLCalc.
GainADC
SamplePacking
Unpack LineMemory
PHSInterpole
(Physio SC)
LocalProcessor
CineMemory
(Video Cine Memory)
T o P S C
T o V O L
PSCF r o m V P U
Ext Video
Ext Video
T o B S CT o C S CExt Video
T o V C MF r o m V C M
FromCPU
F r o m S D P
T o V P UF r o m V P U
T o B S C
F r o m B S C
T o B S C , C S C T o a n y P C B
T o P S U — S 4 0 0 0
T oG E U ,D B F
T o D I U
T oP r o b e S e l e c tP r e A M PA D _ D A
To V ideo I /O 1
EP450000or
BPF
M,physio packing
F R O M V O L
Ext Video
Dis
trib
utor
EU-9082(Option)
F r o m B S CF r o m C S C
T o B S CT o C S C
T o V O LF R O M V O L
SYSTEM BLOCK DIAGRAM
EP4536
(Applied to Ver. 1.0.3 and higher )
*: In case where the serial number of system is M00501onwards, EU-9082 is not optional item. Since, EP444100**is included as standard.
*
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 – 14 – 4
(Blank page)
MN2-0233 Rev.2
SEC
TIO
N 4 P
rinciple of System
Operation
4 — 14 — 5
SSD-4000 PCB LIST (1/2) (S/N. M01101 and higher)SSD-4000 Unit / Module PCB model name Name Description
Main body PSC-135 EP4732 Foot SW PCB Connector for Foot Switch
Main panel L-KEY-75* Operation Panel part, connected to the CPU board with the RS232C.
EP4438 Probe Select 1 Probe connector
EP443901 Probe Select 2 HVS control
Tx/Rx part
EP4441 Tx & Tx Focus 2 The electronic probe Tx circuit, transmission voltage monitor, generates thetransmission trigger for the electronic probe, Transmission circuit for STCW
EP4639 Rx Connector
EP4440 Pre AMP Initial Stage Pre Amp, Variable Gain AMP(Pre AMP2 (Signal level matchingto the Beam Former input part)
EP4443 A. ITF PreSTC1, 2 generation, STC, LGC generation, mechanical probe controltiming.
EP4444 AD_DA B/W image reception main amp unit, output of black and white data to theDIU.
Digital Beam EP4625 Rx Beam Former A/D, digital delay circuit, handles n-ch with one PCB.
Former EP4430 Tx Rx CTRL Control of transmission power, DBF control, ultrasound data collectiontiming generation, HR count.
Flow/Doppler
Ultrasound Main Unit
USM-25
part
EP4760 CFP Quadrature detection (for both Spectral Doppler and Color), Color FlowProcessor (Velocity, Variance, Power calculations)
EP4761 SDP Frequency analysis for Spectral Doppler., Spectral Doppler, Color FlowInterface
Mother Board EP4812 Mother
Digital Imaging EP4423 CPU SSD-4000 overall control CPU, graphic character generation
Part
EP476800/
EP476801
VPU Conversion of black and white, Velocity, Variance data to Composite, Y/C,analog RGB data, Conversion of external Composite, Y/C to digital RGB
EP4473 Audio Audio Amp
EP4472 DISTRIBUTOR Distribution of Video signals
MN2-0233 Rev.2
SEC
TIO
N 4 P
rinciple of System
Operation
4 — 14 — 6
SSD-4000 PCB LIST (2/2) (S/N. M01101 and higher)SSD-4000 Unit / Module PCB model name Name Description
EP4769 CMB Generation of parameters for interpolation in the scan converter, generation ofthe DIU’s basic clock,
Ultrasonic line data receiver for Black & White mode, pre-processing of data forthe Black & White mode., US line Mass Memory for black and white withcapacity for 65536 records and control for that memory, Black and white ScanConverter (2-dimensional interpolation), Video memory
Ultrasonic line data receiver for Color mode, pre-processing of data for the Colormode, Color line Mass Memory with capacity for 65536 records, Color ScanConverter (2-dimensional interpolation), Video memory
Viewing Color TV monitor IPC-1530(U) 15” Color TV monitor (Non-Interlace)
Power supply unit
PSU-S4000*
Primary PowerSupply unit
PSU-S4000B-1 Primary Power Supply Supplies AC100V or AC200V system
Secondary PowerSupply unit
PSU-S4000B-2B Secondary PowerSupply
DC: +3.3V, +5.1V, ±5.0V, +12V, ±15V, HVA (0 ~ -80V), HVB (0 ~ +50V)
EP4536 Volume Control knobs for physiological signals.Physio signal display unit PEU-4000 EP4468 PSC A/D of physiological signals and conversion to TV signals.
Physio signal
unit EU-5044
EP4578 Physio Amp Amplifier for physiological signals (ECG, PCG, PULSE).
STCW Doppler unit UCW-4000 EP4442 STCW Quadrature detection and A/D for STCW Doppler
Mechanical unit SCU-4000 EP4448 Mecha Connect Probe connector for mechanical radial probe, Pre Amp, BPF, Log Amp
(Ver.1.1.1and higher) EP444301 A_ITF Generates Tx Trigger signal for mechanical probe, Transmission circuit, Motordrive circuit, Position detector circuit for transducer element.
VOL mode unit
(Ver.1.1.1 and higher)
EU-9084 EP4469 VOL Volume mode calculator, Motor servo circuit
Data Management unit
(Ver.1.1.2 and higher)
EU-9083 EP4470 VCM Multi frames memory for DICOM
MN2-0233 Rev.2SECTION 4 principle of System operation
4 — 14 — 7
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3521 3
K L M N P R S T U V W X Y ZO
J1
23
45
I1
23
45
H1
23
45
G1
23
45
F1
23
45
E1
23
45
D1
23
45
C1
23
45
B1
23
45
A5
43
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD第 3 角 法
4
L-013-10-82-A3
15inch VGAMonitor
IPC-1530U
VCR (Option)
B/W Printer(Option)
Foot SW (Option)
B/W VIDEO OUT
COMPVIDEO IN
COMPVIDEO OUT
VCR
AC Outlet
Main Panel Assembly
L-KEY-75
PSU-S4000BPower Supply Unit
COL Printer(Option)
MA4-0036
SSD-4000SYSTEM BLOCK DIAGRAM
Sector or Convex orLinearProbe
EP443000TxRx CTRL
VBPF
EP444400
Log AMP SignalProcess
PSC-135
EP476000
CFP
EP476100
SDP
EP444300
BusWindow
EP473200
Y/CVIDEO IN
Y/CVIDEO OUT
PRINTERCONTROL
AUDIO IN R
AUDIO IN L
AUDIOOUT L
AUDIOOUT R
PRINTERCONTROL
VTRCONTROL
RGB
E P 4 4 7 0 0 0V C M
PHYSIO AMP
PSC
PEU-4000 (Option) EU-5044
EP457800
PCG In HUM Filter
EP446800
FDD
EU-9083(Option)
A ITF(Analog Inteface)
EP444000
STCW
Pre AMP
Re
lay
UCW-4000(Option)
MechaConnect
MechaMotorDrive
SCU-4000(Option)
EP444200
EP444800
(COL DSC PART)
EP476800/01
EP476900
(Video Process)
(B/W DSC PART)
EP442300
Foot SW PCB
Rx BeamFormer EP462500
ECG In Pulse
Tx & Tx Focus
AD_DA
CPU
(ManagerPART)
VOL
Mother
EP481200
Audio EP447300
To Mother
From TxRx CTRL
Q
MO
EP446900
Pro
be
S
ele
ct
1,2
EP
44
38
00
an
d E
P4
43
90
0
VO
LC
on
ne
cto
r
Rx Connector
EP463900
USM-25D
EP
44
72
00
11
EU-9084(Option)
HDD
USI-150
ECG PCG PulseSENS & POSI
MechanicalProbe
VOLScanner
A/D DelayAdd Control
Rx BeamFormer
A/D DelayAdd
Control
EP462500
Pre PreAMP AMP
Re
lay
HVS
HVSCONT
Tx
TrigGen
Tx VCONT
A/DSTCW
RxBPF
Mecha Tx
AMP
LogAMP
Pre
TrigGen.
AnalogControl
Local Processor
Timing Gen
HVCONT
BusWindow
Quad. Det.
Color FlowProcess
C.F. PostProcess
USD ITF
USD ITF
Spectrum Doppler Process
LocalProcessor
Timing Gen
(Color Folw Process) (Spec t r um Dop P rocess )
LocalProcessor
BusArbiter
VectorTable
Timing Table
Clock Gen.
PCI-Local Bridge
CMB
ColorPallete
Scale Bar
ENC/DEC
VCM ITF
RGBDAC
VideoENC
VideoDEC
VPU
LineCorr.
Frame Corr.
Frame Corr.
M MControl
M MControl
M MControl
MassMemory
MassMemory
MassMemory
FrameInterpole
2 DInterpole
2 DInterpole
2 DInterpole
VideoMemory
VideoMemory
VideoMemory
CMB
CMB
AudioDAC
ECGSound Gen.
VOLServo
VOLCalc.
GainADC
SamplePacking
Unpack LineMemory
PHSInterpole
(Physio SC)
LocalProcessor
CineMemory
(V ideo C ine Memory )
To PSC
To VOL
PSCFrom VPU
Ext Video
Ext Video
To BSCTo CSCExt Video
To VCMFrom VCM
FromCPU
From SDP
To BSC
From BSC
To B/W, COL parts To any PCB
To PSU-S4000B
ToGEU,DBF
To DIU
ToProbe SelectPre AMPAD_DA
To Video I/O 1
BPF
M,physio packingFROM VOL
Ext Video
Dis
trib
uto
r
From BSCFrom CSC
To BSCTo CSC
To VOLFROM VOL
EP444100
To VPUFrom VPU
Ver. 2.1 and S/N.M01101~
MN2-0233 Rev.2SECTION 4 Principle of System operation
4 — 14 — 8
(Blank page)
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 15
4-4 Principle of System Operation
4-4-1 System Control
CPU board CPU board controls whole operation of the equipment.
This general purpose computer controls HDD (Hard Disk Drive) and FDD (Floppy Disk
Drive).
The connected Hard Disk includes the following data.
The program of this general purpose computer
The programs of other CPUs in the equipment.
(Only when the specific command is executed, the programs are transferred from Hard
disk to Flash Memories.)
Focus data for Tx/Rx circuit corresponded to each probe type.*
*:On Ver. 2.0 onwards, the focus data are not stored into the hard disk..
Parameter data for Scan converter corresponded to each probe type.
Preset data.
The general purpose computer transfers the probe-type dependant data to DIU and Tx/Rx part
from the hard disk during the operation, when it is necessary.
On the other hand, Floppy disk drive reads the version up data from Floppy disk, and back up
the Preset data to Floppy disk.
Main Panel part L-KEY-75 (Operation panel)
Main Panel part reads the information of switches, volumes, keyboard and transfer these
information to CPU board by serial communication.
Peripheral MPUs
In addition to the above CPU, MGR/CMB board (for the control of Mass Memory) and Tx &
Rx Control board (V50, for the control of Tx/Rx part) have Micro Processors.
The software for MPU on MGR/CMB board and Tx & Rx Control board are also stored in
Flash Memory on each board (as same as CPU board), and the general purpose computer re-
write the software of those board in case of the version up.
Address bus, Data bus
The following address and data buses are used to control equipment inside.
PCI BUS:The exclusive bus to connect the general purpose computer (CPU board) and
DIU part. The CPU board transfers the Hard Disk data into Digital
Imaging unit and Tx/Rx unit via this bus. (The CPU board can access all
registers on LOCAL BUS, USC BUS, and Front End Bus via this PCI BUS.)
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 16
LOCAL BUS:The address and data bus in Digital Imaging unit.
USC BUS:UltraSound Control BUS. The address and data bus in Tx/Rx unit.
Front End Bus:The address and data bus inside the Front End part.
Using the Bus Bridge between PCI BUS and LOCAL BUS, and LOCAL BUS and USC BUS
avoids to leak the noise from CPU to Tx/Rx part, by connecting these buses only when CPU
accesses ahead of USC BUS.
Data for each probe type
The focus data and parameter data for each probe are stored in the hard disk. *
*:On Ver. 2.0 onwards, the focus data are not stored into the hard disk..
Addition of new probe data by the version up, etc. is done in the following procedure.
① From the floppy disk, the focus original data and the parameter data are copied into the hard disk.
② When the added new probe is connected first time, the CPU calculates/extracts the Tx/Rx focus data
from the focus original data, and store the extracted data into the hard disk again. This
calculation/extraction takes several seconds or few minutes. (Few minutes: Only when a mount of
focus data is required such as the steered linear probe.)
[Note] In actual version up, you may replace the hard disk which already contains the extracted focus
data.
In normal operation, the probe data (Tx/Rx focus data, parameter data) stored in the hard disk is
used. The order of data transfer is Hard Disk→CPU→DIU/DBF. If all data for one probe type
is transferred, it takes a lot of time. Therefore only necessary data (such as each Magnification
and focus data in the specified mode) is transferred. When the setting is changed from the
operation panel, the machine quickly responses if the focus data already exists in DBF, and few
seconds or ten seconds delay occurs if the focus data does not exist in DBF.
MN2-0233 Rev.1
SECTIO
N 4 Principle of System
Operation
4 — 17
Rx Beam FormerRx Beam Former
TX Rx Control
CFPSDP
Interface
Rx Beam Former
AD_DA
A ITF
Interface
Mecha(O
ption)
Front End BusIO DATA/ADRS
Tx & Tx Forcus
STCW (O
ption)
USC BU
SU
SC_DATA 0
〜15, USC_AD
RS1
〜7
Tx/Rx part
System Control 1/1
Pre AMP
MGR
Digital Imaging part
VCM(Option)
VOL (Option)PSC (Option)
BSC
CPU
BusBridge
Main Panel
RS232C
FDD
HDD
CSCVPU
LOCAL BU
SM
PU AD
0
〜31PCI BU
SPC
I_AD
0
〜31
MO
Probe Selector1, 2
In case of Ver.1.0.3 onward,
Two Rx Beam Former boards are
used.
MN2-0233
Rev.2
SE
CT
ION
4 Principle of S
ystem O
peration
4 — 17 — 1
Rx Beam FormerRx Beam Former
Tx Rx Control
CFPSDP
Interface
AD_DA
A ITF
Interface
Mecha(O
ption)
Front End BusIO DATA/ADRS
Tx & Tx Focus
STCW (option)
US
C B
US
USC_D
ATA 0
~15, USC_AD
RS1
~7
Tx/Rx part
System Control 1/1
Pre AM
P
CMB
Digital Imaging part
VCM(option)
VOL (option)PSC (option)
CPU
BusBridge
Main Panel
RS232C
FDD
HDD
VPU
LO
CA
L B
US
MPU
AD0
~31P
CI B
US
PCI_A
D 0
~31
MO
Probe Selector1, 2
CMB
S/N.M01101 onwards
MN2-0233
Rev.2
SE
CT
ION
4 Principle of S
ystem O
peration
4 — 17 — 2
(Blank page)
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 18
4-4-2 Transmission and Reception block
Tx/Rx part consists of Tx/Rx module,Digital Beam Former module, andFlow/Doppler module.
In addition, the following module/unit are installed in Tx/Rx unit. STCW Doppler unit UCW-4000* (Option)Mechanical unit SCU-4000 (Option, Ver. 1.1.1 and higher),
Tissue Harmonic Imaging unit EU-9082 (Option)
Tx Rx module:Based on the control signals from Analog Interface and the transmission triggers (Delayed
Triggers), this module transmits for electronic probes. The received signals are amplified by PRE AMP1, and sent to Rx Beam Former or UCW-4000.
Connector module:This module is PCB which mounts the connector to connect a electronic probes (Phased
array sector, electronic linear/convex).◇ The connector for Phased array sector probes and the connector for Linear/Convex probes are
used in common, it is not like SSD-2200 system.The Probe Select 2 PCB mounts HVS (High Voltage Switch) which selects simultaneous TX/Rxelements for Linear/Convex probes. (The control of HVS is done from Analog Interface.)
STCW Doppler unit UCW-4000The received signal, sent from PRE AMP1, is amplified again by Variable Gain AMP to matchthe signal level to the input level of A/D at the first stage of DBF(Digital Beam Former).There are Tx circuit, Rx Quadratural detector, and A/D for STCW in this unit.
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 19
Digital Beam Former:
The analog received signal sent from Variable Gain AMP are converted to the digital signal
respectively. Then data for each channel is delayed according to Rx focus point, and added
together.
◇ The delay is digitally processed, delay the readout from FIFO memory etc., and it is
possible to vary high accurate delay continuously. (The continuous change of Rx focus
point.)
And the function ,which very the weight of each received signal continuously, makes the
Rx beam sharp.
◇ The signal in the process is digital data, therefore it allows parallel processing by time
sharing and frame rate up.
◇ This system does not have the trouble, which is the difference of brightness in every 1cm
depth caused by one of the Rx focus boards (Delay and Adder circuit), like SSD-650, 1200,
and 2000 etc.
For B/W US image, delayed and added Rx data passes through Pre process circuit (same as Main
Amp part in previous machine), such as the selection of used frequency according to the depth, LOG
compression, Detector, AGC, FTC, CONTRAST, etc. (There are two same circuits for B/W Rx
parallel processing.)
Then B/W data is sent to DIU (Digital Imaging Unit) in every one line, via USD BUS (Ultrasonic
Line Data Bus).
The delayed and added Rx data is also sent to Flow/Doppler module for the frequency analysis of
PW Doppler and the Color Flow calculation.
On the other hand, Tx & Rx part has the following circuits.
Tx Trigger generator for the electronic probes.
The generator of Analog control signal used for Rx signal, such as Pre STC signal and
STC signal.
Timing / Control signal generator for Tx/Rx unit.
Rx Pixel Focusing(Rx continuos dynamic focusing)
Delay-Depth
Depth
Delay
Ideal delay
Analog Beam former
Digital Beam former
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 -20
Flow/Doppler module:
Flow/Doppler module executes the frequency analysis for PW Doppler / CW Doppler, and Color
Flow calculation.
For PW Doppler, Quadratural detection and FFT frequency analysis are executed for Rx signal
delayed and added in Rx Beam Former, then sent to DIU via USD Bus.
For CW Doppler, the frequency analysis is executed for the detected and added signal from UCW-
4000, then sent to DIU via USD Bus as same as PW Doppler.
For Color Flow calculation, the Rx signal delayed and added in Rx Beam Former is used, as same
as PW Doppler. Quadratural detection is executed. Then several Rx (line) signals are memorized
into Memory Block (according to Color Average setting). Data read out from Memory block
passes through the filter, which cut off Wall Motion, and Auto-correlation circuit. Auto-correlation,
which correlates signal with previous same depth signal, gives velocity information. And auto-
correlation between the same signal gives Doppler signal intensity. Using these velocity and
intensity information, Velocity, Variance, and Power data are calculated. The calculated data is sent
to DIU, via the clutter reject circuit, the spatial filter, and (Color data’s) USD Bus.
Mechanical probe unit SCU-4000 (Option): Ver.1.1.1 and higher
This is an optional unit to connect mechanical radial probes.
Based on Tx timing from Analog Interface board, Tx trigger is generated in accordance with Tx
frequency, then Tx circuit on Analog Interface board transmits.
The received signal is amplified by Pre Amp on Mecha Connect board. And the usable
frequency is selected, and Log compression is executed. Then the signal is inputted into AD_DA
board in DBF, and passes through the same circuit as electronic probe.
On the other hand, Analog Interface board detects the transducer position. Then this board
generates Tx timing, and drives the motor.
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 21
EP4438EP4439ProbeSelector
EP4448
Mecha
Connector
437
Rx
Connector
EP4443
A ITF
Tx/Rx unit ─ Tx/Rx module └ Digital Beam Former └ Flow/Doppler moduleSTCW Doppler unitMechanical sector unitTissue Harmonic unit BLOCK DIAGRAM 1/2
DBF_DATA 0~15
EP4436 SDP
EP4442
STCW
EP4444 AD_DA
EP4440
Pre AMP
EP4500
Tx & Tx Focus
EP4441
Tx & Tx Focus 2
STCWTx
Pre Pre
STCWRx
Tx trig
PreSTC1
VBPF
D/A LOGAMP
D/A LOGAMP
Detect
Detect PreProcess
PreProcess
A/D
A/D
Output
Logic
BMD_DATA_0~7
EP4435 CFP
Mechanical Servo
DOP Audio (DAC D L, R)
TimeDomain
Processor
ColorHost
ProcessorTiming
Generator
UAT BusInterface
UAT& USC
Interface
LineFilterWith
Anti-aliasVar
SpatialFilter
Resample USDInterface
Vel or Pwr
Var
MECHALOG OUT
Tr ergen tor
Analog ControlSignal Generator
EP4430 Tx Rx Control
Mecha ProbeInterface
TX START, TXCLKDOP4F0ADCLK 0~7UBW, UMMODEUFLOW, UDOPUCW, UFBLKUFOCUS0~2ECG FRAME 0,1BEAM NO 0~9MECH ON/NEW FRAME/
A/D
Var Vel/Pwr
HVSCont
Tx
Tx VCont
VA
Tx
PreAmp
HVB
Gen.
VBPF
LogAmp
MotorDrive
TD Pos.detect
Txtiming
LPF
←M
US Start
Mecha Tx H
old→
MECHALOG OUT
Rx B r
& Add Control
EP4429 Rx Beam Former
A/D Delay & Add Control
EP4429 Rx Beam Former
A/D Delay & Add Control
STC 1,2
GAINCont
STC 1,2
Gain(from MPU bus)
CWDATA I, Q
Quad. Det.For Color
WithBB Filter
CornerTurningMemory
Sequence & Det. Proc.ControlDet. I
CFP Timing
Local Processor (V50)
TimingGenerator
HV ContCPU BusWindow
HV CONT 0~5HV CONT A_Bto Power supply unit
UCW-4000
SCU-4000
Relay
MechanicalProbe
Phased array sector,or Convex, or LinearProbe
EP4445
Mother Board
CWDATA I, Q
BMD_DATA_0~7
to Digital Imaging Unit
to Digital Imaging Unit
to Digital Imaging Unit
STCW
Mechanical unit
M Tx Timing
PreST
MTIFilter
CorrelatorFor Signal& Clutter
Quad.Det.For
SpectrumDoppler
WithBB Filter
ThresholdingCoordinateTransformer
CTMController
Q.D.Cont.
AudioInterface
FrequencyDomain &
HousekeepingProcessor
USDInterface
Q.D. Control Data
Det. Q
Vel/Pwr
CPUVCM
(Option)
MG
RVPUPSC(O
ption)BSCCSCVO
L(Option)
DBF Control
SpareSD
PCFPAD
_DA
DBF3
DBF2
DBF1
Analog ITF &
ProbeConnector
MechaConnector(Option
FrontPCB Lcation
Mother
STCW(O
ption)Pre AM
PTx &
TxForcusProbe Selector2Probe Selector1
Video I/O
Mecha(Option)
HVS
Relay
Relay
VOL Control
EU-9082THE
Applied to Ver. 1.0.2 and lower
H
eam Forme
Delay
Trig.
F0 CONT CPU BusWindow
iggera
AMP1
C2
AMP2
EP4429
A/D
EP4
MN2-0233 Rev.2SECTION 4 Principle of System Operation
— 22
EP4438EP4439ProbeSelector
EP4448
Mecha
Connector
P4639
Rx
Connector
EP4443
A ITF
Tx/Rx unit ─ Tx/Rx module └ Digital Beam Former └ Flow/Doppler moduleSTCW Doppler unitMechanical sector unitTissue Harmonic unit BLOCK DIAGRAM 1/2
DBF_DATA 0~15
EP4436(~S/N.M01100) /EP4761(S/N.M01101~) SDP
EP4442
STCW
EP4444 AD_DA
EP4440
Pre AMP
EP4500
Tx & Tx Focus
EP4441
Tx & Tx Focus 2
STCWTx
PreAMP1
PreAMP2
STCWRx
Tx trig
PreSTC1
VBPF
D/A 0L
D/A LOGAMP
Detect
Detect PreProcess
PreProcess
A/D
A/D
Output
Logic
BMD_DATA_0~7
EP4435(S/N.M01100 and before)/EP4760(S/N.M01101 and after) CFP
Mechanical Servo
DOP Audio (DAC D L, R)
TimeDomain
Processor
ColorHost
ProcessorTiming
Generator
UAT BusInterface
UAT& USC
Interface
LineFilterWith
Anti-aliasVar
SpatialFilter
Resample USDInterface
Vel or Pwr
Var
MECHALOG OUT
T gerge rator
Analog ControlSignal Generator
EP4430 Tx Rx Control
Interface
TX START, TXCLKDOP4F0ADCLK 0~7UBW, UMMODEUFLOW, UDOPUCW, UFBLKUFOCUS0~2ECG FRAME 0,1BEAM NO 0~9MECH ON/NEW FRAME/
A/D
Var Vel/Pwr
HVSCont
Tx
Tx VCont
HVA
Tx
PreAmp
HVB
Gen.
VBPF
LogAmp
MotorDrive
TD Pos.detect
Txtiming
LPF
←M
US Start
Mecha Tx H
old→
MECHALOG OUT
Rx mer
y & Add Control
EP4625 Rx Beam Former
A/D Delay & Add Control
STC 1,2
GAINCont
STC 1,2
Gain(from MPU bus)
CWDATA I, Q
Quad. Det.For Color
WithBB Filter
CornerTurningMemory
Sequence & Det. Proc.ControlDet. I
CFP Timing
Local Processor (V50)
TimingGenerator
HV ContCPU BusWindow
HV CONT 0~5HV CONT A_Bto Power supply unit
UCW-4000
SCU-4000
Relay
MechanicalProbe
Phased array sector,or Convex, or LinearProbe
EP4445 (For S/N.M01100 and before)
/EP4812 (For S/N.M01101 and after)
Mother Board
CWDATA I, Q
BMD_DATA_0~7
to Digital Imaging Unit
to Digital Imaging Unit
to Digital Imaging Unit
STCW
Mechanical unit
M Tx Timing
PreS 2
MTIFilter
CorrelatorFor Signal& Clutter
Quad.Det.For
SpectrumDoppler
WithBB Filter
ThresholdingCoordinateTransformer
CTMController
Q.D.Cont.
AudioInterface
FrequencyDomain &
HousekeepingProcessor
USDInterface
Q.D. Control Data
Det. Q
Vel/Pwr
CPUVCM
(Option)
MG
RVPUPSC(O
ption)BSCCSCVO
L(Option)
DBF Control
SpareSD
PCFPAD
_DA
DBF3
DBF2
DBF1
Analog ITF &
ProbeConnector
MechaConnector(Option
FrontPCB Lcation
Mother
STCW(O
ption)Pre AM
PTx &
TxForcusProbe Selector2Probe Selector1
Video I/O
Mecha(Option)
HVS
Relay
Relay
VOL Control
EU-9082THE
Applied to Ver. 1.0.3 and higher
4
Beam For
Dela
Mecha ProbeTrig.
F0 CONT CPU BusWindow
rigne
TC
EP4625
A/D
E
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 – 22 — 1
EP4438EP4439ProbeSelector
EP4448
Mecha
Connector
EP4639
Rx
Connector
EP4443
A ITF
Tx/Rx unit ─ Tx/Rx module └ Digital Beam Former └ Flow/Doppler moduleSTCW Doppler unitMechanical sector unitTissue Harmonic unit BLOCK DIAGRAM 1/2
DBF_DATA 0~15
EP4761
SDP
EP4442
STCW
EP4440
Pre AMP
EP4500
Tx & Tx Focus 1
EP4441
Tx & Tx Focus 2
STCWTx
PreAMP1
PreAMP2
STCWRx
Tx trig
BMD_DATA_0~7
EP4760 CFP
Mechanical Servo
DOP Audio (DAC D L, R)
TimeDomain
Processor
ColorHost
ProcessorTiming
Generator
UAT BusInterface
UAT& USC
Interface
LineFilterWith
Anti-aliasVar
SpatialFilter
Resample USDInterface
Vel or Pwr
Var
Triggerenerator
Analog ControlSignal Generator
EP4430 Tx Rx Control TX START, TXCLKDOP4F0ADCLK 0~7UBW, UMMODEUFLOW, UDOPUCW, UFBLKUFOCUS0~2ECG FRAME 0,1BEAM NO 0~9MECH ON/NEW FRAME/
A/D
Var Vel/Pwr
HVSCont
Tx
Tx VCont
HVA
Tx
PreAmp
HVB
VBPF
LogAmp
MotorDrive
TD Pos.detect
Txtiming
LPF
←M
US Start
Mecha Tx H
old→
F0 CONT
MECHALOG OUT
37 Rx Beam Former
A/D elay & Add Control
EP4837 Rx Beam Former
A/D Delay & Add Control
CWDATA I, Q
Quad. Det.For Color
WithBB Filter
CornerTurningMemory
Sequence & Det. Proc.ControlDet. I
CFP Timing
Local Processor (V50)
TimingGenerator
HV ContCPU BusWindow
CPU Bus
HV CONT 0~5HV CONT A_Bto Power supply unit
UCW-4000
SCU-4000
Relay
MechanicalProbe
Phased array sector,or Convex, or LinearProbe
EP4812
Mother Board
CWDATA I, Q
BMD_DATA_0~7
to Digital Imaging Unit
to Digital Imaging Unit
to Digital Imaging Unit
STCW
Mechanical unit
M Tx Timing
2
MTIFilter
CorrelatorFor Signal& Clutter
Quad.Det.For
SpectrumDoppler
WithBB Filter
ThresholdingCoordinateTransformer
CTMController
Q.D.Cont.
AudioInterface
FrequencyDomain &
HousekeepingProcessor
USDInterface
Q.D. Control Data
Det. Q
Vel/Pwr
CPUVCM
(Option)
MG
RVPUPSC(O
ption)BSCCSCVO
L(Option)
DBF Control
SpareSD
PCFPAD
_DA
DBF3
DBF2
DBF1
Analog ITF &
ProbeConnector
MechaConnector(Option
FrontPCB Lcation
Mother
STCW(O
ption)Pre AM
PTx &
TxForcusProbe Selector2Probe Selector1
Video I/O
Mecha(Option)
HVS
Relay
Relay
VOL Control
EU-9082THE
Applied to S/N. M02347, M02348, M02365, M02400, M02414, M02416, M02430~M02470,M02601~M02750, M02801~M02925, M03051~M03075 of Ver. 2.1.4~3.0.0
EP4444 AD_DA
VBPF
D/A LOGAMP
D/A LOGAMP
Detect
Detect PreProcess
PreProcess
A/D
A/D
Output
Logic
MECHALOG OUT
GAINCont
Gain(from MPU bus)
D
Mecha ProbeInterface
Trig.Gen.
Window
g
eSTC
PreSTC1 Pr
EP48
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 22 — 2
EP4438EP4439ProbeSelector
EP4448
Mecha
Connector
EP4639
Rx
Connector
EP4443
A ITF
Tx/Rx unit ─ Tx/Rx module └ Digital Beam Former └ Flow/Doppler moduleSTCW Doppler unitMechanical sector unitTissue Harmonic unit BLOCK DIAGRAM 1/2
DBF_DATA 0~15
EP4761(S/N.M01101~) SDP
EP4442
STCW
EP4784 DBP
EP4440
Pre AMP
EP4500
Tx & Tx Focus 1
EP4441
Tx & Tx Focus 2
STCWTx
PreAMP1
PreAMP2
STCWRx
Tx trig
PreSTC1
VBPF LOGAMP
Detect PreProcess O
utputLogic
BMD_DATA_0~7
EP4760 CFP
Mechanical Servo
DOP Audio (DAC D L, R)
TimeDomain
Processor
ColorHost
ProcessorTiming
Generator
UAT BusInterface
UAT& USC
Interface
LineFilterWith
Anti-aliasVar
SpatialFilter
Resample USDInterface
Vel or Pwr
Var
MECHALOG OUT
Triggergenerator
Analog ControlSignal Generator
EP4430 Tx Rx Control
Mecha ProbeInterface
TX START, TXCLKDOP4F0ADCLK 0~7UBW, UMMODEUFLOW, UDOPUCW, UFBLKUFOCUS0~2ECG FRAME 0,1BEAM NO 0~9MECH ON/NEW FRAME/
A/D
Var Vel/Pwr
HVSCont
Tx
Tx VCont
HVA
Tx
PreAmp
HVBTrig.Gen.
VBPF
LogAmp
MotorDrive
TD Pos.detect
Txtiming
LPF
←M
US Start
Mecha Tx H
old→
F0 CONT
MECHALOG OUT
EP4837 Rx Beam Former
A/D Delay & Add Control
EP4837 Rx Beam Former
A/D Delay & Add Control
GAINCont
Gain(fromMPU bus)
CWDATA I, Q
Quad. Det.For Color
WithBB Filter
CornerTurningMemory
Sequence & Det. Proc.ControlDet. I
CFP Timing
Local Processor (V50)
TimingGenerator
HV ContCPU BusWindow
CPU BusWindow
HV CONT 0~5HV CONT A_Bto Power supply unit
UCW-4000
SCU-4000
Relay
MechanicalProbe
Phased array sector,or Convex, or LinearProbe
EP4812
Mother Board
CWDATA I, Q
BMD_DATA_0~7
to Digital Imaging Unit
to Digital Imaging Unit
to Digital Imaging Unit
STCW
Mechanical unit
M Tx Timing
PreSTC2
MTIFilter
CorrelatorFor Signal& Clutter
Quad.Det.For
SpectrumDoppler
WithBB Filter
ThresholdingCoordinateTransformer
CTMController
Q.D.Cont.
AudioInterface
FrequencyDomain &
HousekeepingProcessor
USDInterface
Q.D. Control Data
Det. Q
Vel/Pwr
CPUVCM
(Option)
MG
RVPUPSC(O
ption)BSCCSCVO
L(Option)
DBF Control
SpareSD
PCFPAD
_DA
DBF3
DBF2
DBF1
Analog ITF &
ProbeConnector
MechaConnector(Option
FrontPCB Lcation
Mother
STCW(O
ption)Pre AM
PTx &
TxForcusProbe Selector2Probe Selector1
Video I/O
Mecha(Option)
HVS
Relay
Relay
VOL Control
EU-9082THE
Applied to S/N. M02926~M03050, M03076 and after
A/D
MN2-0233 Rev.3SECTION 4 Principle of System Operation
4 — 23
4-4-3 Digital Imaging Unit
Digital Imaging Unit consists of the following parts,
◇ CPU part which controls whole ultrasound diagnostic equipment
◇ Mass Memory part which stores Ultrasonic information
◇ Scan converter part which converts Ultrasound information into TV signal
◇ Interface circuit with the peripheral equipment
, and have the following features.
◇CPU and Mass memory manager which use Flash Memory for the program ROM. Flash
memory is erasable and Re-writable on the board.
◇ Data input part corresponded to M/D up and down split display.
◇ Mass Memory part whose capacity is 65536 records and length varies.
◇ Scan converter part which adopts 2 dimensional interpolation. (The processing speed is
increased so that it can be used as VTR memory too.)
◇ RGB⇔NTSC/PAL CODEC by digital processing.
On the other hand, the following optional board/unit is installed in Digital Imaging Unit.
PSC board of Physio. signal display unit, VCM board of VCM unit and VOL board of Volume
mode unit.
USD Bus (Ultrasonic Line Data Bus)
Tx/Rx unit send the Rx data to DIU, every line. This transfer of Rx data uses the defined
exclusive bus named USD Bus. USD Bus is prepared for B/W and Color (Velocity/Power,
Variance) respectively. Tx/Rx unit outputs Request signal to DIU after completing one Rx line,
and receive Acknowledge signal from DIU, then send Rx data to DIU via USD Bus.
AD_DAboard
SDPboard
CFPboard
BSCboard
CSCboard
BW U
SD Bus
Color USD
Bus
Req.→←Ack.
Req.→←Ack.
Req.→←Ack.
Req.→←Ack.
Req.→←Ack.
Tx/Rxunit
DigitalImaging
unit
Rx data
Max. 512 pixels
8 bits(BMD_DATA0_~7_)
B/W data
Rx data
Max. 512 pixels
12 bits(CFM_DATA0_~11_)
Color data
CMB
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 24
Pre Process Part
B/W and Color (Velocity/Power, Variance) data from USD Bus are received by Scan Converter
board for Black-and-white mode and Scan Converter board for Color Flow mode, then the following
Pre processes are executed.
Pre-process for Plane mode (B mode)
B/W data: Line correlation, Frame correlation,
Velocity/Power data: Frame correlation
Pre-process for Line mode (M mode/Physio signal, DOP mode)
B/W data: Physio signal addition, thinned-out of Line, M Smooth
Velocity, Variance: Delay of M mode, thinned-out of Line, M SmoothThe contents of each process is as follows.
Line correlation:The previous and next US lines are correlated at the same depth of pixel. Itmakes lateral connection smooth, and reduces noise.
Frame correlation:The previous and next US frames are correlated at the same position of pixel.It makes the image smooth in the time direction, and reduces noise.
Physio signals addition: In B/W Line mode, the Header (the beginning 8 pixels of US line) isused for the storage of physiological signals. Stored physiological signals are read outin the same timing as US data, and converted to TV signal.
Line thin-out: Thins out the line according to the sweep speed.
Finally the header is added and sent to the next Mass Memory part.Header: In B/W Line-mode and PEU-4000 installed, 8 pixels used for Physio signals.
Mass Memory part
Mass Memory has the capacity of 65536 records (lines) for B/W, Velocity, and Variance
respectively. And it is used for real-time display and Cine memory’s SEARCH/REVIEW function. Further, there is the frame interpolation process (Frame Accelerator) for Velocity, which makescolor variation in time smooth at real-time display.
6 bits
65536 lines
512 pixels
6 bits
65536 lines
512 pixels
4 bits
65536 lines
512 pixels
B/W
Velocity or Power
Variance
Mass Memory for B/W
Mass Memory for Color
MN2-0233SECTION 4 Principle of System Operation
4-25
Scan Converter part
Data from Mass Memory is converted to the display format, by 2 dimensional interpolation, and
written into the display memory (Video Memory).
Data from Video Memory is read out in TV scan direction, then sent to Post Process part.
Post Process part (Video Process part)
The signal passes through the addition of Gray scale bar & Color bar, the addition of characters &
graphics, the decision of display priority, B/W enhancement, and Color coding from
Velocity/Variance to RGB, then outputted to Color TV monitor.
Further, there are Encoder/Decoder circuit for VTR output/input, and the input/output circuit of
Ultrasonic data for VCM (Video Cine Memory).
The connectors on DISTRIBUTOR board outputs the signal to external printer and input/output
the signal for VTR.
CPU part
This part is CPU which controls whole Ultrasound diagnostic equipment.
This CPU controls DIU, and connected with Tx/Rx unit via USC BUS. On the other hand, the
CPU is connected to Panel part by serial communication.
2 Dimensional Interpolation
US scanning line#1
US scanning line#2
US scanning line#3
Pixel ofVideo Memory
US data(from Mass Memory)
Pixel where datais written.
The center of pixel wheredata is written.
Data used forcalculation.
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 26
TIMING generator part
The timing in DIU and the TV display timing are generated by Manager (MGR/CMB) board. And
Manager/CMB board also generates the Vector data used for 2 dimensional interpolation.
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 27
EP4473
AUDIO
EP4472
DISTRIBUTOR
EP4466 VPU
EP4465 CSC
EP4464 BSC
EP4468 PSC
Physio.Gain, ADC, Pos.
BMD_DATA0_~5_
[BW]
CFM_DATA6_~11_
[Velocity/Power]
LineCorr.
FrameCorr.
Mass Memory
MassMemoryControl
SEL
MassMemoryControl
CFM_DATA0_~5_
[Variance]
BW Data[TRN_DMNA_UD0~5]
Vel/Pwr Data[TRN_DMNB_VD0~5]
Var Data[TRN_DMNB_SD0~5]
FrameCorr.
SEL
Mass Memory
MassMemoryControl
Mass Memory
FrameAccel.
2DInterpolate
VideoMemory
VectorRAM
AdrsGene.
ReadZoom
SEL
2DInterpolate
VideoMemory
ReadZoom
SEL
2DInterpolate
VideoMemory
ReadZoom
SEL
VectorRAM
AdrsGene.
M&DopLineBufferMemory
M FlowLineBufferMemory
Physio. Signal Data for Line mod
SEL
VTRDatafromDEC
SEL
VTRDatafromDEC
SEL
VTRDatafromDEC
Priority Encode
Gray scaleBar
Colorscale
OverlayMapping
CHR_GRP_GB_PHS_
USPaletteRAM
(Enhance)
DMS DataENC/DEC
AD
D
VCMITF
Frame Rate& Affine
ConversionCOLPaletteRAM
(Enhance)
Vel/Pwr
Var
BW ENC
D/A×3
BWVel/PwrVar R
GB
BW
Buffer
VGA
CompositeS (Y/C)
RGB
Decode& A/D
Frame Rate& Affine
ConversionSEL
VTRDataRGB
ExternalSync
Com
posite
SEL
for Plain mode
for Linemode
MemoryPhysiovideoGene
to VPU
FMSound
R wave Heart MarkGene
Encode
from BSC
from Physio Amp
ECGPCGPLUSEfrom Physio Amp
Decode
to PS
C(P
hysio forLine m
ode )
Heart Mark
to Mass Memory Control DBF Control
EP4423 CPU
EP4467 MGR
Connectors
S (Y
/C)
D/A
SEL
R-wave soundto DISTRIBUTOR
to VPUR wave
PHS_
(ECG, ECG mark, PCG, PLUSE)
R-wavesound
DopAudio
Audio O
UT
Audio IN
Video IN
Video O
UT(R
GB
)VC
R control signals
DIU clock
PCI- Local Bus
Bridge
DIU timing & TV timing Gene.
to/from ALOKA Local Bus
Com
pact
PC
I Bus
Timing
Clock
CPU
SCSIControlle
GraphicAccelerator
to/fromL-KEY-75
CharacterGraphic
toVPU
fromDECODER
Digital Imaging Unit
Physio Signal unitVideo Cine Memory uintVOL Mode unit
BLOCK DIAGRAM 2/2
EP4470 VCM
VideoMemory
Processor
Video O
UT(Y
/C)
Moinitor O
UT(V
GA
)
EP4469 VOL
to VOL
VOLCalc.
VOLServo
to/fromBSC
to VOL Control
LocalProcessor
CPUVCM
(Option)
MG
RVPUPSC(O
ption)BSCCSCVO
L(Option)
DBF Control
SpareSD
PCFPAD
_DA
DBF3
DBF2
DBF1
Analog ITF &
ProbeConnector
MechaConnector(Option
FrontPCB Location
Mother
STCW(O
ption)Pre AM
PTx &
TxForcusProbe Selector2Probe Selector1
Video I/O
Mecha(Option)
from BSC CSC
fromMGR
EU-9083VCM
PEU-4000Physio Signal EU-9084
VOL
CompactPCI Bus
HDDControlle
FDDControlle
EthernetControlle
ParallelControlle
SerialControlle
D/A×3
Applied to S/N.M01100 and before
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 – 28
EP4473
AUDIO
EP4769 CMB
EP4472
DISTRIBUTOR
EP476800/EP476801 VPU
EP4468 PSC
Physio.Gain, ADC, Pos.
BMD_DATA0_~5_
[BW]
CFM_DATA6_~11_
[Velocity/Power]
LineCorr.
FrameCorr.
Mass Memory
MassMemoryControl
SEL
MassMemoryControl
CFM_DATA0_~5_
[Variance]
BW Data[TRN_DMNA_UD0~5]
Vel/Pwr Data[TRN_DMNB_VD0~5]
Var Data[TRN_DMNB_SD0~5]
FrameCorr.
SEL
Mass Memory
MassMemoryControl
Mass Memory
FrameAccel.
2DInterpolate
VideoMemory
VectorRAM
AdrsGene.
ReadZoom
SEL
2DInterpolate
VideoMemory
ReadZoom
SEL
2DInterpolate
VideoMemory
ReadZoom
SEL
VectorRAM
AdrsGene.
M & DopLineBufferMemory
M FlowLineBufferMemory
Physio. Signal Data for Line mod
SEL
VTRDatafromDEC
SEL
VTRDatafromDEC
SEL
VTRDatafromDEC
Priority Encode
Gray scaleBar
Colorscale
OverlayMapping
CHR_GRP_GB_PHS_
USPaletteRAM
(Enhance)
DMS DataENC/DEC
AD
D
VCMITF
Frame Rate& Affine
ConversionCOLPaletteRAM
(Enhance)
Vel/Pwr
Var
BW ENC
D/A×3
BWVel/PwrVar R
GB
BW
Buffer
VGA
CompositeS (Y/C)
RGB
Decode& A/D
Frame Rate& Affine
ConversionSEL
VTRDataRGB
ExternalSync
Com
posite
SEL
for Plane mode
for Linemode
MemoryPhysiovideoGene.
to VPU
FMSound
R wave Heart MarkGene.
Encode
from BSC
from Physio Amp
ECGPCGPLUSEfrom Physio Amp
Decode
to PS
C(P
hysio forLine m
ode )
Heart Mark
to Mass Memory Control Tx Rx Control
EP4423 CPU
Connectors
S (Y
/C)
D/A
SEL
R-wave soundto DISTRIBUTOR
to VPUR wave
PHS_
(ECG, ECG mark, PCG, PLUSE)
R-wavesound
DopAudio
Audio O
UT
Audio IN
Video IN
Video O
UT(R
GB
)VC
R control signals
DIU clock
PCI- Local Bus
Bridge
DIU timing & TV timing Gene.
to/from ALOKA Local Bus
Com
pact
PC
I Bus
Timing
Clock
CPU
SCSIControlle
GraphicAccelerator
to/fromL-KEY-75
CharacterGraphic
toVPU
fromDECODER
Digital Imaging Unit
Physio Signal unitVideo Cine Memory uintVOL Mode unit
BLOCK DIAGRAM 2/2
EP4470 VCM
VideoMemory
Processor
Video O
UT(Y
/C)
Moinitor O
UT(V
GA
)
EP4469 VOL
to VOL
VOLCalc.
VOLServo
to/fromBSC
to VOL Control
LocalProcessor
CPUVCM
(Option)
CMB
VPUPSC(O
ption)
VOL(O
ption)Tx Rx ControlSpareSD
PCFPAD
_DA
DBF3
DBF2
DBF1
Analog ITF &
ProbeConnector
MechaConnector(Option
FrontPCB Location
Mother
STCW(O
ption)Pre AM
PTx &
TxForcusProbe Selector2Probe Selector1
Video I/O
Mecha(Option)
To B/W SC part COL SC part
fromLocal processor
EU-9083VCM
PEU-4000Physio Signal EU-9084
VOL
CompactPCI Bus
HDDControlle
FDDControlle
EthernetControlle
ParallelControlle
SerialControlle
D/A×3
Applied to S/N.M01101onwards
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 – 29
4-4-4 Physio signal display unit PEU-4000 (Option)
Physio signal display unit consists of the following parts.
Amplifier part of Physiological signals (Physio Amp board)
Converter part from Physiological signal to TV signal (PSC board)
The Physiological signal amplifier outputs each signals, ECG / PCG / PULSE, to PSC board
in DIU. And the sensitivity and position are adjusted in PSC board.
For Line mode, these Physio signals are delayed to adjust time with Doppler, and stored in
Mass Memory as the Header of Line mode Rx line. Physio signals from Mass Memory is
inputted into PSC board again, and switched over the signal for Plane mode display.
To display on TV screen, these signals are written in the memory first, then Video
Generators for ECG, PCG, and PULSE generate Overlay signals. The Overlay signals are sent
to VPU board.
The generation of ECG sound and R-Sync mark etc. are executed in PSC board.
P h y s i o A m pb o a r d
ECG AMP
PCG AMP
PULSE AMP
R-wave
HUM Filter
HPFL, M1, M2
Multiplex
ATT A/D Pos. Dem
ultiplex
Sens Adj. Pos.Adj.
Encode
LineBuffer
Memory
MM BW
FromUSDBus
Decode
For Line modedisplay
For Plane modedisplay
Selector
Memory
ToSC
ECG sound
HeartMark
R-wave
ECG videoECG mark
PCG video Gene.Pulse video Gene.
Heartmark
P S C b o a r d
R wave
ToVPU
For Line modedisplay
ToDISTRIBUTOR
To VPU
To Tx & Rx Control MM Manager
ECGIN
PCGIN
PULSEIN
Physio signal display unit PEU-4000 Block diagram
MN2-0233SECTION 4 Principle of System Operation
4 – 30
4-4-5 Power supply unit PSU-S4000
The power supply unit comprises a series power supply and switching power supply.
It supplies the power required by the main unit. It also has an isolated power for the optional
recording device.
The transmission voltage for the electronic scanning probe (HVA), and mechanical scanner
probe (HVB) is controlled by the control signals (DAT 0~5, HVA/HVB) from the main unit.
Power Supply unit PSU-S4000 Block diagram
ACINPUT
Timer
Relay
R e l a yc i r c u i t
PowerSW
O u t p u tC o n n e c t
o rPower Off signal (to release Hard Disk Head)
PhotoCouple
ACOutlet
Breaker
+5.1V
P o w e r c i r c u i t 1
+5.0V
-5.0V
-12V
-HVA
HV Cont DAT 0~7, HVA/HVB
+12V
P o w e rc i r c u i t 3
+12V
Max +50V
Max. –80V
To GEU (CWV)
To FAN
To CPU, Panel , GEU, DIU
To GEU
To GEU
From GEU(DBF Control)
To DIU (CPU)
Trans-former
For the position of Fuses, refer to theSECTION 5 SCHEMATICS.
+3.3V To CPU, Panel , GEU, DIU
P o w e r c i r c u i t 2
To CPU, Panel , GEU, DIU
-HVB
+12V
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 31
4-5 Principle of PCB operation
PCB Reference Table in Section 4
No. Title Model (1) Model (2) Model (3)
1 Probe selector 1 EP4438**
2 Probe selector 2 EP4439**
3 Tx & Tx Focus EP4500**
4 Pre AMP & Variable Gain AMP EP4440**
5 Rx Beam Former EP4429** EP4625** EP4837**
6 TxRx Control EP4430**
7 Analog Interface EP4443**
8 AD_DA EP4444**
9 CFP EP4435** EP4760**
10 SDP EP4436** EP4761**
11 STCW EP4442** EP4902**
12 BSC (B/W DSC) EP4464**
13 CSC (Color DSC) EP4465**
14 VPU (Video Process) EP4466** EP4768**
15 MGR (Manager) EP4467**
16 CPU EP4423**
17 Audio EP4473**
18 PSC (Physio. SC) EP4468**
19 Physio. AMP EP4578**
20 VOL / Servo Control EP4469**
21 Mecha. Connector EP4448**
22 VCM (Video Cine Memory) EP4470**
23 TX & TX FOCUS 2 EP4441**
24 CMB EP4768**
25 DBP EP4784**
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 32
4-5-1 Probe selector 1
This board is configured from three probe connectors for electronic probes, Relay and Probe
Code Interface.
1) Probe Connector:
These are connectors for connecting probes.
2) Relay:
This consists of 128 relays and which switch the one from PROBE 1, PROBE 2 and
PROBE 3.
3) Probe Code Interface
Controls the relay data for probe selector, and outputs the probe code data.
MN2-0233 Rev.2
SE
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4 Principle of S
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4 — 33
TITLE名称
PROBE SELECTOR 1 1/1MODEL 形名
EP4438**
RELAY
PROBE 1
PROBEON0PROBEON1PROBEON2PROBEON3GEUDT (0:11)REVCODE (4:11)
CONTROL &PROBE CODEINTERFACE
PRB1(0-n)
M-MTRVOLVOL PCODE (1:4)
PROBE 2PRB 2(0-n)
TD(n-0)
PROBE CODE( 00:09)
PROBE CODE (10:19)
RELAY (0:3)
PROBE 3PRB 3(0-n)
PROBE CODE (20:29)
From/To
Probe selector 2
From/To
Probe selector 2
M-TXRXM RX RPRBCODE (30:37)MCENT (0:3)
From/ToMecha Rx
From/ToProbe Selector 2
MN2-0233SECTION 4 Principle of System Operation
4 — 34
4-5-2 Probe Selector 2
This board consists of High Voltage Switch(HVS)and its control circuits.
1) HVS (High voltage resistant analog switch):
This consists of 16 HVS, and transducers up to 128 channels are selected and connected to
the Tx/Rx system.
2) High Voltage Switch Control
This consists of ROM(Read Only Memory)and logic circuits, and it controls HVS.
MN2-0233 Rev.2
SE
CT
ION
4 Principle of S
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4 — 35
TITLE名称
PROBE SELECTOR 2 1/1MODEL 形名
EP4439**
High
Voltage
Switch
HVS
CONTROL
TXRX nTD 0:n
HVDATA (0:15)HHVCLK/HVLE/
GEUDT (0:11)
GEUAD (2:7)
-130V (VNN),+70V (VPP),+5V (VDD)
+5V, +12V
From TX & TX FocusTo Pre AMP
To/From
Probe Selector 1
GEUDT (0:11)
GEUAD (2:7)
TX EN/
PROBE ON 0PROBE ON 1PROBE ON 2PROBE ON 3GEU DT 0:11REV CODE 4:11
M-TXRXM RX_RPRB CODE 30:37MCENT 0:3
To/From
Probe Selector 1
To/From
Probe Selector 1
To
TX & TXFOCUS
MN2-0233SECTION 4 Principle of System Operation
4 — 36
4-5-3 Tx & Tx Focus
This circuit board performs setting of the amount of delay in each channel for electronic focusing
of transmission, and outputs a transmission trigger signal at the TTL level (to the transmission
drive circuit). The output transmission trigger is used in the B (M) mode, PW Doppler mode,
Flow mode and STCW mode.
1) TX_CNT (Tx Control, FPGA)This latches transmission conditions set externally and generates Focus calculator, Delaydata and Gate Array control signals.
2) FocusCalculator
Outputs delay amount data to perform transmission focusing.
3) Delay Data ROM
Outputs delay data based on delay amount data sent from Focus Calculator.
4) Gate Array
Generates a transmission trigger for each channel based on the delay data (amount of delay)
set for each channel from ROM and wave count data (number of transmission wave pulses).
5) Driver
This is the output driver for the transmission trigger signal.
6) HV Monitor
Converts high voltage to digital, then outputs it as register data.
4 — 37
MN2-0233 Rev.1
SE
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4 Principle of S
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TITLE名称
Tx & Tx Focus 1/1MODEL 形名
EP4500**
TX_CONTHV MONITOR
GateArray
URDY/DT (0:15)
AD (2:7)TXENUMD (1:4)FSEL (0:1)BMN (0:9PHSELURSTUSYNCTXLDTXCLK
Focus
Calculator
RST、 BTXLDCSTART、 CALDCRA (0:2)FRAD (0:18)BDT (0:15)SCOFS (0:7)SDOFS (0:10)ICK2
DriverTXRX n
ATRI
GateArray
ATRI
Delay Data
ROM
ICK2CKSEL (0:3)ALTPCW MSK
EDLY (0:9)
TGA (0:4)PULS (0:3)DVDEMPHSELADD 1・2HLTXTXOFFBTXCLKENA0, 1PSICK2
HVA1
HVCC
DLY (0:10)
XAD (0:5)
ToProbeSelector 2
MN2-0233SECTION 4 Principle of System Operation
4 — 38
4-5-4 PreAMP&VariableGainAMP
This board is the initial stage Pre Amp 1 and Pre AMP2 (Variable Gain AMP) for the electronic
probes.
1) PreAMP 1
This initial stage Pre Amp has the capability of varying the gain. The maximum gain of each
Pre Amp is +37 dB.
2) Pre AMP 2
This amp further amplifies the PreAmp1 signal and sends it to the beam former board.
The gain is a maximum of 30 dB.
3) PreSTCDriver
Generates + or — voltage which is symmetrical to the PreSTC1 voltage and controls the Pre
Amp’s gain. One drive circuit drives 6 Pre Amp circuits.
MN2-0233 Rev.1
SE
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4 Principle of S
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4 — 39
Pre AMP 1TXRX n
TITLE名称
Pre AMP & Variable Gain AMP 1/1MODEL 形名
EP4440**
Pre AMP 2
Pre STC DriverPRESTC (0:2)
PRESTC_R
STC1+ (0:7)
STC1-(0:7)
STC0G+
STC0G-
STC2G
PRE2 OUTPRE1 OUT
CWRX (2:23)
To Rx Beam Former
via Rx connector
From
Tx & Tx Focus
To ST-CW
MN2-0233SECTION 4 Principle of System Operation
4 — 40
4-5-5 Rx Beam Former
By providing this board with multiple cascade connections, it is possible to configure a digital
beam former (for various numbers of channels) compatible with various types of probe. Also, by
time dividing one transmission beam and giving it different delays, beams in multiple directions
can be received simultaneously.
This board is configured from a delay & adder and the DMA controller which controls it, as
well as focus data memory which can store DBF focus data for 1 probe.
Each channel of echo data is added to step by step through a pipeline adder with a daisy chain
configuration, then sent to the next board.
Block 0~m
A.A Filter:
This is a filter for removing aliasing from A/D sampling.
A/D:
This is a 12-bit A/D converter. The sampling clock varies according to the
transmission center frequency. (When the transmission center frequency is 2.1~3.75
MHz, sampling is done at 8f0 and when the transmission center frequency is 5.0~10
MHz, sampling is done at 4f0.)
Delay & Adder :
This has been made into an ASIC and is configured internally as shown in the
following diagram. Continuous variation of the receiving focus can be performed with
this Rx Beam Former.
Digital Filter:
This filter is configured from a low pass filter (at 8f0, it performs band limitation for
oversampled data and drops the data rate to 4f0) and a band pass filter (cuts the DC
component).
SFIFO (Short FIFO Memory):
This FIFO memory is for delay correction processing for 1 channel in the depth
direction. Through delays in reading, delays of n times the sampling clock occur. In
reading, 4 continuous data are output simultaneously by the shift register for the
subsequent interpolation circuit.
GainAdderInter-polation
DigitalFilter
SFIFO
DigitalFilter
SFIFO
LFIFOmemory
memory
memoryPipelineAdder
ASIC (ML1000)
Inter-polation
MN2-0233SECTION 4 Principle of System Operation
4 — 41
Interpolation:
Using 4 neighboring data read from SFIFO memory, data which match the amount of
delay is calculated by the interpolation. Through this interpolation, the phase can be
made to deviate at a resolution of 1/32 of the sample.
Adder:
Interpolated data are added to the neighboring channel and sent to LFIFO.
LFIFO (Long FIFO Memory):
This is FIFO memory for performing large delay-time compensation processing
between channels.
Gain:
This is time variable gain processing for reception apodization. The gain is changed
linearly from the initial value to the final apodization. (Through reception apodization,
the receiving beam can be more contracted and lateral resolution is improved.)
Pipeline Adder:
This is an adder circuit, which adds the data in succeeding channels by adding to the
neighbor channel and sending the result to the next channel.
Control circuit:
In performing delay & adding through the DBF, an extremely large number of focus
data are required. These focus data can be divided into static focus data (data which
change in the probe or scanning mode) and dynamic focus data (data which it is
necessary to set in each beam). Static focus data are set directly in the hardware
register by the host before freeze is released.
As for dynamic focus data, while the previous beam is being received, the data which
are used to configure the next beam are transferred, by DMA, from Focus Data
Memory to ASIC in each beam (according to Beam Timing signals).
DMA BUS:
This is a 16-bit bi-directional internal bus used in DMA transfer when setting focus
data in the DBF.
Bus Interface:
This is an interface between the DMA Bus and the MPU Bus (USC Bus).
Input signal sampledwith 4f0.(Output from SFIFO)
Interpolation coefficient(The center of interpolationcoefficient is placed at thetime when should be found)
The signal after theinterpolation circuit.
the time when should befound by interpolation
IN1
IN2IN3 IN4
AB
C
D
IN1×A+IN2×B+IN3×C+IN4×D
MN2-0233SECTION 4 Principle of System Operation
4 — 42
Board ID:
The board number (Board ID) is prepared in each slot on the Mother board, and each
board find its process channels.
DMA Control:
This transfers focus data which are set in each delay & adder by DMA transfer in
beam units from focus data memory. Control is carried out by the DMA controller
through commands from the host and timing signals.
Focus Data Memory:
Focus Data Memory stores the dynamic focus data, which is set for the channel in
beam unit, for three probe types.
4 — 43
1)
TITLE名称
Rx Beam Former 1/1MODEL 形名
EP4429**
DBF DATA OUT
USC Bus
Beam Timing
Board ID
Focus
Data
Memory
ch0
Delay & Adder
(ML1000)
DMA
Control
Bus
Interface
DBF
Control
A/DA.A
ch1
Block 1
A/DA.A
Block 2
Block 3
Block 4
Block 5
Block 0
ch3
ch4ch5
ch6ch7
ch8ch9
ch10
ch2
ch11
DMA BUS
Control signals
Adder
Block mch n-1ch n
DBF DATA IN
MN2-0233
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MN2-0233 Rev.1
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4 Principle of S
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TITLE名称
Rx Beam Former 1/1MODEL 形名
EP4625**
DBF DATA OUT
USC Bus
Beam Timing
Board ID
Focus
Data
Memory
ch0
Delay & Adder
(ML1000)
DMA
Control
Bus
Interface
DBF
Control
A/DA.A
ch1
Block 1
A/DA.A
Block 2
Block 3
Block 4
Block 5
Block 0
ch3
ch4ch5
ch6ch7
ch8ch9
ch10
ch2
ch11
DMA BUS
Control signals
Adder
Block 6
Block 7
ch12ch13
ch14ch15
DBF DATA IN
Block 8ch16ch17
Block mch n-1ch n
4 — 43 — 2
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TITLE名称
Rx Beam Former 1/1MODEL 形名
EP483700**
DBF DATA OUT
USC Bus
Beam Timing
Board ID
FocusData
Memory
ch0Delay & Adder (MR6332)
DMAControl
BusInterface
DBF
Control
A/Dch1
Block 1
A.A
Block n
Block 0
ch4ch5
ch6ch7
DMA BUS
Control signals
Adder
chn-3chn-2
chn-1chn
DBF DATA IN
A.A
ch2
A/Dch3 A.A
A.A
MN2-0233SECTION 4 Principle of System Operation
4 — 44
4-5-6 Tx Rx Control
This circuit board performs interfacing of the DBF unit (Front end interface, Tx trigger, Rx
focusing, beam processor, Doppler processor, flow processor and the units which make up their
control units) and the host processor and the IBM/PC (for debugging). And it generates data
collection timing, R-delay and heart rate counts, and FPGA initialization of each Rx/Tx beam
former.
Local Processor (Flash Memory, Dual Port RAM):
This is a NEC 16-bit CPU (V50HL). Flash Memory (Program, FPGA data) and dual port RAM
are used for memory.
In the normal operating state, the local processor and host share dual port RAM and carry out
communications. However, when upgraded, the host accesses the local processor’s bus directly
and the local processor’s program and FPGA configuration data are written to the local
processor’s flash memory.
Control Bus Interface (Host Bus Buffer, UC BUS Buffer):
This is a bus buffer, which connects between the DIU and host bus for controlling DBF.
Timing Generator:
This generator generates a basic clock of 120 MHz, the Doppler PRF and Tx/Rx timing. Tx/Rx
timing is sent to each PCB in the DBF by the UAT Bus (ultrasound Tx/Rx timing signal bus).
R-Delay Generator:
Through the R-wave signal sent from the DIU, this generator outputs delay signal, R Delay in
50 μs units.
Heart Rate Count:
The R wave signal is counted in 1 ms units by the local’s timer, and after an average is
calculated from several pulse beats, it is output.
TV sync:
This is a signal for synchronizing the ultrasonic scan frame with the TV vertical sync signal
(VD). The signal is sent from the digital imaging unit.
Probe connect:
This detects connection of a probe and generates interrupt processing to the host. This board
does not participate in processing after interrupt, and doesn’t read the probe code.
Watch dog timer 1:
This timer monitors failure at the local processor and in the case of faulty operation (failure of
the timer to reset within the predetermined time), it resets the local processor and returns the reset
state status to the host.
Watch dog timer 2:
This time monitor watchs failure at Host Processor.
MN2-0233SECTION 4 Principle of System Operation
4 — 45
PC Interface:
This connects the ISA bus to an external personal computer. Using this, the board in the DBF
unit can be accessed directly by a personal computer and individual circuit boards inside the unit
can be adjusted and inspected .
HV Control:
This outputs control signals which control the transmission voltage.
FPGA Control:
This outputs signals for setting FPGA data.
LED:
The operating state can be checked by the LED.
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TITLE名称
Tx Rx Control 1/1MODEL 形名
EP4430**
Local Processor(V50HL)
TimingGenerator
FPGAControl
R-DelayGenerator
Probeconnect
UC BUSBuffer
Host BusBuffer
HVControl
PCInterface
Dual PortRAM
Program/DataFlash Memory
TV sync
ISA bus Power unit(DIU)
UC BUS
USC BUSGEUR waveFPGAsUAT BUS
U SYN
40MHz
MN2-0233SECTION 4 Principle of System Operation
4 — 47
(Blank page)
MN2-0233SECTION 4 Principle of System Operation
4 — 48
4-5-7 A ITF
The major purpose of this PCB is control of the front end unit, and it has the following functions.
Interface for the CPU bus (between the USC BUS and Front End bus).
Generation of analog circuit control signals.
Generation of mechanical probes timing.
Bus Buffer (for Data Bus, for Address Bus):
A CPU bus (USC BUS: Ultrasound Control Bus) is provided for a Data bus and for an Address
bus.
Bus Window (for Data Bus, for Address Bus):
The CPU is asynchronous with the system. Therefore, since the noise from the CPU bus is not
transmitted to the front end unit, this window is closed when the front end unit is not accessed.
Local DMA Function (DMA Controller, DMA Data & Address Memory):
Data for each Mode, such as Pre STC, can be first received from the CPU and stored here in
memory, then during the US Blank period, it can be set (transferred from memory to the front
end unit (and within this PCB).
If the local DMA function is being used, it is necessary to wait for data from the CPU and a
“URDY” signal can be output to the Bus Buffer from the DMA Controller.
Counter for Signal Start:
Generates the respective analog control signal start timings.
Analog Control Signal Generator
This signal generator generates the following analog control signals.
Pre STC 1:
(Just as with the previous Pre STC) this is used to suppress saturation of signals from
near distances. Pre STC 1 controls the gain of Pre Amp 1.
Pre STC 2:
When the Pre Amp (Pre Amp 1) output is maximum, this signal is 100 mV~200 mV,
but the A/D input range is 1 Vp-p. Then, matching of levels between the “Pre Amp 1
output” and “A/D input” is performed by Pre Amp 2. The signal used to control this
Pre Amp 2’s gain is Pre STC 2. (Pre STC 2 can be changed in the depth direction and
the probe model name and Tx frequency, etc. change.)
*STC :
This is the STC signal which corresponds to the setting with the panel’s STC knob.
The value set by the STC knob is converted from analog to digital at the operation
panel and read to the CPU via the RS232C, then is sent to this circuit board digitally
via the USC bus.
MN2-0233SECTION 4 Principle of System Operation
4 — 49
*Aperture Compensation :
Through DBF use, the near distance aperture begins from few elements. Then the
aperture compensation signal is added to the Gain signal and the near distance start is
prevented from becoming dark.
*Angle Gain:
The apparent aperture of the phased array sector probe (electronic sector probe)
becomes smaller (from the center), when the ultrasound beam is steered. Therefore this
signal is used to perform Gain compensation in the Angle direction. (This
compensation is always constant and cannot be changed from the operation panel.)
*Lateral Gain:
This is a signal used to change the gain according to the direction of the ultrasonic
beam. This lateral gain signal changes in accordance with the “Angle Gain” setting in
the operation panel. (In the kinetic image, etc., in order to make detection of the heart
wall edge easier, gain in a specific direction can be raised.)
*: The signals of STC, Aperture Compensation, Angle Gain and Lateral Gain are
mixed as Gain Control signal, then outputs it to AD_DA board.
A/D converter :
In order to detect the plane direction of a multi-plane (Trans-esophageal) probe, this
A/D converter converts the Potentio signal from the Multi Plane Probe to digital.
Mechanical Probe Interface:
With the signals, Mech Line Start and Mech Frame Start, it generates US Blank
(Usync), Mecha Hold that holds to make the Start in the certain depth to prevent the
miss function by interferences.
Trig.Generator
Generates the transmission trigger signal based on M Tx Timing signal sent from
Mecha. Probe Interface.
Tx Driver
Generates transmission pulse based on transmission trigger signal.
TD Position Detect & Motor Drive
Controls motor driving for mechanical probe based on encoder signals (M_A, M_B,
M_Z)from the mechanical probe.
Tx timing
Generates transmission timing signal for mechanical probe.
When “Mech. Tx Hold” signal from Mechanical Probe Interface is received, stop a
revolution of motor.
MN2-0233
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TITLE名称
A ITF 1/1MODEL 形名
EP4443**
FromUSC BUS
FromUSC BUS Bus
Buffer
DMA
Controller
BusBuffer
(for Data Bus)
(for adrs. Bus)
DMADATA & ADRS.Memory
Bus
Bus
(for adrs. Bus)W
Window
Front End Bus
Counter For Signal Start
1.Pre Stc 12.Pre Stc 23.STC4.Apertur Comp.5.Vertical Band Pass
( for Mecha only)
Analog Control Signal Generator1.Pre Stc 12.Pre Stc23.STC4.Apertur Comp5.Angle Gain6.Lateral Gain
A/D Convert1.Pot. Data Read
Mecha Probe
Interface
for Multi Plane Probe
Usync(usblk)
Adrs Bus
DMA RequestAdrs Decoder
Mech Line Start
Mech Frame Start
Mech Hold
Usync
Bus Disenable
Bus Disenable
Gain Control (To AD_DA)Pre STC 1 (To Pre Amp)Pre STC 2 (To Pre Amp)
To each Register
Adrs Bus
(for Data Latch)
Data Bus Data Bus Front End Bus
POT SIG
ToMechaconnector
Trigger
Gene.
TxDriver
M Trig. MTXRX
Motor
DriverTD Pos.detect
M_A,M_B,M_Z
FromMecha.Connector
In case of EP444300**, the circuits inside this frame are not mounted.
MN2-0233SECTION 4 Principle of System Operation
4 — 51
(Blank page)
MN2-0233SECTION 4 Principle of System Operation
4 — 52
4-5-8 AD_DA
This is the BW image beam processor. (This corresponds to the Main AMP in the previous
equipment.)
Receiving signals sent from the Rx Beam Former undergo analog signal processing after
conversion to analog form, then are converted to digital and output to the Digital Imaging Unit.
Digital Filter (Center Frequency Variable BPF):
16-bit US signals which underwent phasing addition in the Beam Former board first undergo
band pass filtering in the ML2011. Both the character of DBF and allocation of depth direction
are set by register data.
Stage Distribution & Limit:
Through 3 types of bit shifting which are carried out in accordance with the signal size, the gain
is divided into 3 types.
During parallel reception, (previously, 2 US signals were processed in 1 system), from this output,
it becomes necessary for circuits for 2 systems to be used.
D/A Converter :
After adding, a series of signal processing is performed in analog. After division into stages,
they are converted to analog, pass through the LPF corresponding to the band of the receiving
signal. Then, they are input to the Log AMP.
Analog Signal Processing:
Log compression, detection, FTC, Relief, AGC, Contrast, Video Amp, and AA Filter are
provided in 2 circuits for 2-direction simultaneous reception (parallel processing)
As the signal process specification, there are one type of FTC, six steps of RELIEF, 16 steps of
AGC, and 16 steps of CONTRAST.
Gain Control:
The Gain is controlled by the Gain_CNT signal sent from Analog Interface board.
Digital Output:
After the AA Filter, data are converted from analog to digital, then are decimated by FIFO to the
proper sample count and output to the DIU.
Control:
This control creates the control signals necessary for this board. The basic clock is 4f0 in the
Single Process Mode and 8f0 in the Parallel Process Mode.
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TITLE名称
AD_DA 1/1MODEL 形名
EP4444**
DigitalFilter
(ML2011 × 2)
RF0~15
LogAmp
(TL441)
D/A LPF
LPF
SW
D/A LPF
LPF
SW
D/A LPF
LPF
SW
A/D
LPFLPF
VideoAmp
SW
LPFLPFLPFLPFLPFLPF
SW
Sta
ge
Distrib
ute
& L
imit
8 8
LF SEL
F_SEL0~2
F_SEL0~2
CLK 4F0
3
3
LogAmp
(TL441)
D/A LPF
LPF
SW
D/A LPF
LPF
SW
D/A LPF
LPF
SW
A/DLPFLPF
VideoAmp
SW
LPFLPFLPFLPFLPFLPF
SW
Output
Logic
8 8
LF SELF_SEL0~2
F_SEL0~2
CLK 4F0
3 3
Controlpart
COR_GAIN
MECH ON
F_SEL 0~2FLOWLF SEL
CONTRAST 0~3HI CONT
AGC 0~7B/M GAIN 0~7B/, FTC ON, RELIEF 0, 1
USC_DATA
USC_ADRS
BMD_DATA0~7
FromBeam Former
From Mecha Sec Tx/Rx
CAR_REJ
SW
Mech RF
Mech ON
PARAL
+ +
+ +
Gain_CNT
Detect
Detect
CAR_REJ
CAR_REJ
FTCRelief [0~2]
FTCRelief [0~2]
AMP
AMP
Contrast [0~3]
Contrast [0~3]
Contrast
Contrast
AGC [0~3]
AGC +
Reliefcircuit
Reliefcircuit
MN2-0233SECTION 4 Principle of System Operation
4 — 54
4-5-9 CFP
This circuit board performs quadrature detection (for both Spectral Doppler, Color Doppler) and
performs color calculations for signals sent from the after quadrature detection, and determines
Velocity, Variance and Power.
1) Acquisition Unit:
This fetches RF digital data from the Rx Beam Former board and performs quadrature
detection (digitally).
Afterward, it outputs the data via a (digital) low pass filter to SDP’s frequency analysis
unit and to the color calculation block of this
2) Memory Block:
This is configured from Memory Blocks 1 and 2 for 2 channels, Channel A and Channel B
(CF_A_I, Q and CF_B_I, Q). The line memory of each memory block has a capacity
corresponding to 8 directions, with 16 times in a single direction. (B color calculations are
executed from data for multiple times from the same direction.) Multiple line data after
quadrature detection are first stored in this memory block, then data in the same direction
and at the same depth are read out continuously and color calculations are executed.
3) Wall Filter:
This is a filter for eliminating wall motion. The filter’s characteristics are changed by setting
the flow filter.
4) Correlator for signal & clutter
Data from the same position before time T (T is the data repetition cycle) are auto-correlated
with the current data and velocity vectors are determined. And by auto-correlating the same
data among themselves, Doppler signal intensity (power) is determined.
This calculates the clutter velocity component and the power. Each caluculated result is
cumulatively added and outputed.
5) CoordinateTransformer
An average velocity (VEL) is determined by coordinate conversion of the auto correlator’s
output. Also, the variance (VAR) from ∑|R(T)| and ∑R(0) and the Doppler signal strength
(PWR) is determined from ∑R(0).
6) Thresholding
Clutter is estimated (by the organizational movement) and data are cleared from portions
with clutter.
7) Sequence & Det. Proc. Control
Controls Color calculator block based on the control and timing signals sent from SDP
board.
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Acquisition
UnitDBF_DATF(0:15)
AU_IM (0:18)
SD_RE (0:15)、 SD_IM (0:15)To SDP
To
SDP
TITLE名称
CFP 1/1MODEL 形名
EP4435**
FromRx Beam Former Corner
Turning
Memory
Wall
FilterAU_RE (0:18)
Auto-Correlatorfor signal
& clutter
ThresholdingCoordinate
Transformer
(X,Y → r、θ) Var
Velocity/Power
Sequence & Det.Proc. Control
CTM
Controller
Q, D. Control Data
CFP Timing
From
SDP
AcquisitionTimingGenerator
4FoDTCLOKCF_ONCF_B_MRXSYNCITYP(0:1)C_F?DIV (0:3)DOPPRFNEW_FRAMEDBF_CWONSD_PWONSD_CWOND_RST
ACQUIRE
Phase
Power
|R(T)|
Clutter Phase
Clutter Power
Proccess Timing
MN2-0233SECTION 4 Principle of System Operation
4 — 56
4-5-10 SDP
This board performs Doppler analysis for Spectrum Doppler sent from the CFP board after
quadrature detection. And this receives Velocity, Variance and Power data from the CFP board, and
after passing it, through the spatial filter and re-sampling. Afterwards, it performs Pixel Smoothing
process and Variance Enhancement process. This board sends them to the Digital Imaging Unit via
the color ULD Bus (Ultrasonic Line Data Bus).
1) Time Domain Processor:
This performs missing signal estimation, wall motion filter processing and Doppler
deviation frequency with FFT calculation. Doppler Audio calculations are also performed
here.
2) Frequency Domain Processor:
On analyzed the Doppler deviation frequency by FFT calculations, this processor performs
averaging of the frequency direction, averaging of the timer direction, log compression, gray
scale mapping and interpolation of the number of points in the frequency direction, then
outputs the results to FIFO memory.
3) Output FIFO:
After Doppler calculation results are written to this FIFO memory, they are sent to the
Digital Imaging Unit via the ULD Bus (Ultrasonic Line Data Bus).
4) ULD Bus Interface:
The ULD bus is used in common in the B-mode, M-mode and Doppler. Therefore, if one
line of data are written to the FIFO memory, if this interface circuit outputs a request signal
to the bus and receives an acknowledge signal, the Doppler calculation results are output to
the ULD bus.
5) Process Timing Generator:
This generates signal (PROCESS_) which is the standard for the time domain processor’s
basic interrupt cycle (PRF). It also generates the clock (SCF CLOCK) for the Switch
Capacitor Filter for audio signals.
6) USC Bus Interface:
This interface receives control commands from the host via the USC bus.
7) Spatial Filter:
This uses a spatial direction (2-dimensional) filter, eliminates color noise and smoothes
color data.
Resample
This conducts re-sampling of data for TV display through the DIU.
9) Timing Generator:
Generates timing signal for color calculation, and output it to CFP board.
4 — 57
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Selector
AU_IM (0:15)AU_RE (0:15)
FromCFP
FromSTCW
CW_DATA_I、 Q
CW_DTCLK_ICW_STRB_
UAT Bus
Interface
USYNCFSYNCUBWUMMDUFLWUDOPUCWNEWFRMUFMD (0:3)RXSYNC
TimeDomainProcessor
(DSP 1/2)
ROM RAM
AudioInterface
FrequencyDomainProcessor
(DSP 2/2)
USD Bus
InterfaceROM RAM
Output
FIFO
BMD_D_(0:7)To BSC
ACQUIRE
ProcessTimingGenerator
USC BusInterfaceUSC BUS
FromTxRx Control
CLK96PRF
From/ToTxRx Control
CLKDIV
CLK20M
to TDP, FDP
CLK
5MHz
PROCESS_
SCF CLOCK
BMD_ACK_BMD_BUSY_BMD_CLKCFM_CLK_CFM_ACK_
SpatialFilter
Line Filterwith
Anti-alias
TITLE名称
SDP 1/1MODEL 形名
EP4436**
CF_VEL (0:7)
CF_VAR (0:7)
From
CFP
Output
FIFO
CFM_D_(0:11)To CSC
Timing
Generator
ColorHostProcessor(DSP 2/2)
CF_TIMING(0:20) To CFP
To AUDIO
Resample
MN2-0233SECTION 4 Principle of System Operation
4 — 58
4-5-11 STCW
This circuit board is configured from STCW (Steerable Continuous Wave Doppler) Rx circuits,
etc.
1) Rx Low Pass Filter for STCW:
This is an approximately 6 MHz band elimination filter.
2) Mixer (for STCW):
This carries out quadrature detection by sin+/- and cos+/- signals.
3) Local Signal Generator for STCW:
Generates sin+/- and cos+/- signals for 24 channels.
4) Signal Processor (analog signal process for CW):
STCW can be interchanged. This processor is configured from an AA filter and A/D
converter.
5) Controller for STCW . (Control for CW Doppler):
This is configured from a local signal generator control circuit, an A/D converter control
circuit, etc.
4 — 59
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TITLE名称
STCW 1/1MODEL 形名
EP4442**
Rx Low
Pass FilterMixer
Signal
Processor
Local Signal
Generator
CWRX (0:23)
From PreAMP
AP(0:23),AN(0:23)
BP(0:23),BN(0:23)
ASIG(0:23)
BSIG(0:23)
FIL Q
FIL I
Controller
for STCW
DATA Q
DATA ITo SDP
GEUDT (0:15)GEUAD (2:7)GEUWDSGEURDSGEUBUSUCWGEUBLK1TXCLKTXLDCW FIL0, 1DOPPRFDOP96
LDTA (1:4)DATA (0:12)
48PRFAD CLKAD SAMPAD CS
CK
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 60
4-5-12 BSC (BW DSC)
This consists of the Ultrasonic Line Data Receiver (ULDR), Mass Memory (MM) and Scan
converter (SC) for the black-and white mode (B, M, D-modes).
Ultrasonic Line Data Receiver:
For Plane mode, It carries out preprocessing of data received from the Ultrasonic Line Data Bus,
such as correlation, , and send it to Mass Memory
For Line mode, It performs mainly sweep speed generation and US data re-sampling for the Line
Mode (M-mode, Doppler Mode).
Mass Memory:
This is large capacity memory, which is capable of storing 65536 black and white lines sent from
the ULDR block. And Frame correlation circuit for black-and-white is also mounted on this
board.
The ultrasound data stored in this memory are used for real time display and for Search in Cine
memory.
Data read from this mass memory are sent to the SC BW block.
Scan Converter:
This carries out 2-dimensional interpolation of Ultrasound line data sent from mass memory, the
same as the SSD-5000/5500, then converts them to the TV display format and outputs them.
1) Line Correlation Circuit for B/W Data
Line Memory :There are two line memories, each line memory has a capacity for a respective ultrasound
line (512 pixels x 6 bits) and is used in line correlation.
By gathering 3 ultrasonic lines (2 lines from line memory and 1 line as current ultrasonic
data) and applying a FIR filter in the horizontal direction, line correlation is accomplished.
2) B/W Data Frame Correlation Circuit
Frame Correlation Auto Setting: In order to prevent differences in the apparent fast and slow
frame rate effect in the same correlation, the correlation table is switched to match the frame
rate.
3) Line Buffer Memory (for M & Doppler):
This is line buffer memory for time axis adjustment with a 512 pixel x 6-bit capacity.
4) SEL
This is a physiological signal/US data selector circuit for adding the physiological signal to
the initial 8 bits of the US record. (In the Line Mode, the physiological signal and US data
are stored together in mass memory for each record.)
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 61
5) Micro Processor
This is a microprocessor for controlling the ultrasound line data stored in massmemory. The Hitachi SH4 is used for this processor.The program is written in 64 Mbits of Flash Memory and can be upgraded by the CPU.
6) Mass Memory Controller
This generates mass memory read, write and refresh cycles.
7) Mass Memory
This is variable length mass memory with a capacity of 65536 records (US Lines). The
memory’s capacity is 65536 records x 512 pixels x 6 bits, and is controlled every 32
records /cluster. STORE image for Cine Memory is recorded in Hard Disk.
Vector RAM
Parameters used in interpolation of ultrasound data are set in this Vector RAM from the
MGR (Manager) board.
This memory has a capacity of 128 KBytes, enough for 2 frames of data with 512 lines per 1
US frame.
9) Address Generator
Generates interpolation address information and Video RAM addresses.
10) SEL
This selects between internal ultrasound data (6-bit) and external VTR data (R, 6-bit).
Signals from the VTR are converted to digital RGB signals (6 bits each) by the VPU board,
then are written to Video RAM on the SC BW block and the SC COL block with the
following allocations.
R (6-bit) → SC BW Block for BW (within 8 bits), 6 bits are used.
G (6-bit) → SC COL Block for Velocity (within 8 bits), 6 bits are used.
B (6-bit) → SC COL Block for the remaining 2 Velocity bits and for Variance, 4 bits are
used
11) 2D Interpolation
This performs calculations for 2-dimensional interpolation. (In the horizontal direction,
interpolation of up to 32 pixels can be done.)
6-bit data become 8-bit data after interpolation. (However in M and D, there is no
interpolation, so data remain 6-bit data even after being output from the interpolation circuit,
and the lower order 2 bits are unused.)
12) Video Memory (1M Byte)
This is display memory with a capacity of 4 screens (512 pixels x 512 pixels x 8 bits per
screen) and the 4 screens have the following configuration.
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 62
Ultrasonic data are written to this Video RAM in the same display format as that of a TV
screen. And they are synchronized with the TV Sync signal and read out. There is enough
memory for 4 screens and they can be used for complex modes (B/M, B/D, B/B), single
mode requests after freeze, for Ping-Pong display, etc.
Also, data from the VTR during VTR playback are also written to this Video RAM. (During
VTR playback, and during real time, data from the VTR pass through this Video RAM and
serve to reduce image wobble.)
The Video RAM write cycle is 80 ns and data from the VTR can also be written to it
directly (without passing through the VTR ITF, etc.)
13) VGA Display Control block
This block performs TV display control to satisfy the specification of non interlace display
by using the ASICfor non interlace diplay.
・Read Zoom
This is a circuit for performing Zooming (Read Zoom) after frozen.
・SEL
This selects between a normal image and a Zoom image.
512pixel
512pixel
8 bit
Left screen↓
Right screen↓
←screen for Ping
←screen for Pong
For VTR palyback, two screens (512pixel×1024pixel) are put together and used.
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VGA Display Control
TITLE名称
BSC 1/1MODEL 形名
EP4464**
LineCorrelation
M & DopLine BufferMemory
MicroProcessor
MassMemoryControl
Mass Memory
ReadZoom
VideoMemory
2DInterpolation
AddressGenerator
VectorRAM
SEL
SE
L
SE
L
FrameCorrelation
BMD_DATA (0:7)
Physio. Signal Data for Line mode
From PSC
To CSC
To PSC(Physio. forline mode)
VCR datafrom VPU
BW
To VPU
MGR bus
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 64
4-5-13 CSC (Color DSC)
This consistes of the Ultrasonic Line Data Receiver (ULDR) for Color flow mode (Plane and
Line Modes), Mass Memory and Scan Converter.
ULDR:
It carries out preprocessing of Color Flow data (Velocity and Variance) received from the
Ultrasonic Line Data Bus, such as correlation, and sends it to Mass Memory.
Mass Memory:
This is a large capacity memory where 65,536 lines of color line information (Velocity: 6-bit;
Variance: 4-bit) sent from the ULDR block can be stored. And Frame correlation circuit for
color (Velocity) is also mounted on this board.
The color data stored in this memory (Velocity, Variance) are used for real time display and for
Search in Cine memory.
Data read from mass memory are sent to the SC COL block.
SC COL:
Color line data (Velocity, Variance) sent from mass memory undergo 2-dimensional
interpolation and converted to TV display format, then output.
1) Velocity Data Frame Correlation Circuit
This is configured from a Frame Correlation Table and a Selector. It has the same operation
as the circuit for B/W.
2) M Flow Line Buffer Memory (for M Flow):
This is line buffer memory for time axis adjustment with a 512 pixel x 6-bit capacity.
3) Mass Memory Controller
This generates timing signals (mass memory read, write and refresh cycles) for mass
memory, and rearrange the data according to the their signals. When read out the data
(Volocity deta only) from mass memory, it adds the beam number into the data.
4) Mass Memory
These are memories to store the Velocity and Variance data.
These are two variable length mass memory with a capacity of 65536 records (US Lines).
5) Frame Accelerator
This circuit executes the frame interpolation, to increase frame rate of velocity data in
appearance.
6) Vector RAM
Parameters used in interpolation of ultrasound data are set in this Vector RAM from the
MGR (Manager) board.
This memory has a capacity of 128 KBytes, enough for 2 frames of data with 512 lines per 1
US frame.
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 65
7) Address Generator
Generates interpolation address information and Video RAM addresses.
Velocity Data
SEL: Switches between internal Velocity data (6-bit) or external VTR data (Green: 6-bit
+ Blue: 2-bit).
2D Interpolation:
Performs calculations for 2-dimensions interpolation.
Video memory:
This is display memory with the capacity for 4 screens worth (512 pixels x 512
pixels x 8 bits per screen).
Velocity data (6-bit) are written to this Video memory in the same display format as
that of a TV screen. And they are synchronized with the TV Sync signal and read
out.
VGA Display Control block:
This block performs TV display control to satisfy the specification of non interlace
display by using the ASICfor non interlace diplay.
Read Zoom:
This circuit performs Zoom operation (Read Zoom) after freeze.
SEL:
Switches between the normal image and the zoom image.
Variance Data
SEL: Switches between internal Variance data (4-bit)) and external VTR data (Blue, 4-
bit).
2D Interpolation:
Performs the calculations necessary for 2-dimensional interpolation.
Video memory:
This is display RAM with a 4-screen capacity (512 pixel x 512 pixel x 4 bits per
screen). Variance data (4-bit) are written to this video RAM in the same display
format as a TV screen, and are read out in sync with the TV’s sync signal.
VGA Display Control block:
This block performs TV display control to satisfy the specification of non interlace
display by using the ASICfor non interlace diplay.
Read Zoom:
This is a circuit for executing a zoom operation (Read Zoom) after freeze.
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 66
SEL:
This selects between the normal image and a zoom image.Velocity Data
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TITLE名称
CSC 1/1MODEL 形名
EP4465**
M FlowLine BufferMemory
MassMemoryControl
Mass Memory
ReadZoom
VideoMemory
2DInterpolation
AddressGenerator
VectorRAM
SE
L
SE
L
SE
L
FrameCorrelation
CFM_DATA (6:11)(Velocity/Power)
From SDP
From MGR
VCR datafrom VPU
Vel/Pwr
To VPU
Mass Memory
MassMemoryControl
FrameAccelerator
SE
L
CFM_DATA (0:5)(Variance)
SE
L2DInterpolation
VideoMemory
ReadZoom
To VPUVar
VGADisplayControl
MN2-0233SECTION 4 Principle of System Operation
4 — 68
4-5-14 VPU
Graphics and other overlay signals are added to UDA (Ultrasound Data), VDA (Velocity Data)
or SDA (Sigma = Variance Data) data after interpolation which are sent from the scan converter,
then VGA signal for non interlace monitor and an analog TV signal (Composite, Y/C, Analog
RGB) are output.
Also, this PCB contains a video signal interface circuit for interfacing with the VCM (Video Cine
Memory).
And this converts external Composite signals, Y/C signals and analog RGB signals to digital
RGB data (6-bit x 3) and outputs them to the Scan Converter boards.
1) Overlay Mapping
This receives Graphic signals and Physio signals and outputs Code signals for overlay,
“OVCD.”
2) Scale Bar Generator
This generates the gray scale bar and color bar. Test patterns (which can be displayed in
operations in the Maintenance Menu) are also generated here.
3) Priority Encode
Based on priority order settings (UCP: Ultrasound_ Compare, VCP, SCP) from the
operation panel, display or non-display of BW data and Velocity / Variance data is decided.
4) US Palette RAM
This uses three 256K bit RAM modules and performs BW signal coding processing. BW
data are converted to image quality which corresponds to the Gamma and Post Process
settings by this circuit.
5) Color Palette RAM
This uses three 256K bit RAM modules and performs color signal coding processing.
Velocity and Variance data are converted to RGB data which correspond to the color coding
settings by this circuit.
6) Add & Clump
This adds BW data from US Palette RAM and Flow information (RGB data) from the Color
Palette RAM. Since the BW and R, G and B data before adding are 8-bit data, respectively,
it is possible that each 8 bits of RGB data after adding will exceed “FF”, and when it
exceeds “FF”, it is clumped together with “FF.”
7) VCM Data ENC/DEC
This converts BW, Velocity and Variance data to Palette data for the VCM. And this
decodes palette data (BW or Variance, Velocity) from the VCM and converts it to BW,
Velocity and Variance data.
MN2-0233SECTION 4 Principle of System Operation
4 — 69
VCM ITF
This selects between output of Palette data or RGB data (internal data or playback data from
the VTR) to the VCM.
9) FrameRate &Affined Conversion
Converts VGA signal to digital RGB signals as TV timing form for NTSC/PAL.
10) ENC
This is a digital encoder which encodes digital RGB signals to composite signals or Y/C
signals.
11) D/A
This converts digital RGB signals to analog RGB signals.
12) Buffer
Buffer for the distribution of TV signals.
13) Video Decoder
This uses a digital video decoder, and there are internally the video multiplex for selection
of Composite or Y/C and a digital decoder which converts composite or Y/C signals to
digital RGB signals (8-bit x 3).
14) Freme Rate & Affined Conversion
This performs frame rate conversion of the digital RGB signals which converted at Digital
Video Decoder. And when PAL system , the image resolution is converted (expansion).
MN2-0233 Rev,2
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Gray Scale
Bar Gene.
Overlay
Mapping
Priority E
ncode
D/A x 3
EncoderFrame Rate
& Affined
Conversion
VCM Data
ENC/DEC
Color Scale
Bar Gene.
USPalette RAM(Enhance)
ColorPalette RAM(Enhance)
AD
D &
Ove
rlay
Buffer
Frame Rate
& Affined
Conversion
Decode
SE
L
PHS_
From BSC or CMB BW
From CSC or CMB Vel/Pwr
From CSC or CMB Var
BWVel/PwrVar BW
RGB
VGA
CompositeS(Y/C)
RGB
From Distributor Composite
From Distributor S (Y/C)
To BSC & CSC, or CMB VTR Data RGB
External Sync
TITLE名称
VPU 1/1MODEL 形名
EP4466**
To/From VCM
ToDistributor
To MonitorviaDistributor
VCMITF
Frame Rate
Conversion
For Graphic
CHR_GRP_GB
D/A x 3
MN2-0233SECTION 4 Principle of System Operation
4 — 71
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MN2-0233SECTION 4 Principle of System Operation
4 — 72
4-5-15 MGR
Timing is achieved by the TV timing signal and signals, etc. for specifying the screen display
frame, etc. and the basic clock in the Digital Imaging Unit is generated.
1) Clock Generator
This is the Digital Imaging Unit’s main clock. The divided by 4 clock is sent to each PCB in
the DIU.
2) MM_SC Vector
Generates Vector RAM data and outputs them to both BSC and CSC boards.
3) Timing Table
This controls TV Timing signal and signal for setting of the frame of image.
This memory is divided between that for Horizontal and that for Vertical, with the addresses
being circulated and display frame generated and supplied to each block.
4) Local CPU (SH-4)
This is the main 24-bit digital signal processor, which operates at 40 MHz.
This gemerates control signal for Mass Memory in BSC and CSC boards.
5) PCI-Local Bus Interface
Interface between Compact PCI Bus and Local Bus.
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TITLE名称
MGR 1/1MODEL 形名
EP4467**
HOST CPU
PCI-LOCAL
Bridge
PCI-Bus
Local
CPU
Local-Bus
アービタ
LHLD_
LHLDA_
Flash
Memory
Work-RAM
Local-Bus
Clock
Generator
VCO
MM_SC
Vector
Timing
Table
SC_VECT
VGA DISP
Timing
12.5874MHz
25.1748MHz
Mass Memory
Control
SC_STATUS
FREEZE
ULD-BUS
MN2-0233SECTION 4 Principle of System Operation
4 — 74
4-5-16 CPU
This is a general purpose computer (general purpose personal computer) which runs General OS, and,
just with ordinary general purpose computers, the circuits from which it is configured are changed
gradually one part at a time.
The major functions of this computer are control of the hard disk, and communications with the
MGR board inside the Digital Imaging Unit.
This computer also performs reading of program data from the floppy disk drive and detailed
calculations of data for focusing.
As for other functions, a battery is mounted in this computer which maintains a system overall
calendar (clock) from which the calendar on the PCB is created.1) CPU
An AMD K6 based microprocessor.
2) Clock Generator
Supplies a clock to the BUS.
3) CPU – PCI bridge
Interface between PCIBUS and CPUBUS. Performs control of cache memory and the PCI
bus.
4) MEMORY
Memory installed in this general purpose computer. (64MB, DIMM)
5) HDD Controller
A hard disk drive is connected here.
6) VGA BIOS
This is BIOS ROM for the VGA display.
7) VGA Controller
Controller for the VGA display.
PCI – ISA Bridge(Key Board, Real Time Clock)
This is a 16-bit bus (ISA bus) controller.The calendar (clock) for the system overall runs based on this real time clock’s calendar.
The battery for this calendar (clock) is mounted on this circuit board.
9) KEYBOARD / MOUSE
The same keyboard and mouse as that of a personal computer can be connected.
10) Serial Controller
Communicates between Operation panel and this board.
11) FDD Controller
1.4 MByte floppy disk drive is connected here.
MN2-0233
SECTION 4 Principle of System Operation
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12) Graphic Accelerator
Outputs character and graphic data to VPU board with LVDs(Low Voltage Differential
Signaling).
13) SCSI Controller
SCSI device (MO disk drive, etc) is connected here.
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TITLE名称
CPU 1/1MODEL 形名
EP4423**
ClockGenerator
SCSI I/OController
SerialController
GraphicAccelerator
EthernetController
ParallelControllerCPU
FDDController
HDDController
Compact PCI Bus
To VPUCharacterGraphic
CPU -PCIBridge
VGABIOS
To/FromL-KEY-75
(Operation Panel)
To/FromHDD(J4)
PCI – ISABridge
To/FromFDD(J11)
To/FromSCSI(J12)
To/FromKEYBOARD, (J9) MOUSE (J10)
VGAController
ToVGA Monitor
(P1)
Battery
MEMORY
MN2-0233
SECTION 4 Principle of System Operation
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MN2-0233SECTION 4 Principle of System Operation
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4-5-17 Audio
This is the audio signal distribution circuit.
1) DAC
This converts respective left and right serial (digital) Doppler sound data sent from the SDP
board from digital to analog.
2) LPF (Switched Capacitor Filter)
This is a low pass filter for cutting the higher harmonics from D/A converted staged
waveforms. A switched capacitor filter (SCF) which is necessary for matching D/A
quantized frequencies and for changing steep cutoff frequencies is used.
3) LPF 1
This is a low pass filter (with a cutoff frequency of 18 KHz) for preventing SCF switching
noise.
4) LPF 2
When Doppler PRF are low, at 500 Hz and 1 KHz, the SCF’s switching frequency is low
and the switching noise frequency is also low, so LPF 2, with a cutoff frequency that is even
lower than that of LPF1 is used to prevent noise from getting mixed in.
5) Selector
This selects whether to use the output from LPF1 or the output from LPF2.
6) Sel
This selector decides whether to use or not to use the ECG R wave BEEP sound (ECG
BEEP SOUND) which is sent from the PSC board. When the sound is not used, it is
turned OFF by the ABSENT signal so that unnecessary noise is not output.
7) Adder
This mixes the ECG BEEP SOUND and Doppler sound (left and right). The mixed sounds
are output at the audio out connector for VTR. It is used at the same time for a sound which
is emitted by the equipment’s own speakers.
Limit
This is an input limitter circuit for audio signals played back from the VTR.
9) Selector
This selects between internal Doppler sound (sound data from the SDP board) and external
(VTR) sound.
10) Buffer
This is the buffer for audio. This is output via the motherboard to the TV monitor (with
speakers).
4 — 79
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TITLE名称
Audio 1/1MODEL 形名
EP4473**
DOP AUDIO_L
DOP AUDIO_R
DAC
2chSerial Data
Input
DAC D L
DAC D R
SCF L_OUT
SCF R_OUT
LPF 1
Selector
L MIX
R MIX
Limit
Limit
Selector
AUDIO IN_L
AUDIO IN_R
AUDIO OUT_L
Adder
Adder
SelR-wave SOUND
ABSENT
Buffer
Buffer
EXT ON
AUDIO OUT_R
LPF 1
LPF 2
LPF 2
LPFSwitched Capacitorfilter
LPFSwitched Capacitor filter
DAC CK
LPF CK
MN2-0233SECTION 4 Principle of System Operation
4 — 80
4-5-18 PSC (PCB for Physio signal display unit PEU-4000)
The major functions are 3-channel (ECG, PCG, PULSE) A/D conversion and conversion of
physiological signals to TV signals.
1) Sample Rate Generator
This generates the sampling rate which is the basis for the sweep speed. The TV horizontal
Sync signal (TV H timing) is divided by 17 and supplied where needed.
2) ECG_LPF (100Hz, -12dB/oct)
This is a Nyquist filter which takes into consideration the ECG signal characteristics.
3) PCG_LPF (1KHz, -12dB/oct)
This is a Nyquist filter which takes into consideration the PCG signal characteristics.
4) HPF L, HPF M1, HPF M2
This is a high pass filter for PCG. It is selected for each preset application. (HPF L: 50 Hz, 6
dB/oct., HPF M1: 50 Hz, 12 dB/oct., HPF M2: 150Hz, 24 dB/oct.)
5) Sel, Filter PCG
Selects a PCG filter in accordance with the register setting (Filter PCG).
6) Emphasis
This is a high pass filter for high frequency emphasis of PCG signals.
7) PULSE_LPF (100Hz, -12dB)
This is a Nyquist filter which takes into consideration the PULSE signal characteristics.
MPX
This selects which physiological signal will undergo A/D conversion.
9) ATT, SENS
This is an attenuation circuit for adjusting the sensitivity of physiological signals. (SENS in
the drawing has registers for 3 channels, ECG, PCG and PULSE.)
10) AD Converter
Converts physiological signals to 10-bit digital signals, and use higher 9-bit from them.
11) Position, POS
Adds values corresponding to the display position to the AD converter’s output and sets
limits. (POS in the diagram is a register where values corresponding to the display position
are set.)
12) DEMUX
This divides the time divided physiological signal data into the ECG, PCG and PULSE
signals. Also, since the PCG frequency band is high compared to the sweep speed, it
samples the MAX value (P MAX) and MIN value (P MIN) and corrects them.
13) Encode
Outputs physiological signal data to the ULDR L circuit board. Physiological signals are
MN2-0233SECTION 4 Principle of System Operation
4 — 81
packed in the Line mode (M Doppler mode) record’s header. (8 bits of the black and white
record header are reserved for the physiological signal.) Records with the physiological
signal packed in them are stored together with the physiological signals in mass memory, so
even after reading from mass memory, the time phases of the physiological signals and M
(or Doppler) image can be matched.
14) VA Count
This generates addresses in the vertical direction from display frame timing (DISP V
FRAME) in the vertical direction. By using the current vertical address (Now VA) and the
just previous vertical address (Prev VA), when the amplitude is reduced (in B/M vertical
display, etc.) and displayed, linkage with physiological signals is improved in the output.
15) MM In, Decode
While in the Line mode, physiological signals are extracted from the US data output from
the MM BW board and the ECG, PCG (PMAX, PMIN) and PULSE signals are divided to
each channel.
And there is a delay buffer which can delay the physiological signal for 1 sec. (max) to
revise the delay of Doppler spectrum.
16) Sel×4
Selects whether the Line mode physiological signal (*** on L) or the Plane mode
physiological signal (*** on P) will be used.
17) Memory
This is the memory for physiological signals for displaying them on the screen. (When
displaying physiological signals in B images and storing them, the physiological signal is
stored in thehard disk.)
18) -16, +16 (ECG-16, ECG+16)
Generates the signals which are the basis for the ECG sync mark. The ECG sync mark is
displayed with an amplitude of ±16 lines (16 TV lines).
19) HA Generator
The address in the horizontal direction when the physiological signal is read from memory
is generated from the horizontal direction display frame timing (DISP H FRAME). (In order
to display scroll, the current horizontal write address is referred to and the read out address
is generated.)
20) Write Address Generator
This generator generates the horizontal address when the physiological signal is written to
memory. (The memory’s vertical address corresponds to the physiological signal’s
amplitude.)
21) CMP × 6pcs.
This compares the output from memory with the current vertical address (and the just
previous vertical address) and if the values are the same, the physiological signal is
MN2-0233SECTION 4 Principle of System Operation
4 — 82
displayed on the screen. This is a comparater to make that comparison.
22) ECG Video Generator
Performs ECG signal interpolation.
23) ECG Marker Generator
Generates the ECG sync mark.
24) PCG Video Generator
This fills in the lines between the PCG MAX value and MIN value.
25) PLS Video Generator (PWR OUT PLS)
This performs PULSE signal interpolation.
26) Heart Mark Generator
When the ECG’s R wave comes, the heart mark (♥) is displayed for 3 TV fields. Together
with this display, the LED on the PCB lights up.
Also, the R wave detection information is sent to the “Mass Memory Manager” and
“Digital Beam Former.”
27) FM Sound Generator, LPF:
This generates a BEEP sound from the ECG R wave (using a FM sound source). (The
generated BEEP sound is sent to the DISTRIBUTOR board and finally is output by the TV
monitor’s speaker.)
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LPF100Hz -12dB
Position
SENS
ATT ADC
FilterPCG
Memory
Memory
+8
-8
Memory
Memory
Emphasis
HPF M2
HPF M1
HPF LDEMUX
M
P
X
SampleRate Gen
ECG Signal
R Wave
TV H timing
PLS on P
PLS on L
PMIN on PPMIN on L
PMAX on PPMAX on L
ECG on PECG on L
Prev. VA
ECG+8
ECG-8
Now VA
MGR, DBF
RWAVE DETECT
AUDIO
ECG BEEP
PWR OUT
PLS
PWR OUT
PCG
PWR OUT
MARK
PWR OUT
ECG
HBMK
ULDR OUT
Sel
Sel
Sel
Sel
Sel
PLS VideoGen.
PCG VideoGen.
ECG VideoGen.
ECG MarkerGen.
LPFFM Sound Gen.
Heart Mark Gen.
VA Count
HA Gen.
WA Gen.
Decode
LPF100Hz -12dB
LPF1KHz -12dB
PCG Signal
PLS Signal
Encode
PMIN
PMAX
MIN
MAX
PLS
PCG
ECG
CMP
CMP
CMP
CMP
CMP
CMP
POS
DISP VFRAME
DISP HFRAME
MM In
TITLE名称
PSC 1/1MODEL 形名
EP4468**
D
EL
AY
MN2-0233SECTION 4 Principle of System Operation
4 — 84
4-5-19 Physio Amp (PCB for Physio signal display unit PEU-4000)
This circuit board is the physiological signal amp for the SSD-4000. Internal circuitry includes the
patient sensor unit circuits (inside the dotted line in the block diagram) and the device side circuits.
These circuits are electrically isolated using a photocoupler and DC-DC converter.
1) ECG Circuits
ECG PreAmp:This is the initial stage AMP of the ECG signal. It amplifies an approximately
20 dB signal.
Amp & Auto offset compensation:This is the ECG signal amp, and amplifies it to
approximately 40 dB. Also, it suppresses ECG signal offset voltage fluctuations.
HUM Filter:This filter eliminates humming noise from the application power supply.
HUM Filter Exch. SW:This is a 50/60 Hz select switch for the HUM filter. The select switch is
mounted in the physiological unit’s cabinet and can be operated externally.
OSC:Generates a triangular wave (with an amplitude of approx. 6 V pp and a generation cycle
of approx. 1.8 KHz).
Comparator:Compares the ECG signal from the HUM filter and the triangular wave from the
OSC and performs pulse width modulation.
Photo Coupler:A photocoupler is used for the purpose of isolating the patient side sensor unit
circuit and the equipment side circuit.
L.P.F.(Low Pass Filter):Demodulates signals from the photocoupler which have undergone
pulse width modulation and converts them to analog signals.
Gain & Offset Adj.:Adjusts the Offset voltage and amplitude of signals from the L.P.F. The
offset voltage is +2.5 V.
ECG DC IN:Input unit for signals from an external device.
Gain & Offset Adj.:Adjusts the gain and offset of signals from ECG DC IN. The offset voltage
is +2.5V.
Switch:This is a switch for switching between the ECG signal and the DC IN signal. If a signal
is input to DC IN, it is switched to the DC IN side. If signals are input simultaneously to
ECG and DC IN, DC IN is output.
R-SIG. Detector: Detects the ECG signal’s R wave.
2) PCG circuits
PCG Amp:This is the initial stage amp for PCG signals. It amplifies approximately 28 dB
signals.
OSC:Generates a triangular wave (with an amplitude of approx. 6 V pp and a generation cycle
of approx. 6 KHz)
Comparator:Compares the signals from the PCG Amp and the OSC and performs pulse width
modulation.
MN2-0233SECTION 4 Principle of System Operation
4 — 85
Photo Coupler:A photocoupler is used for the purpose of isolating the patient side sensor unit
circuit and the equipment side circuit.
L.P.F.(Low Pass Filter):Demodulates signals from the photocoupler which have undergone
pulse width modulation and converts them to analog signals.
Gain & Offset Adj.:Adjusts the Offset voltage and amplitude of signals from the L.P.F. The
offset voltage is 0 V.
3) PULSE circuits
Pulse Amp: This is the initial stage amp for PULSE signals. It amplifies approx. 14 dB
signals.
H.P.F.: This is a high pass filter for DC cutoff.
OSC:Generates a triangular wave (with an amplitude of approx. 6 V pp and a generation cycle
of approx. 1.8 KHz).
Comparator:Compares signals from the H.P.F. and from the OSC and modulates the pulse
width.
Photo Coupler:A photocoupler is used for the purpose of isolating the patient side sensor unit
circuit and the equipment side circuit.
L.P.F.:Demodulates signals from the photocoupler which have undergone pulse width
modulation and converts them to analog signals.
Gain & Offset Adj.:Adjusts the Offset voltage and amplitude of signals from the L.P.F.
Pulse DC IN:Unit for inputting signals from an external device.
Gain & Offset Adj.:Adjusts the signal gain and offset from pulse DC IN.
Switch:This switch switches between pulse signals and DC IN signals. If signals are input to
DC IN, it is switched to the DC IN side. If signals are input simultaneously to PULSE
and DC IN, DC IN is output.
AMP: Amplifies signals from the switch.
Offset:Adds an offset voltage to signals from the AMP. The offset voltage is +2.5 V.
4) DC-DC converter:
Supplies power to the patient side sensor circuit (the portion enclosed by a dotted line in the
block diagram). A DC-DC converter is used for the purpose of isolating the patient side sensor
circuit and the equipment side circuits.
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J710
J711
TITLE名称
Physio Amp 1/1MODEL 形名
EP4578**
ECGPRE AMP
HUMFilter
EXCH SW
AMP &Auto Offset
Compensation
HUMFilter
L.P.FPhotoCoupler
Compara-tor
OSC
Gain &Offset ADJ.
Selector
R – SIG.Detector
ECGDC IN
Gain &Offset ADJ.
ECG IN
UC_RINT_To PSC
PHI_ECGTo PSC
PulseAMP L.P.FPhoto
CouplerCompara-
tor
OSC
Gain &Offset ADJ.
Selector
OffsetPulseDC IN
Gain &Offset ADJ.
PULSE IN PHI_PLSTo PSCAMP
PCGAMP
L.P.FPhotoCoupler
Compara-tor
OSC
Gain &Offset ADJ.
PCG IN PHI_PCGTo PSC
H.P.F.
DC-DCConverter
+5V+10VF
-10VF
L.P.F
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 87
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MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 88
4-5-20 VOL / Servo Control [ Ver.1.1.1 and higher]
This board executes the calculation of VOL image and the motor control of probe for VOL mode.
CPU Interface
This interface is connected with Local Bus, and have the registers addressed on the local address D00
– D7C. This circuit exists in one FPGA (CPU ITF) with the Servo Control circuit together
Servo Control
This is the motor driver which has servo function. The circuit watches the encoder pulse from motor,
and generates the start timing for Tx/Rx and calculation. It is consist of a part of FPGA (CPU ITF) and
the controller.
Servo CPU
This is micro-controller which control the Servo Controller. The communication with HOST is
executed via exclusive dual port memory.
Data Interface
This control the operation of data input/output part, according to the several signal issued by ULDR.
And when Vol image is re- calculated by the data read from the Mass Memory, the several signals,
issued by ULDR in normal operation, is generated by this circuit. This circuit exist in one FPGA
(MM ITF) with Mass Memory Interface together.
Calc FPGA
This is the calculator for 3D mode, and generates 3D data by calculating US data or CFM data (CFM
is not used). This circuit is operated as two kinds of calculation method, the Volume and the
Rendering calculation, by changing the FPGA’s defined data. And it controls the Frame Register too.
Frame Register
This store one frame data for side view calculation. It is operated in Read-modify-write which the
readout data and new data are calculated and rewritten. This is consist of SRAM, and does not
function for top view calculation.
MidγTable
This is γ table for rounding the 16 bits of calculation result into 8 bits of data. It consists of ROM.
Mass Memory Interface
This stores the calculation result in one line of FIFO memory. It outputs the request of data transfer
to ULDR when data output is available, and output the calculation result according to data output
request. This circuit exist in one FPGA (MM ITF) with Data Interface together.
MN2-0233
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TITLE名称
VOL / Servo Control 1/1MODEL 形名
EP4469**
Data Interface
Frame Register
Calc FPGA chA Mid γ
Table
Mid γ Table
Frame Register
CPU Interface
Servo Control
Servo CPU
Power AMP
Mass Memory Interface
Calc FPGA chB
3D Scanner
CPU BUS
(CPU ITF)
(MM ITF)
BSCCSC
Or CMB
BSCCSC
Or CMB
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 90
4-5-21 Mecha. Connector [Ver.1.1.1 and higher] (PCB for unit SCU-4000)
This circuit board is configured from a connector for a mechanical probe, a Pre Amp and
reception circuit for a mechanical probe.
1) Probe Connector for Mecha:
Connects to the mechanical radial probe.
2) Pre Amp for Mecha:
This is a Pre Amp for a mechanical probe with a gain variation function. Maximum gain is 30
dB.
3) Band Pass Filter for Mecha:
This is a band pass filter which changes the frequency according to the depth of the image.
4) 30dB Amp
There are two 30dB AMPs to consist of LOG amp. The total gain becomes 60dB.
5) Log Amp (Reception Log Amp):
Performs Log compression. Output signals are sent to the AD_DA board.
MN2-0233
Rev.1
SECTION
4 Principle of System O
peration
4 — 91
TITLE名称
Mecha Connector 1/1MODEL 形名
EP4448**
Probe
ConnectorMechanical
Probe
From A ITF
Log AmpPre Amp
for Mecha
Motor Control Signals (M_A, M_B, M_Z, M_MOTOR, MCENT 0~3)
M_TXRX
To Mecha TxRx
From/To A ITF
Pre STC 1
from A ITF
M_RXBand pass
Filter
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 92
4-5-22 VCM (Video Cine Memory) [Ver.1.1.2 and higher]
This circuit board executes the multi-frame storage for DICOM, and it consists of the following
blocks.
・ PCI AND PLX9050 LOCAL INTERFACE BLOCK
・ DSP LOCAL INTERFACE BLOCK
・ VIDEO CONTROL BLOCK
・ MEMORY CONTROL BLOCK
・ DIMM(64M bytes x 4)MEMORY FOR IMAGE STORAGE
1) PCI AND PLX9050 LOCAL INTERFACE BLOCK
This block consists of “PCI interface” to communicate with HOST and local interface of
“PLX9050” for “PCI-TO-LOCAL BUS”. The HOST can be linked together with DSP by
interfacing via this local bus.
2) DSP LOCAL INTERFACE BLOCK
This block executes the control and calculation of firmware with DSP. DSP executes a basic
control together with software to output the converted image data according to direction of
command and parameter inputted from HOST.
3) VIDEO CONTROL BLOCK
This block controls together with «MEMORY CONTROL» the input of image data from
LVDS, the data conversion for writing into the image memory (DIMM), and the data
conversion in the image memory for output to LVDS.
4) MEMORY CONTROL BLOCK
This block generates address of image memory (DIMM) and control signals, and controls
the gate signal of the pointer (position) for display.
This block executes both the acquisition of external IN/OUT signals and the request of
interruption for DSP. And, it has a control register and parameter register from DSP.
5) DIMM MEMORY FOR IMAGE STORAGE
The writable frame number in the image memory is as follows.
・B/W (Black-and-White) 8-bit data: Max. 216 frames
・Parette (Color) 14-bit data: Max. 108 frames
・RGB(Color) 16-bit data: Max. 108 frames
MN2-0233
Rev.1
SECTION
4 Principle of System O
peration
4 — 93
TITLE名称
VCM 1/1MODEL 形名
EP4470**
VIDEO
CTR
P_DMSY0MP_DMSY0PP_DMSY1MP_DMSY1PP_DMSY2MP_DMSY2PP_DMSY3MP_DMSY3PP_DMSCLKMP_DMSCLKP
LVI [0..20] MEMORY
CTR
OSC1
FLAG[4..7]
DIMM1, 2, 3, 4
(64MB x 4)
GATEBUFFER
DSP
DSP EXTERNAL
MEMORY (SRAM)
FLASHROM
IFCTR
PCI_CTR
LVDS
(RX)
LVDS
(TX)LVO [0..20]
DMS_PY0MDMS_PY0PDMS_PY1MDMS_PY1PDMS_PY2MDMS_PY2PDMS_PY3MDMS_PY3PDMS_PCLKMDMS_PCLKP
60MCLK
HND_SHKSYNC_GATE
LVDS CTR
MD [0..63]
MA
[0..1
3]
SDRA
M C
TR
S_AD [0..31]
S_CBEJ0,J1, J2, J3S_PARS_FRAMEJS_IRDYJS_TRDYJS_IDSEL0S_SERRJS_PCICLK0S_PCIRSTJS_LOCKJ
GATE_CTR
BUFFERBD [0..31]
VD [0..31]LA [2..25] VA [0..23]
VA [0..16]
VD [0..7]
LED
D1–D5FLAG[0..3]
V(DSP) CTR
From VPUTo VPU
MN2-0233 Rev.1SECTION 4 Principle of System Operation
4 — 94
4-5-23 Tx & Tx Focus 2
This circuit board performs setting of the amount of delay in each channel for electronic focusing
of transmission, and outputs a transmission trigger signal at the TTL level (to the transmission
drive circuit). The output transmission trigger is used in the B (M) mode, PW Doppler mode,
Flow mode and STCW mode. THE (Tissue Harmonic Echo) image is also available.
1) TX_CNT (Tx Control, FPGA)This latches transmission conditions set externally and generates Focus calculator, Delaydata and Gate Array control signals.
2) FocusCalculator
Outputs delay amount data to perform transmission focusing.
3) Delay Data ROM
Outputs delay data based on delay amount data sent from Focus Calculator.
4) Gate Array
Generates a transmission trigger for each channel based on the delay data (amount of delay)
set for each channel from ROM and wave count data (number of transmission wave pulses).
5) Driver
This is the output driver for the transmission trigger signal. Also, this generates transmission
signal for STCW.
6) HV Monitor
Converts high voltage to digital, then outputs it as register data.
4 — 95
MN2-0233 Rev.1
SE
CT
ION
4 Principle of S
ystem O
peration
TITLE名称
Tx & Tx Focus 2 1/1MODEL 形名
EP4441**
TX_CONTHV MONITOR
GateArray
URDY/DT (0:15)CW ON
AD (2:7)TXENUMD (1:4)FSEL (0:1)BMN (0:9PHSELURSTUSYNCTXLDTXCLKCW
Focus
Calculator
RST、 BTXLDCSTART、 CALDCRA (0:2)FRAD (0:18)BDT (0:15)SCOFS (0:7)SDOFS (0:10)ICK2
DriverTXRX
ATRI
GateArray
ATRI
Delay Data
ROM
ICK2CKSEL (0:3)ALTPCW MSK
EDLY (0:9)
TGA (0:4)PULS (0:3)DVDEMPHSELADD 1・2HLTXTXOFFBTXCLKENA0, 1PSICK2CWMPHSELADD 1/2HLTX
HVA1VCW
HVCC
DLY (0:10)
XAD (0:5)
ToProbeSelector 2 BTRI
BTRI
THE1 — 4
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 96
4-5-24 CMB
This consists of the Ultrasonic Line Data Receiver (ULDR), Mass Memory (MM) and Scan converter
(SC) for the black-and white mode (B, M, D-modes) and Color Flow mode. And the timing is achieved
by the TV timing signal and signals, etc. for specifying the screen display frame, etc. and the basic clock
in the Digital Imaging Unit is generated.
For B/W mode
Ultrasonic Line Data Receiver:
For Plane mode, It carries out preprocessing of data received from the Ultrasonic Line Data Bus,
such as correlation, , and send it to Mass Memory
For Line mode, It performs mainly sweep speed generation and US data re-sampling for the Line
Mode (M-mode, Doppler Mode).
Mass Memory:
This is large capacity memory, which is capable of storing 65536 black and white lines sent from
the ULDR block. And Frame correlation circuit for black-and-white is also mounted on this
board.
The ultrasound data stored in this memory are used for real time display and for Search in Cine
memory.
Data read from this mass memory are sent to the SC BW block.
Scan Converter:
This carries out 2-dimensional interpolation of Ultrasound line data sent from mass memory, the
same as the SSD-5000/5500, then converts them to the TV display format and outputs them.
1) Line Correlation Circuit for B/W Data
Line Memory :
There are two line memories, each line memory has a capacity for a respective ultrasound
line (512 pixels x 6 bits) and is used in line correlation.
By gathering 3 ultrasonic lines (2 lines from line memory and 1 line as current ultrasonic
data) and applying a FIR filter in the horizontal direction, line correlation is accomplished.
2) B/W Data Frame Correlation Circuit
Frame Correlation Auto Setting: In order to prevent differences in the apparent fast and slow
frame rate effect in the same correlation, the correlation table is switched to match the frame
rate.
3) Line Buffer Memory (for M & Doppler):
This is line buffer memory for time axis adjustment with a 512 pixel x 6-bit capacity.
4) Mass Memory Controller
This generates mass memory read, write and refresh cycles.
5) Mass Memory
This is variable length mass memory with a capacity of 65536 records (US Lines). The
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 97
memory’s capacity is 65536 records x 512 pixels x 6 bits, and is controlled every 32
records /cluster. STORE image for Cine Memory is recorded in Hard Disk.
6) Vector RAM
Parameters used in interpolation of ultrasound data are set in this Vector RAM from the
MGR (Manager) board.
This memory has a capacity of 128 KBytes, enough for 2 frames of data with 512 lines per 1
US frame.
7) Address Generator
Generates interpolation address information and Video RAM addresses.
SEL
This selects between internal ultrasound data (6-bit) and external VTR data (R, 6-bit).
Signals from the VTR are converted to digital RGB signals (6 bits each) by the VPU board,
then are written to Video RAM on the SC BW block and the SC COL block with the
following allocations.
R (6-bit) → SC BW Block for BW (within 8 bits), 6 bits are used.
G (6-bit) → SC COL Block for Velocity (within 8 bits), 6 bits are used.
B (6-bit) → SC COL Block for the remaining 2 Velocity bits and for Variance, 4 bits are
used
9) 2D Interpolation
This performs calculations for 2-dimensional interpolation. (In the horizontal direction,
interpolation of up to 32 pixels can be done.)
6-bit data become 8-bit data after interpolation. (However in M and D, there is no
interpolation, so data remain 6-bit data even after being output from the interpolation circuit,
and the lower order 2 bits are unused.)
10) Video Memory (1M Byte)
This is display memory with a capacity of 4 screens (512 pixels x 512 pixels x 8 bits per
screen) and the 4 screens have the following configuration.
Ultrasonic data are written to this Video RAM in the same display format as that of a TV
screen. And they are synchronized with the TV Sync signal and read out. There is enough
512pixel
512pixel
8 bit
Left screen↓
Right screen↓
←screen for Ping
←screen for Pong
For VTR palyback, two screens (512pixel×1024pixel) are put together and used.
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 98
memory for 4 screens and they can be used for complex modes (B/M, B/D, B/B), single
mode requests after freeze, for Ping-Pong display, etc.
Also, data from the VTR during VTR playback are also written to this Video RAM. (During
VTR playback, and during real time, data from the VTR pass through this Video RAM and
serve to reduce image wobble.)
The Video RAM write cycle is 80 ns and data from the VTR can also be written to it
directly (without passing through the VTR ITF, etc.)
11) VGA Display Control block
This block performs TV display control to satisfy the specification of non interlace display
by using the ASICfor non interlace diplay.
・Read Zoom
This is a circuit for performing Zooming (Read Zoom) after frozen.
・SEL
This selects between a normal image and a Zoom image.
For Color Flow mode
This consistes of the Ultrasonic Line Data Receiver (ULDR) for Color flow mode (Plane and
Line Modes), Mass Memory and Scan Converter.
ULDR:
It carries out preprocessing of Color Flow data (Velocity and Variance) received from the
Ultrasonic Line Data Bus, such as correlation, and sends it to Mass Memory.
Mass Memory:
This is a large capacity memory where 65,536 lines of color line information (Velocity: 6-bit;
Variance: 4-bit) sent from the ULDR block can be stored. And Frame correlation circuit for
color (Velocity) is also mounted on this board.
The color data stored in this memory (Velocity, Variance) are used for real time display and for
Search in Cine memory.
Data read from mass memory are sent to the SC COL block.
SC COL:
Color line data (Velocity, Variance) sent from mass memory undergo 2-dimensional
interpolation and converted to TV display format, then output.
13) Velocity Data Frame Correlation Circuit
This is configured from a Frame Correlation Table and a Selector. It has the same operation
as the circuit for B/W.
14) M Flow Line Buffer Memory (for M Flow):
This is line buffer memory for time axis adjustment with a 512 pixel x 6-bit capacity.
15) Mass Memory Controller
This generates timing signals (mass memory read, write and refresh cycles) for mass
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 99
memory, and rearrange the data according to the their signals. When read out the data
(Volocity deta only) from mass memory, it adds the beam number into the data.
16) Mass Memory
These are memories to store the Velocity and Variance data.
These are two variable length mass memory with a capacity of 65536 records (US Lines).
17) Frame Accelerator
This circuit executes the frame interpolation, to increase frame rate of velocity data in
appearance.
18) Vector RAM
Parameters used in interpolation of ultrasound data are set in this Vector RAM from the
MGR (Manager) board.
This memory has a capacity of 128 KBytes, enough for 2 frames of data with 512 lines per 1
US frame.
19) Address Generator
Generates interpolation address information and Video RAM addresses.
Velocity Data
20) SEL: Switches between internal Velocity data (6-bit) or external VTR data (Green: 6-
bit + Blue: 2-bit).
21) 2D Interpolation:
Performs calculations for 2-dimensions interpolation.
22) Video memory:
This is display memory with the capacity for 4 screens worth (512 pixels x 512
pixels x 8 bits per screen).
Velocity data (6-bit) are written to this Video memory in the same display format as
that of a TV screen. And they are synchronized with the TV Sync signal and read
out.
23) VGA Display Control block:
This block performs TV display control to satisfy the specification of non interlace
display by using the ASICfor non interlace diplay.
Read Zoom:
This circuit performs Zoom operation (Read Zoom) after freeze.
SEL:
Switches between the normal image and the zoom image.
Variance Data
24) SEL: Switches between internal Variance data (4-bit)) and external VTR data (Blue, 4-
bit).
25) 2D Interpolation:
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 100
Performs the calculations necessary for 2-dimensional interpolation.
26) Video memory:
This is display RAM with a 4-screen capacity (512 pixel x 512 pixel x 4 bits per
screen). Variance data (4-bit) are written to this video RAM in the same display
format as a TV screen, and are read out in sync with the TV’s sync signal.
27) VGA Display Control block:
This block performs TV display control to satisfy the specification of non interlace
display by using the ASICfor non interlace diplay.
Read Zoom:
This is a circuit for executing a zoom operation (Read Zoom) after freeze.
SEL:
This selects between the normal image and a zoom image.Velocity Data
28) Clock Generator
This is the Digital Imaging Unit’s main clock. The divided by 4 clock is sent to each PCB in
the DIU.
29) MM_SC Vector
Generates Vector RAM data and outputs them to both BSC and CSC boards.
30) Timing Table
This controls TV Timing signal and signal for setting of the frame of image.
This memory is divided between that for Horizontal and that for Vertical, with the addresses
being circulated and display frame generated and supplied to each block.
31) Local CPU (SH-4)
This is the main 24-bit digital signal processor, which operates at 40 MHz.
This gemerates control signal for Mass Memory in this board.
32) PCI-Local Bus Interface
Interface between Compact PCI Bus and Local Bus.
MN2-0233
Rev.2
SE
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4 Principle of S
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peration
4 — 101
LineCorrelation
M & DopLine BufferMemory
FrameCorrelation
MassMemoryControl
Mass Memory
ReadZoom
VideoMemory
2DInterpolationS
ELBMD_DATA (0:7)
Physio. Signal Data
for Line mode
From PSC
To PSC
(Physio. for line mode)
VCR data from VPU
BSC_UDA [2:7]
To VPUFrom AD_DA
M FlowLine BufferMemory
FrameCorrelation
Mass Memory
ReadZoom
VideoMemory
CFM_DATA (6:11)
(Velocity/Power)
From SDP
Vel/Pwr
To VPU
Mass Memory
MassMemoryControl
FrameAccelerator
CFM_DATA (0:5)
(Variance)
SE
L
2DInterpolation
VideoMemory
To VPUVarS
EL
2DInterpolation
ReadZoom
TITLE名称
CMB 1/1MODEL 形名
EP4769**
HOSTCPU
PC
I-LO
CA
LB
ridge
PCI-Bus
LocalCPUSH-4
Local-Bus
FlashMemory
Work-RAM
ClockGenerator
VCO
MM_SVector
TimingTable
SC_VECT
VGA DISPTiming
12.5874MHz25.1748MHz
Mass MemoryControl
SC_STATUSFREEZ EULD-BUS
MR6334
MR6335
MN2-0233 Rev.2SECTION 4 Principle of System Operation
4 — 102
4-5-25 DBP
DBP is the beam process for BW image. (Equivalent to Main AMP in the conventional machine.)
It processes the reception signal from Beam Former digitally and outputs to Digital Imaging Unit.
1) Digital Filter (Variable central frequency BPF):
The 16bit US signal phase added by Beam Former is band-limited at ML2011. Each
ML2011 has 64 kinds of BPF with a 9-tap FIR (20-tap for Harmonic Echo) that is divided
into 64 in the depth direction and assigned appropriately for use.
2) Digital Signal Processing:
Digital Signal Processing consists of Log Compression, Demodulation, Relief, AGC,
CONTRAST, VIDEO AMP, and AA FILTER.
The signal processing functions are FTC, RELIEF (4 steps), AGC (16 steps) and
CONTRAST (16 steps).
3) Gain Control:
Gain is controlled by follows:
BW Gain: It is controlled from the operation panel (It is set to this PCB digitally
via USC Bus as well as the other register data).
STC1: It is controlled from the operation panel.
STC2: It compensates the gain difference caused by scan angle.
FLOW: During M-Flow, it compensates the BW gain that becomes too high
(too bright BW) due to the burst pulse transmission.
COR_GAIN: It compensates the signal level difference at the transmission dynamic
focusing.
4) Digital Output:
After AA Filter, pixel skipping is done to match the specified number of samples at FIFO
for output data.
5) Control:
It generates the control signal required for this PCB. Basic clock is 4f0 for Single Process
Mode and 8f0 for Parallel Process Mode.
MN2-0233
Rev.3
SE
CT
ION
4 Principle of S
ystem O
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4 — 103
TITLE名称
DBP 1/1MODEL 形名
EP4784**
V.B.P.FAbsolutevaluedetector
Log
Relief Contrast
AA Filter(LowPass)
Gain
Attenuationcompensating PI
Resampling
AGCMax.Sampling
3 Linecorrelation
VOLGamma Table
Absolutevaluedetector
Halfbandfilter
RF In(From DBF)
Detect Out
Control partUSC_DATA
USC_ADRS
Gain
Control
US BLK/
STC 1
COR_GAIN
B/M GAIN 0~7
FLOW
STC 2To Gain Block
Detect
MECHLOG OUT(From Mecha Connect)
A/D
To CMB
MN2-0233
Rev.3
SE
CT
ION
4 Principle of S
ystem O
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4 — 104
(Blank page)
SECTION 5
SECTION 5
SCHEMATICS
MN2-0233
SECTION 5 SCHEMATICS
5 - 1
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3
K L M N P Q R S T U V W X Y ZO
J1
23
45
I1
23
45
H1
23
45
G1
23
45
F1
23
45
E1
23
45
D1
23
45
C1
23
45
B1
23
45
A5
43
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S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
SSD-40003RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
第3角法
ECG IN
PCG IN
HUM Filter
MC350683
12総合接続図
L-013-10-82-A3
IPC-1530Q
J610
P201 -1
-2-3
ECG DC IN
Pulse IN
Pulse DC IN
J10
J11
J13
J14
J22
J20
J15
CBL100
L-KEY-75
MOPSU-S4000*
PEU-4000*
CBL400
CBL301
CBL250
CBL200(USB;Full Control)
J520
J70 J50
J410
P150
J304
J303
J302
J301
PROBE 3(ELE.S/L/C)
PROBE 2(ELE.S/L/C)
PROBE 1(ELE.S/L/C)
J622
J150
Full Key
Panel SW A
J412
J33J33-1
CN2 CN3
CN6
CN1
CN5
MAINJ413
CN13
CN14CN12CN11CN10CN9 CN8 CN7
TBGAIN
J120-3
(J120-2)
FDDJ621
CBL302
PROBE 4(Mech.Sec.)
J12
J620 J4
HDDCBL300
J11
COL COMP IN
COL COMP OUT
BW COMP OUT
Y/C IN
Y/C OUT
RGB OUT
COL PrinterCTRL
FOOT SW
VOLConnector
J305
J12
J60 J61
J411CBL201(232C;Panel SW)
(PS/2;KeyBoard)(PS/2;Mouse)
Audio L/R IN
Audio L/R OUT
BW PrinterCTRL
VCR CTRL
LAN OUT
Pararell OUT
Serial OUT
USB OUT
J21
J23
J30
J32
J40
J42
J41
J31
J43
P120-3
(P120-2)
J1
J201 -1~-3J200
J500
J501
J502
J503
J504
P200
J2 J3
-2 -3
J100
-1
J1 J2 J3
-1 -2 -3 -1 -2 -3 -1 -2 -3 -1 -2 -3
J1 J2 J3 J1 J2 J3 J1 J2 J3
J105,J106,J107,J112 J109,J110,J111J101 ~ J104,J108 J113 ~ J119,J121
P320 J320
J321
J322
P321
P322
J310 P310 P311 J311
P323 J323
USM-25*
EP447200
Panel SW BPHYSIO VOLUMECBL401J530
CABLE CONNECTION
MN2-0233
SECTION 5 SCHEMATICS
5 - 2
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K L M N P Q R S T U V W X Y ZO
J1
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I1
23
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H1
23
45
G1
23
45
F1
23
45
E1
23
45
D1
23
45
C1
23
45
B1
23
45
A5
43
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S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD第3角法
Power SW
22総合接続図
MC350684L-013-10-82-A3
orJB-261*
FDDJ631
IPC-1530Q
JB-260*
L-KEY-75
PSU-S4000*
J812
J802 J801
J800
J821
J820
P804P803
J803
J400 J510J600
CBL050
CBL021
CBL020
CBL001
CBL011PEU-4000*
J811
J805
J852
J853
USM-25*
J854
J855
J804
P805
SSD-4000
EP447200
CBL002CBL012
MOJ632
CABLE CONNECTION
MN2-0233
SE
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5
SC
HE
MA
TIC
S
5 — 3
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K L M N P Q R S T U V W X Y ZO
J
12
34
5
I
12
34
5
H
12
34
5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
CO-PSC-135-A-□□C△
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
CABLE001
第3角法
11
MC341012
UL1015 TEW AWG20 BRN
AH-6 AWG 8/16″
Insulok Ties T18R
1
4
2
5
1
2
3
4
UL1015 TEW AWG20 BLU
POWER SWSW 1
Housing:3191-04R1(molex)Terminal:1189ATL(molex)
1
LABEL P801
PSU-S4000P801
AC OUT(L)
AC OUT(N)
AC IN(L)
AC IN(N)
UL1015 TEW AWG20 BRN
UL1015 TEW AWG20 BLU
AC OUT(L)
AC OUT(N)
AC IN(L)
AC IN(N)
L-013-10-82-A3
+70mm- 0mm
20mm
AH-6 AWG 2
3
6
裏面に貼付
12
3
□□C△は、構成手配表に記載 例:10C2は、1020mm
□□C△mm
10mm
30mm
40mm
SW:L-S-63(2W136/114)(EWIG)Terminal:FVDHDF1.25-250B(JST)
10 C 0
MN2-0233
SE
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5
SC
HE
MA
TIC
S
5 — 4
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34
5
I
12
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5
H
12
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5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
CABLE002
第3角法
11
MC341013
Insulok Ties T18R
1
4
2
5
PSU-S4000P802
3
6
Housing:5557-06R(molex)Terminal:5556PBTL(molex)
+24.0V
GND
L-013-10-82-A3
裏面に貼付
+24.0V
GND
+24.0V
GND
CE1 x 2Terminal:CE1(JST)
BLK
RED
200mm20mm
FAN 2
FAN 3
FAN 1
BLK
BLK
RED
RED
CO-PSC-135-B-□□C△
UL1430 REW AWG20 BLK
UL1430 REW AWG20 BRN
AH-6 AWG 8/16″
LABEL P802FAN 3
FAN 1
FAN 2
FAN:109P1212M402 (山洋) x3
+70mm- 0mm
1 4
450mm
□□C△mm□□C△は、構成手配表に記載 例:10C2は、1020mm
06 C 5
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 5
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3
K L M N P Q R S T U V W X Y ZO
J
12
34
5
I
12
34
5
H
12
34
5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
CABLE011
第3角法
11
MC341014
LABEL P811
L-013-10-82-A3
1
2GND
Housing:171822-2(AMP)Terminal:170204-1(AMP)
EP447200P811
1
10mm
□□C△は、構成手配表に記載 例:04C0は、400mm
+25mm- 0mm□□C△mm
CO-PSC-135-C-□□C△
Housing:171822-4(AMP)Terminal:170204-1(AMP)
1
2
+5.1V
10mm
GND
+5.1V
Insulok Ties T18RInsulok Ties T18R
1
3
4
FDD
UL1430 REW AWG22 ORG
UL1430 REW AWG22 BLK
AH-6 AWG6/16
03 C 0
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 6
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3
K L M N P Q R S T U V W X Y ZO
J
12
34
5
I
12
34
5
H
12
34
5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
CO-PSC-135-E-□□C△
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
CABLE020
第3角法
11
MC341016L-013-10-82-A3
Housing:1-178288-6(AMP)Terminal:175218-2(AMP)
P400L-KEY-75
2
3
D.GND
1
2
A.GND
A.GND
-12.0V
3 +12.0V
P820EP447200
AH-6 AWG 10/16″
UL1430 REW AWG 16 BLK
20mm20mm
LABEL P400
Insulok Ties T18R
LABEL P820
+70mm- 0mm
UL1430 REW AWG 16 ORG
UL1430 REW AWG 16 RED
UL1430 REW AWG 16 BLU
+5.1Va
D.GND
A.GND
A.GND
-12.0V
+12.0V
+5.1Va
UL1430 REW AWG 16 BLK
UL1430 REW AWG 16 BLK
□□C△mm
□□C△は、構成手配表に記載 例:12C3は、1230mm
1
4
56
4
6
5
Housing:1-178288-6(AMP)Terminal:175218-2(AMP)
11
07 C 5
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 7
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3
K L M N P Q R S T U V W X Y ZO
J
12
34
5
I
12
34
5
H
12
34
5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
CO-PSC-135-F-□□C△3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
CABLE250
第3角法
11
MC341018
1
2
3
4
L-013-10-82-A3
5
6
P412L-KEY-75
Housing:DF1B-6S-2.5R(Hirose)Terminal:DF1B-2022SC(Hirose)
Foot SW 1
GND
Foo SW 2
GND
UL 1631 AWM AWG 25 BRN
UL 1631 AWM AWG 25 ORG
UL 1631 AWM AWG 25 BUL
RT-1136 6.0/3.0 BLK
UL 1430 REW AWG 22 BLK
LABEL P412
+70mm- 0mm
1
AH-6 AWG 1
+70mm- 0mm
Foot SW 3
GND
□□C△mm
□□C△は、構成手配表に記載 例:19C0は、1900mm
(□□C△-60)mm
1
LABEL P33
1
2
3
4
5
6
P33EP426100
Housing:DF1B-6S-2.5R(Hirose)Terminal:DF1B-2022SC(Hirose)
Foot SW 1
GND
Foo SW 2
GND
Foot SW 3
GND
09 C 5
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 9
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3
K L M N P Q R S T U V W X Y ZO
J
12
34
5
I
12
34
5
H
12
34
5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
CO-PSC-135-H-□□C△
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD第3角法
11
MC341017L-013-10-82-A3
LABEL P61
LABEL P411
GND
GND
GND
SRP_RTSB
GND
SRP_RST_
GND
GND
GND
SRP_TXDB
GND
SRP_RXDB
OPI_ALLFRZ
OPI_SELFRZ
SRP_MBCLK
DMS_LED
GND
GND
SRP_MFDATA
SRP_KBDATA
SRP_CTSB
GND
GND
SRP_MFCLK
GND
GND
GND
20
14
30
12
21
10
27
29
11
18
15
17
26
21
11
20
17
19
27
19
26
13
10
14
28
25
23
28
24
25
18
30
22
13
12
22
15
16
29
24
16
23
2
7
3
9
1
88
5
1
6
2
7
TFC28-30C
4
3
4
9
5
6
GND
GND
SRP_RTSB
GND
SRP_RST_
GND
GND
GND
SRP_TXDB
GND
SRP_RXDB
OPI_ALLFRZ
OPI_SELFRZ
SRP_MBCLK
DMS_LED
GND
GND
SRP_MFDATA
SRP_KBDATA
SRP_CTSB
GND
GND
SRP_MFCLK
GND
GND
GND
GND
P411L-KEY-75
Housing:FAS-3001-2101-0BF(YAMAICHI)P61
EP447200
Housing:FAS-3001-2101-0BF(YAMAICHI)
CABLE201
+50mm- 0mm□□C△mm
□□C△は、構成手配表に記載 例:04C0は、400mm
07 C 0
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 10
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3
K L M N P Q R S T U V W X Y ZO
J
12
34
5
I
12
34
5
H
12
34
5
G
12
34
5
F
12
34
5
E
12
34
5
D
12
34
5
C
12
34
5
B
12
34
5
A
54
3
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
CO-PSC-135-J-□□C△
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
CABLE301
第3角法
11
MC341019L-013-10-82-A3
FLEX-S(34)-7/0.127・2651P
25
32
10
23
1
20
19
34
6
33
21
24
15
31
4
12
28
17
30
16
26
11
18
29
5
22
7
3
14
27
8
13
9
2
GND
STEP
GDN
21
WP_
27
20
28
MTR1_
4
RWC_/RPM_
GND
DRVSEL1_
GND
WG
HDSEL_
16
2
10
25
GND
GND
13
18
GND
GND
31
17
24
GND
GND
3
GND
26 TRK00_
GND
MTR0_
6
29
GND
19
23
34
9
11
7
DRVSEL0_
12
GND
INDEX_8
RD
32
15
5
WD
DIRRSEL
22
14
30
33
DSKHG_
+50mm- 0mm
1
GND
GND
GND
GND
GND
STEP
INDEX_
GND
DRVSEL0_
DIRRSEL
GND
GND
RWC_/RPM_
GND
GND
MTR1_
RD
GND
GND
MTR0_
TRK00_
GND
DRVSEL1_
GDN
DSKHG_
WD
GND
WP_
HDSEL_
GND
GND
WG
GND
GND
GND
□□C△mm
□□C△は、構成手配表に記載 例:04C0は、400mm
FDDHousing:XG4M-3430-T(OMRON)
EP4423Housing:XG4M-3430-T(OMRON)Lock:XG4Z-0002(OMRON)
06 C 0
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 11
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 12
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3
K L M N P Q R S T U V W X Y ZO
J1
23
45
I1
23
45
H1
23
45
G1
23
45
F1
23
45
E1
23
45
D1
23
45
C1
23
45
B1
23
45
A5
43
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
CO-PEU-4000-A-□□C△3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
CABLE021
第3角法
11
MC350762
AH-6 AWG 9/16″
Insulok Ties T18R
1
2
3
4
5
6
1
2
3
4
5
6
EP445100P510
EP447200P821
L-013-10-82-A3
Housing:2-178288-6(AMP)Terminal:175218-2(AMP)
20mm+50mm- 0mm
20mm
UL1015 TEW AWG20 RED
UL1015 TEW AWG20 BLK
UL1015 TEW AWG20 BLU
UL1015 TEW AWG20 BLK
UL1015 TEW AWG20 YEL
UL1015 TEW AWG20 BLK
LABEL P510
1
LABEL P821
1
Housing:2-178288-6(AMP)Terminal:175218-2(AMP)
A.GND
+15.0V
-15.0V
A.GND
A.GND
+5.0V
A.GND
+15.0V
-15.0V
A.GND
A.GND
+5.0V
□□C△mm
□□C△は、構成手配表に記載 例:07C4は、0740mm
04 C 5
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 13
5421 3 15421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 35421 3
K L M N P Q R S T U V W X Y ZO
J1
23
45
I1
23
45
H1
23
45
G1
23
45
F1
23
45
E1
23
45
D1
23
45
C1
23
45
B1
23
45
A5
43
R E
V I
S I
O N
S
SCALE
UNITS mm
DRAWING NO.
MODELTITLE
CO-PEU-4000-B-□□C△
3RD ANGLE PROJECTION DESINEDDRAWN CHECKED APPD
CABLE400
第3角法
11
MC350763L-013-10-82-A3
1
1
2
3
GND
ECG
PCG
PULSE
GND
GND
GND
R-SYNC
4
5
6
7
8
1
2
3
PULSE
GND
GND
PCG
ECG
GND
GND
R-SYNC
4
5
6
7
8
HC-CECX-75Ω-7/0.14
HC-CECX-75Ω-7/0.14
HC-CECX-75Ω-7/0.14
HC-CECX-75Ω-7/0.14
: RT-1136 6.0/3.0 BLK
: UL 1430 REW AWG 20 BLK
P70EP447200
Housing:DF1B-8S-2.5R(Hirose)Terminal:DF1B-2022SC(Hirose)
EP445100
Housing:DF1B-8S-2.5R(Hirose)Terminal:DF1B-2022SC(Hirose)
P520
LABEL P70
1
LABEL P520
+50mm- 0mm
Insulok Ties T18R
□□C△mm□□C△は、構成手配表に記載 例:09C0は、900mm
04 C 5
MN2-0233
SE
CT
ION
5
SC
HE
MA
TIC
S
5 — 14
(Blank page)
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5 — 138
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(Blank page)
MN2-0233 Rev.3SECTION 5 SCHEMATICS
5 — 150
(Blank page)
FILE 1
Head Quater : 6-22-1 Mure, Mitaka-Shi, Tokyo, Japan.
Issued by : TOKYO WORKS, Medical System Engineering DepartmentPrinted by : Aloka Technical Service Co., Ltd. Service Engineering Section Ⅰ
6-22-1 Mure, Mitaka-Shi, Tokyo, Japan.Telephone : +81-422-45-6947Facsimile : +81-422-45-5227
SSD-4000 SERVICE MANUAL
FILE 2
SERVICE MANUAL
PRO SOUND
SSD — 4000
2 / 2
English Edition
Document Number : MN2-0233Document Revision : 3
Copyright©
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
1/4
Contents of SSD-4000 SERVICE MANUAL 2/2
Section 6 TROUBLE SHOOTING page 6-1~6-132 (162 pages)
6-1 Introduction ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 1
6-2 Precautions ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 1
6-3 Tools and Measuring Instruments Required ‥‥‥‥ ‥‥‥‥ 6- 4
6-4 Information ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 5
6-4-1 Automatic settings after switching the power supply on‥‥‥‥ 6- 5
6-4-2 Jumper (JP) settings ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 6
6-4-3 Attention of connecting optional units‥‥‥‥ ‥‥‥‥ 6- 7
6-4-4 User-defined function settings ‥‥‥‥ ‥‥‥‥ 6- 7
6-4-5 Resetting the Backup data ‥‥‥‥ ‥‥‥‥ 6- 10
6-4-6 Backup the preset data ‥‥‥‥ ‥‥‥‥ 6- 11
6-4-7 How to reset the backup data ‥‥‥‥ ‥‥‥‥ 6- 13
6-4-8 Location of unit ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 14
6-4-9 Location of ROMs ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 19
6-4-10 Action to be taken if the equipment fails to be started
or the panel operation is locked up 6- 23
6-4-11 Minimum Start-up ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 25
6-4-12 LED’s on the PCB’s ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 30
6-5 Check List Map ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 34
6-5-1 Flow chart for the usage of Check List Map ‥‥‥‥ 6- 34
6-5-2 Phenomenon Code Table ‥‥‥‥ ‥‥‥‥ 6- 36
6-5-3 MAP ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 45
6-5-4 PCB Check Procedure ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 6- 55
6-6 Waveform for Troubleshooting ‥‥‥‥ ‥‥‥‥ 6- 125
Section 7 ADJUSTMENT PROCEDURE page 7-1~7-6 (6 pages)
7-1 Introduction ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 7- 1
7-2 Attention ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 7- 1
7-3 Tools and Measuring Instruments ‥‥‥‥ ‥‥‥‥ 7- 1
7-4 Adjustment Procedure ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 7- 2
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
2/4
Section 8 PERFORMANCE CHECK page 8-1~8-16 (16 pages)
8-1 Introduction ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 8- 1
8-2 Precautions ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 8- 1
8-3 Making Entries in Repair Report ‥‥‥‥ ‥‥‥‥ 8- 1
8-4 Performance check ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 8- 2
Section 9 DISASSEMBLING PROCEDURE page 9-1~9- 104 (126
pages)
SSD-4000 Disassembling Instruction ‥‥‥‥ ‥‥‥‥ 9- 1
SSD-4000 INSTALLATION PROCEDURES ‥‥‥‥ ‥‥‥‥ 9- 65
UCW-4000 INSTALLATION PROCEDURES ‥‥‥‥ ‥‥‥‥ 9- 77
EU-9082 INSTALLATION PROCEDURES ‥‥‥‥ ‥‥‥‥ 9- 81
PEU-4000 (Physio signal display unit) INSTALLATION PROCEDURES‥ 9- 85
EU-9083 INSTALLATION PROCEDURES ‥‥‥‥ ‥‥‥‥ 9- 93
EU-9084 INSTALLATIONPROCEDURES ‥‥‥‥ ‥‥‥‥ 9- 97
SCU-4000 INSTALLATION PROCEDURES ‥‥‥‥ ‥‥‥‥ 9- 101
Section 10 PARTS LIST page 10-1~10-42 (56 pages)
10-1 Contents of Parts List ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 10- 1
10-2 Appliance of Parts List ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 10- 2
10-3 Outline of Parts List ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 10- 2
10-4 Explanation of Parts List ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 10- 3
10-5 Attention ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 10- 4
10-6 Parts List ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 10- 5
Section 11 SERVICE INFORMATION page 11-1~11-12 (12 pages)
11-1 Introduction ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 11- 1
11-2 Maintenance Menu ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 11- 1
11-3 SYSTEM PRESET ‥‥‥‥ ‥‥‥‥ ‥‥‥‥ 11- 7
11-4 Flash Memory Data Rewriting procedure ‥‥‥‥ ‥‥‥‥ 11- 8
11-5 Probe Focus Data Erasing procedure ‥‥‥‥ ‥‥‥‥ 11- 9
11-6 Assignment of CTRL key and those usage ‥‥‥‥ ‥‥‥‥ 11- 12
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
3/4
Appendix SSD-4000 SERVICE MANUAL Appendix page Apndx-1~Apndx-6(6 pages)
Appendix-1 Introduction …………………………………………………….. Apndx — 1
Appendix-2 Manual Change Information …………………………………. Apndx — 1
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL
4/4
Contents of SSD-4000 SERVICE MANUAL 1/2
Section 1 How to use this service manual
Section 2 PRECAUTIONS
Section 3 BEFORE REPAIRING
Section 4 PRINCIPLE OF SYTSTEM OPERATION
Section 5 SCHEMATICS
SECTION 6
SECTION 6
TROUBLESHOOTING
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 1
6-1 Introduction
This trouble shooting makes integral part of the Service Manual. And it has been prepared for the
persistent purpose of providing for repairing guidelines.
What has been described herein, moreover, is subject to the prerequisite for a repair to be made by
replacing a PCB.
6-2 Precautions
To prevent a new problem (secondary disaster) from taking place in the process of trouble
shooting as described herein, every engineer concerned should duly take the following precautions:
1) Never remove any part from the electric system, including PCB, probe, cable, etc., before
powering off the equipment.
2) Do not proceed to a disassembly of equipment without observing the established disassembly
procedure. Be careful enough for wrongly disassembling the equipment would damage or
break it down.
3) To make certain of a voltage and/or a signal waveform, it is necessary to thoroughly know the
specification and handling procedure relating to a measuring instrument employed.
4) To ground a measuring instrument probe or the like, it is naturally necessary to know where
a signal to determine is grounded. Before using the instrument, moreover, make certain for
which the grounding terminal is intended, analog, digital, alternating current, direct current,
high voltage or low voltage.
●CAUTION● Failure to ground properly might result in an incapability of observing an
accurate voltage or waveform or in a probability of burning out the
measuring instrument or ultrasound diagnostic equipment or both.
5) Do not fit a measuring instrument probe or the like to a measuring point before turning off the
ultrasound diagnostic equipment.
●CAUTION● To determine an especially high voltage, it might rupture a circuit in
the ultrasound diagnostic equipment. Besides, it might endanger an
engineer or engineers concerned.
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 2
6) To replace or repair a PCB, make certain of its compatibility, etc, in accordance with the
«History of SSD-4000».
If a wrong ROM should be mounted on a PCB, employ the ROM originally employed in the
user’s equipment or select an appropriate one in accordance with the History.
●CAUTION● If an incompatible PCB should be inserted into the equipment, there are
possibilities that the equipment may be burnt out. If such incompatible
PCB should remain inserted in the equipment after completion of a repair,
moreover, it should be fully noted that another problem might take place
newly.
7) Without definitively knowing that failure has taken place, do not unnecessarily change any
controls and/or switches on a PCB from their original settings.
To determine whether or not a problem is the failure, see Section 8 «Performance Check.»
If a readjustment is required, see Section 7″Adjustment Procedure.»
●CAUTION● An unnecessary change of controls’ or switches’ settings might bring
about a new problem, probably making the equipment unrepairable.
While you are shooting trouble in accordance with the present procedure, it may be necessary
to consult with Technical Support. In such a case, provide at least the following information:
i) Equipment model number,
ii) Equipment serial number,
iii) History of equipment (repairs and/or modifications so far made), and software version,
and
iv) Specific problem situations (Send a photo or photos.)
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 3
Fig.6-1 The Configuration On Display
To give an explanation about the situations of a problem, it is necessary to clarify to which it relates
out of the elements composing the scene, while referring to the illustration given above. Related
component elements may be roughly classified as follows:
l Ultrasound Image : An ultrasound tomographic image; its contour varies
with an image mode, a probe, etc.
l Memory Area : A full size of memory required to display an
ultrasound image.
l Gray Scale : An indicator of image gradients; its pattern varies
with a setting of enhancement, gamma or the like.
l Character : A component of the text relating to a hospital name, ID,
automatic display, etc.
l Graphic : A component of scale marks, active marks, body marks, etc.
MemoryArea
Gray Scale
Ultrasound Image
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 4
6-3 Tools and Measuring Instruments Required
The tools and measuring instruments, which are required for a repair on a standard basis, are as
follows:
1) Oscilloscope
Sensitivity : 5mV/div.
Frequency band : DC~50MHz
Maximum input voltage : 400V or more
2) Multi Meter
Class : 0.5 class
Range : ACV, DCV, DCA, Ω
3) Extension Card : EP442100BB
4) Test Piece:
Made by RMI (Radiation Measurements, INC.)
RMI-412 or RMI-403GS
5) Probe
Convex : UST-9123
6) ECG (EKG) simulator
EKG-101 (Made by Fukuda electronics) or equal model
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 5
6-4 Information
The settings for all functions are performed by the CPU (Central Processing Unit).
There are functions available that can be set by the user from an external source, and there are also
functions that allow only servicemen to make the settings.
This section explains the various settings and amendments to avoid damaging and
misunderstanding performance-related issued during repair work.
6-4-1 Automatic settings after switching the power supply on
The CPU will enter the initial setting mode when the power supply is switched on. The following
procedures will be visibly executed prior to ultrasound waves being transmitted and images created
and displayed.
The blower fins will begin to rotate.
↓
The power lamp will be illuminated and the DISK LED will blink
The switches are illuminated in order.
↓
[ALOKA Science & Humanity] , will be displayed on the TV monitor .
↓
[SSD-4000 System set-up in progress], will be displayed on the TV monitor
↓
Characters and graphics will be displayed on the TV monitor.
↓
The operation panel will be illuminated.
↓
An ultrasound wave image will be displayed.
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 6
6-4-2 Jumper (JP) settings
JP switches (jumper connectors) for the initial equipment settings and JP switches that
correspond to a variety of uses are attached to the PCB. If the correct specifications are not made
with these switches, the equipment will not only malfunction, but there is a risk that it may lead to
new malfunctions. Reset these switches while referring to fig.6-5 if they are amended under
unavoidable conditions.
Fig. 6 — 5
EP443600BB SDPEP443600BB SDP
J105
J113
J114
J105 : common setting
J113 : Common setting
J114 : Common setting
: Shorted
1 3
1 3
1 3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 – 7
6-4-3 Attention of connecting optional units
In the case of connecting the optional units, some optional units require other PCB something like
an interface between the main body and optional unit, therefore, refer to the following table about
the construction of optional units in advance.
OPTIONAL UNIT CONSTRUCTION(Expecting constitution of except unit and PCB)
PEU-4000*
Physio signal display unit
PSC EP4468**
Physio signal unit EU-5044*
SCU-4000(Ver.1.1.1 and higher)
Mechanical unit
A ITF EP444301
Mech. Connector EP4448**
UCW-4000
Steerable CW Doppler unit
STCW EP4442**
EU-9082
Tissue Harmonic Echo unit
Tx & Tx Focus2 EP4441**
EP4441** is included as standard from S/N.M00501 onwards.
EU-9083(Ver.1.1.2 and higher)
Video Cine Memory (VCM) unit
VCM EP4470**
EU-9084 (Ver.1.1.1 and higher)
Volume mode unit
VOL EP4469**
UCW-4000 B(Ver.3.1 and higher)
Steerable CW Doppler unit with
Independent
STCW with IND EP4902**
EU-9094(Ver.3.1 and higher)
Independent probe connector unit
Independent probe connector
EP4901**
Table 6 – 1
6-4-4 User-defined function settings
The functions that may be set up by the user are listed below. This data is backed up onto the
hard disk or the internal memory (EP4423**) with a battery.
No. User-defined settings Storage medium Battery back-up
1 Date and time Internal memory Yes
2 Hospital name Hard disk No
3 Preset Hard disk No
Although the back-up data will not be erased under normal conditions, there is a chance that it
will be erased during repairs and upgrades. Save the back-up data prior to performing these tasks
and restore it when the work has been completed.
○ Reference ○ : The back-up battery is mounted on the CPU board.
Refer to the following for details on the methods of setting up the back-up functions. Refer to
the Operator’s manuals provided with each item of equipment for further details.
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 8
6-4-4-1 Hospital name and date/time settings
Select the PRESET LIST in PRESET, and select COMMON PRESET in the PRESET screen and
then enter the data with a full keyboard, and
Select [Exit] to register the data.
6-4-4-2 Preset settings
1) Press the [PRESET] switch.
2) Select [SET UP OF PRESET] or [COMMON PRESET] from the PRESET screen.
3) Select something from the Tree view and then register the contents of each set-up menu or
set the contents of COMMON PRESET.
4) Register the preset name in [PRESET NAME].
5) Press [EXIT]
6-4-4-3 Preset table constitution
The next page shows the Preset table constitution for reference.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 – 9
Preset table constitution
CommonPreset Common 1
DICOM 1
Common 2
Preset Set-up menu
Display 1
Display 2
Display 3
Image 1
Image 2
Image 3
DICOM 2
Menu
Custom Switch 1
Custom Switch 2
Option
Body Mark
Doppler
Flow
Power Flow
Tissue Doppler
Tissue Flow
Tissue Power
VOL 1
VOL 2
IP Select B
IP Select M
IP Select (Doppler)
IP Select (Flow)
IP Select (Power)
IP Select (Doppler)
IP Select (Flow)
IP Select (Power)
Measurement
PresetControl Copy
Move
ABDOM
SP
PV
CARDIO
GYN
OBST
UROLOGY
Create Measurement Tools
Caliper Auto Off
Unit Selection
Caliper Mark Control
Basic Measurement
Report Data
Application Measurement
Caliper Auto Off
Unit Selection
Caliper Mark Control
Display Form
Study Assignment
Combined Report Display
Menu Assignment
Study 1
Transfer List Assignment
SW Assignment
Measure SW Assignment
Hot Key Assignment
+Mark Key Assignment
Ver. 1.1.1 and higher
Display 4
Display 5
Custom Switch 3
Stress Echo Ver. 2.0 and higher
Ver. 2.0 and higher
Ver. 2.0 and higher
DICOM 3
OTHER
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 10
6-4-5 Resetting the Backup data
A backup feature is available to normally store the user’s settings. In normal use, it will not
be necessary to erase all the information so stored. It is necessary, however, to reset the
backup memory with reference to the item 6-4-7 given below in any of the following events:
● IMPORTANT ● Resetting the backup data will erase the all user preset installed by
floppy disk.
Please prepar all of the installed floppy disk for user preset beforhand
when reset the backup data.
●CAUTION● Resetting the backup data will erase all presettings and hospital name.
To set them all over again after resetting the backup data, it is necessary to
stor the preset data according to “Backup the preset data” described in 6-
4-6.
1) When the software has been altered for an upgrade or for any other reason,
2) When an unnecessary (abnormal) character or characters or code or codes is displayed
in the data which have been set by the user.
3) When the system fails to start up even if the equipment is powered on.
Under such a circumstance, resetting the backup memory is a mere provisional action
consistently. To make a substantial repair, refer to 6-4-10 and 11. In such a situation,
moreover, it is impossible to store the set information, such as presettings, etc.
●CAUTION● NEVER reinstall the backup data saved in the state of item 2) or 3) above.
In case such data is reinstalled by mistake, not only the problem may recur
but also the system may fail to be started.
○REFERENCE○ This equipment is not equipped with backup RAM which was installed in
our previous equipment.
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 11
6-4-6 Backup the preset data
On the SSD-4000, all the preset data including the measuring function (obstetrical table) can be
backed up and reinstalled.
There are the following two methods of backing up such data: saving the data from the preset
control available for the user and saving it from the maintenance menu for use by the service
personnel only.
The backup data is saved on the floppy disk through the floppy disk drive installed in the equipment.
Therefore, it is necessary to prepare a formatted floppy disk.
The capacity of backup data from the maintenance menu becomes big, because this function saves
all internal data in one lump package. Therefore, it is necessary to prepare a formatted MO disk and
MO disk drive. A floppy disk and an MO disk should be prepared by each of you when necessary.
○REFERENCE○ The floppy disk is the 3.5-inch, 2HD and 1.44MB DOS-formatted disk. The
MO disk is 3.5-inch, DOS-formatted disk. The equipment itself has no
formatting function.
●CAUTION● When backup the preset data
When it is suspected that the backup data is damaged due to a failure, etc., or
unnecessary data is contained in the backup data, do not back up the preset
data. If you reinstall such data by mistake, the failure may recur or a new failure
may be caused.
●CAUTION●During backup the preset data
While the LED lamp of the floppy disk drive or MO disk drive is on, NEVER push
the eject button to remove the floppy disk or MO disk. The floppy/MO disk drive
and floppy/MO disk may be damaged.
1) About saving the data from the preset control (Copy of Preset/Library)
Necessary items only can also be backed up for each preset or each library. (Hospital names
cannot be backed up.)
For details of the operational procedures, refer to the operator’s manual.
① Select Preset.
② Select Preset Control
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 12
③ Insert a floppy disk, and select “To Floppy”. Then select “Copy”. The following
message will display on the TV monitor.
④ Copy the necessary preset items to the floppy disk.
In progress. Please wait.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 – 13
2) Saving the data from the maintenance menu (Copy Preset)
For details, refer to 11-2-2, «Maintenance menu» in Section 11. All the backup data is saved
collectively. All the backup data is backed up collectively.
① Press the Preset switch to display the preset select screen.
② Press CTRL + S to turn on the maintenance mode.
③ Select “UP GRADE” from Tree View.
④ Select “Back-Up Data Save” from the maintenance menu.
During backup, the message «In progress. Please wait.» is displayed at the lower left ofthe TV monitor.
6-4-7 How to reset the backup data
Resetting the backup data is done from the operation panel.
1) Resetting the backup data from the operation panel
① Press the Preset switch to display the preset select screen.
② Press CTRL + R, then the message below will appear on the TV monitor.
③ Press OK switch, then the machine automayically re-boot itself.
④ After re-booting, the window shown below will appear on the TV monitor.
Ver.1.1.2 and lower Ver.2.0.0 and higher
⑤ Confirm the contents of Configuration, then select “EXIT” and turn the power off andon again automatically.
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 14
6-4-8 Location of unit
The location of the all units and PCBs with main chassis and PCBs in each unit is shown below
figure. Refer to the disassembling procedure and parts list when repairing or upgrading.
Power supply unit (primary)
PSU-S4000*-1
Ultrasonic main unit
USM-25
Floppy disk drive
Connector
panel
JB-263
Power supply unit (secondly)
PSU-S4000*-2
Outlet
JB-260/261
Power cable unit
JB-258/259
Physiological unit
PEU-4000
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 15
Ultrasonic Main unit (USM-25*)The construction of this module and PCB location is shown following for reference.
Front sideRear side
View from the top
PROBE SELECTOR 1 EP4438**P
re A
MP
& V
ari
ab
le G
ain
AM
P E
P4
44
0**
RX Connector EP4437**/EP4639**
ST
CW
E
P4
44
2**
An
alo
g I
nte
rfa
ce
EP
44
43
**
Rx
Be
am
Fo
rme
r
E
P4
42
9**
VO
L
E
P4
46
9**
Tx
& T
x F
ocus
EP
45
00
/44
41
**
Rx
Be
am
Fo
rme
r E
P4
42
9**
/EP
46
25
**
Rx
Be
am
Fo
rme
r E
P4
42
9**
/EP
46
25
**
Tx
Rx
Co
ntr
ol
EP
44
30
**
OP
1
SD
P
E
P4
43
6**
CF
P
E
P4
43
5**
AD
_D
A
EP
44
44
**
VP
U
E
P4
46
6**
PS
C
E
P4
46
8**
BS
C
E
P4
46
4**
CS
C
E
P4
46
5**
CP
U
E
P4
42
3**
VC
M
E
P4
47
0**
MG
R
E
P4
46
7**
PR
OB
E S
EL
EC
TO
R 2
E
P4
43
9**
Mother Board EP4445**
Front sideRear side
View from the top
PROBE SELECTOR 1 EP4438**
RX Connector EP4639**
Pre
AM
P &
Va
ria
ble
Ga
in A
MP
EP
44
40
**
ST
CW
E
P4
44
2**
/EP
49
02
**
A IT
F
E
P4
44
3**
VO
L
E
P4
46
9**
Tx
& T
x F
ocus
2
EP
44
41
**
Rx
Be
am
Fo
rme
r E
P4
62
5**
/EP
48
37
**
Rx
Be
am
Fo
rme
r E
P4
62
5**
/EP
48
37
**
Tx
Rx
Co
ntr
ol
EP
44
30
**
OP
1
SD
P
E
P4
76
1**
CF
P
E
P4
76
0**
AD
_D
A
EP
44
44
** /
DB
P
EP
47
84
**
VP
U
E
P4
76
8**
PS
C
E
P4
46
8**
CP
U
E
P4
42
3**
VC
M
E
P4
47
0**
CM
B
E
P4
76
9**
PR
OB
E S
ELE
CT
OR
2
EP
44
39
01
Mother Board EP4812**
Applied to S/N. M01100 and before
Applied to S/N. M01101 and after
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 16
Main panel (L-KEY-75*)The construction of operation panel and PCB location is shown following for reference.
Interface board
Switch board (large)
Switch board (small)
Trackball
Keyboard assy.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 17
Power supply unit (PSU-S4000*)The construction of power supply units and PCB locations are shown following for reference.。
PSU-S4000-2
PSU-S4000-1
Mother EP448600**
HV Power Supply EP448500**
Low Power Supply (1)
EP448300**
Low Power Supply (2) EP448400**
Connector board EP449500**
Power Control EP448200**
Rear side
MN2-0233 Rev.1
SECTION 6 TROUBLESHOOTING
6 — 17 — 1
PSU-S4000B-2
PSU-S4000B-1
LV/HV Power supply
EP463200**
Low Voltage Power supply
EP463100**
High Voltage
EP440701**
Output connector board
EP463400**
Rectification circuit board
EP462200**
Power control
EP448200**
MN2-0233 Rev.2
SECTION 6 TROUBLESHOOTING
6 — 17 — 2
PSU-S4000B-2B
LV/HV Power supply
EP463200CC
Low Voltage Power supply
EP463100**
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 18
Physio signal display unit (PEU-4000)The location of physiological signal display unit PCBs is shown following for reference.
PSC (physiological signal memory) PCB is inserted into USM-25 unit, refer to “PCB location of
USM-25”.
Physio AMP EP457800**
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 19
6-4-9 Location of ROMs
The location of ROMs are shown following figures. Please refer for replacing the ROMs on
upgrade etc.
EP443500 CFPROM No.
A 35148*
B 35112*
C 3539*
D 00616*-3557*
E 00615*-3556*
F 3538*
G 3537*
H 3587*
I 3574*
EP443600 SDPROM No.
A 36146*
B 36137*
C 36106*
D 36105*
E 1205*
EP444200 STCWROM No.
A 4224* A
C
A
B
GF
ED
I
H
C
AB
D
E
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 20
EP444300 Analog InterfaceROM No.
A 1255*
B 1256*
C 1258*
D L-ROM-1264*
E L-ROM-1265*
F L-ROM-1266*
G 1259*
H 1257*
I 1262*
J 1261*
K 1260*
L 1263*
EP446400 BSCROM No.
A 64149*
B 64126*
C 00635*-64103*
D 64137*
E 00636*-64107*
F 6453*
G 6438*
EP446500 CSCROM No.
A 00644*-6579*
B 00643*-6544*
C 6537*
D 65136*
CA
BE
H G
FD
L
K J I
C
A
BD
E
FG
A
B
C
D
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 21
EP446700 MGRROM No.
A 67174*
B 67173*
C 67117*
EP446800 PSCROM No.
A 6849*
B 6824*
C 6812*
D 6866*
E 6858*
F 6850*
EP444400 AD_DAROM No.
A 00510*-44801*
B 00511*-44802*
C 44807*
EP450000 Tx & Tx FocusROM No.
A 1253*
B 1254*
C 1252*
D 1251*
C
A
B
DE
F
CB
A
C
BA
D
A B
C
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 22
EP443900 PROBE CONNECTOR 2ROM No.
A 3913*
B 3912*
C 3938*
EP444100 Tx & Tx Focus 2ROM No.
A 1253*
B 1254*
C 1252*
D 1251*
EP443000 Tx Rx ControlROM No.
A 1211*
EP446600 VPUROM No.
A 66143*
C
B
A
C
BA
D
A
A
MN2-0232 Rev.2SECTION 6 TROUBLESHOOTING
6 — 22 — 1
EP476900 CMBROM No.
A L-ROM-1346*
A
MN2-0232 Rev.2
SECTION 6 TROUBLESHOOTING
6 — 22 — 2
(Blank page)
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 – 23
6-4-10 Action to be taken if the equipment fails to be started or the panel operation is locked up
In case the system fails to start or crashes even if it starts, «Checklist Map» in paragraph 6-5 is not
effective. Perform repair operation by referring to the following items.
1) Checking the power voltage
First of all, check the output voltage of the power supply unit.
There are four CPUs in this system. The CPU controls the whole system. The three
remained CPU controls the peripheral circuits.
If a +3.3V/+5V/+12V power supply is not delivered from the power supply unit to these
CPUs and the hard disk drive, or the supplied power is abnormal, trouble will be brought
upon the whole system.
Even if the power supply unit is normal, it is also suspected that the connection cable is
broken or the power distributing circuit on each PC board is at fault.
The CPUs are installed on the following PC boards, respectively.
EP4423** CPU (USM-25*)
EP4467** MGR (USM-25*) (S/N. M01100 and before)
EP4430** Tx Rx Control (USM-25*)
I/F Interface (L-KEY-75*)
EP4769** CMB (USM-25*) (S/N. M01101 and after)
2) Trouble attributable to the flash memory
The flash memory is installed on the following PC boards. If the data in such memory is
abnormal, troubles such as a failure to start the equipment will occur.
l EP4441**/EP4500** Tx & Tx Focus
l EP4436**/EP4761** SDP
l EP4467** MGR (S/N. M01100 and before)
l EP4430** Tx Rx Control
l EP4769** CMB (S/N. M01101 and after)
3) Trouble attributable to the backup data
The backup data is saved on the hard disk. If this data is abnormal, troubles such as a failure
to start the equipment will occur.
Delete the backup data by referring to paragraph 6-4-8, «Resetting the backup data», then
check the operation.
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 – 24
4) Problem relating to various type of busses
If a bus signal considered abnormal, it is difficult to find out the failed part.
If the system should fail to start up or should be locking up, proceed with repairing while
referring to the information given below. It is recommended, however, to consult with
Technical Support in its earliest possible stage
Type of BUSPCB
PCI BUS LOCAL BUS USC BUS Front EndBUS
EP4439** Probe Selector 2 ⇔
EP4441**/EP4500** Tx & Tx Focus ⇔
EP4429**/EP4625** Rx Beam Former/EP4837**
⇔
EP4430** Tx Rx Control ⇔ ⇔
EP4443** A ITF ⇔ ⇔
EP4444** AD_DA ⇔
EP4435**/EP4760** CFP ⇔
EP4436**/EP4761** SDP ⇔
EP4442**/EP4902** STCW ⇔
EP4464** BSC ⇔
EP4465** CSC ⇔
EP4467** MGR ⇔ ⇔
EP4466**/EP4768** VPU ⇔
EP4423** CPU ⇔
EP4468** PSC ⇔
EP4469** VOL ⇔
EP4470** VCM ⇔ ⇔
EP4769** CMB ⇔ ⇔
EP4784** DBP ⇔
⇔:The bus read and writes on the related PCB
←:The bus writes on the related PCB
→:The bus reads on the related PCB
Available in addition to the buses enumerated above are the “local buses” which are controlled on a unit by
unit basis.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 – 23
6-4-10 Action to be taken if the equipment fails to be started or the panel operation is locked up
In case the system fails to start or crashes even if it starts, «Checklist Map» in paragraph 6-5 is not
effective. Perform repair operation by referring to the following items.
1) Checking the power voltage
First of all, check the output voltage of the power supply unit.
There are four CPUs in this system. The CPU controls the whole system. The three
remained CPU controls the peripheral circuits.
If a +3.3V/+5V/+12V power supply is not delivered from the power supply unit to these
CPUs and the hard disk drive, or the supplied power is abnormal, trouble will be brought
upon the whole system.
Even if the power supply unit is normal, it is also suspected that the connection cable is
broken or the power distributing circuit on each PC board is at fault.
The CPUs are installed on the following PC boards, respectively.
EP4423** CPU (USM-25*)
EP4467** MGR (USM-25*) (S/N. M01100 and before)
EP4430** Tx Rx Control (USM-25*)
I/F Interface (L-KEY-75*)
EP4769** CMB (USM-25*) (S/N. M01101 and after)
2) Trouble attributable to the flash memory
The flash memory is installed on the following PC boards. If the data in such memory is
abnormal, troubles such as a failure to start the equipment will occur.
l EP4441**/EP4500** Tx & Tx Focus
l EP4436**/EP4761** SDP
l EP4467** MGR (S/N. M01100 and before)
l EP4430** Tx Rx Control
l EP4769** CMB (S/N. M01101 and after)
3) Trouble attributable to the backup data
The backup data is saved on the hard disk. If this data is abnormal, troubles such as a failure
to start the equipment will occur.
Delete the backup data by referring to paragraph 6-4-8, «Resetting the backup data», then
check the operation.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 – 24
4) Problem relating to various type of busses
If a bus signal considered abnormal, it is difficult to find out the failed part.
If the system should fail to start up or should be locking up, proceed with repairing while
referring to the information given below. It is recommended, however, to consult with
Technical Support in its earliest possible stage
Type of BUSPCB
PCI BUS LOCAL BUS USC BUS Front EndBUS
EP4439** Probe Selector 2 ⇔
EP4441**/EP4500** Tx & Tx Focus ⇔
EP4429**/EP4625** Rx Beam Former ⇔
EP4430** Tx Rx Control ⇔ ⇔
EP4443** A ITF ⇔ ⇔
EP4444** AD_DA ⇔
EP4435**/EP4760** CFP ⇔
EP4436**/EP4761** SDP ⇔
EP4442** STCW ⇔
EP4464** BSC ⇔
EP4465** CSC ⇔
EP4467** MGR ⇔ ⇔
EP4466**/EP4768** VPU ⇔
EP4423** CPU ⇔
EP4468** PSC ⇔
EP4469** VOL ⇔
EP4470** VCM ⇔ ⇔
EP4769** CMB ⇔ ⇔
⇔:The bus read and writes on the related PCB
←:The bus writes on the related PCB
→:The bus reads on the related PCB
Available in addition to the buses enumerated above are the “local buses” which are controlled on a unit by
unit basis.
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 – 25
6-4-11 Minimum Start-up
In this section, we will explain concerning the minimum start-up as information necessary forrepairs (starting up the system with the minimum PCB configuration).
1) Definition of Minimum Start-upThe minimum start-up is defined to be the system’s start-up state when the equipment’s poweris switched on and the system started, then stabilizing in that state (with nothing displayed in theUS image area at that time). If the set-up operation is started a second time by pressing a modeor other switch after the system has started up, then that is also considered to be the minimumstart-up state.
〈 System Start-up 〉
Panelswitches
lighted?
Hassetup sequence
started?
Is setup completed?
Confirm equipment operation.
Mode
switching normal?
USimage display
normal?
POWER ON
Operation NormalStart-up state after all PCB’s have been installed.
Minimum Start-up
YES
YES
YES
YES
YES
NO
NO
NO
NO
NO All panel switches fail tolight up, or remain onwithout going off. Nothingis displayed on the monitor.
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 – 26
2) Combination that enables minimum start-up
The PCBs necessary for starting the equipment in this system are shown in the minimum
PCB below.
1. CPU EP4423**
2. VPU EP4466**/EP4768**
3. TX & TX FOCUS EP4441**/EP4500**
4. SDP EP4436**/EP4761**
5. TX RX Control EP4430**
6. MGR EP4467** (S/N.M01100 and before)
7. BSC EP4464** (S/N.M01100 and before)
8. AD_DA EP4444** (S/N. M02925 and before, M03051~M03075)
9. Rx Beam Former EP4429**/EP4625**/EP4837**
10. A ITF EP4443**
11. CMB EP4769** (S/N.M01101 and after)
12. DBP EP4784** (S/N. M02926~M03050, M03076 and after)
The equipment will start up if these boars and one probe (Phases array, Linear or Convex) are
connected.
l In case of probe is not connected.
The equipment will start up after set-up message displayed. The characters and graphics
are displayed completely, and the ultrasound image is not displayed.
The “EXT” switch on the Operation panel and the “PROBE” select switch are only effective.
3) Reaction and Phenomenon when one circuit board is taken out from the equipment
and the power is switched on.
u Main panel L-KEY-75*
The system will start up normally, but the LEDs of POWER / HDD and panel switches are not
lighted, and the following message will appear on the TV monitor.
● Caution ● We suppose that the Power Supply unit (PSU-S4000*), the Mother board
(EP4445**/EP4812**), the Operation panel (L-KEY-75*), the TV monitor
(IPC-1530Q*/IPC-1530U), FDD (Floppy Disk Drive) and the HDD (Hard
Disk Drive) are connected correctly and they work properly.
● Caution ● Please check the power switch turned off when you remove the PCB from
the equipment. If the power is ON, the secondary failure will occur.
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 – 27
The system does not start up shut-down process though the power switch is OFF. And, 5
minutes later, the system shuts down suddenly.
u CPU EP4423**
Graphic bar in blue is displayed on the TV monitor, and the switches of the operation panel are
continuously illuminated in order.
The system does not start up shut-down process though the power switch is OFF. And, 5
minutes later, the system shuts down suddenly.
The following shows the phenomenon when connector is removed.
P221 : Graphic bar in blue is displayed on the TV monitor, and the switches of the operation
panel are continuously illuminated in order. But the system starts up normally by
pressing the “F1” key when graphic bar in blue is displaying. (The FDD is not
recognized.)
When graphic bar in blue is displaying, the system does not start the shut-down
process even if the power switch is OFF. Probe Selector 1 and Probe Selector 2
EP4438**&EP4439**
The system will start up normally and only background noises will be displayed on the TV
monitor.
But only “EXIT”, PRESET” and “PROBE” switches on the operation panel are illuminated.
u Rx Connector EP4437**/EP4639**
The system will start up normally and only background noises will be displayed on the TV
monitor.
u Tx Tx Focus EP4441**/EP4500**
After “ALOKA” logotype is displayed on the TV screen, the following message is displayed
on the TV screen.
At that time, press “Enter”, the system will start up continuously, then the following message
is displayed on the TV screen.
Service Control Manager
At least one service or driver failed during system startup.
Use event viewer to examine the event log for details.
TXT FLASH
TXT FLASH Write Error
Power for ultrasound transmission was shut offas the system detected abnormal drive voltage.
Please reboot the system.
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 – 28
u Pre AMP & Variable Gain AMP EP4440**
The system will start up normally and only background noises will be displayed on the TV
monitor.
u Rx Beam Former EP4429**/EP4625**/EP4837**
After “ALOKA” logotype is displayed on the TV screen, and the following message is
displayed on the TV screen.
At that time, the system will start up continuously by pressing “Enter” on keyboard, and then
US image with three echo gaps is displayed. (In case of convex probe).
When pull out the right side one from three “Rx Beam Former” boards, US image is not
displayed.
u Tx Rx Control EP4430**
After “ALOKA” logotype is displayed on the TV screen, and the following message is
displayed on the TV screen. By pressing the Enter key, various messages will appear on the
TV screen
The system does not start up shut-down process though the power switch is OFF. And, 5
minutes later, the system shuts down suddenly.
u A ITF EP4443**
After “ALOKA” logotype is displayed on the TV screen, and the following message and
character/graphic are displayed on the TV screen.
u AD_DA EP4444**
The system will start up normally. But US image is not displayed on the TV screen.
Hard Access Error
RxBeamFormer Focus Table Write Access Error
TXT Flash Write Error
************************************
Invalid probe connected.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 – 29
u CFP EP4435**/EP4760**
The system will start up normally. But Color flow image and Doppler spectrum are not
displayed on the TV screen.
u SDP EP4436**/EP4761**
After “ALOKA” logotype is displayed on the TV screen, and the following message is
displayed on the TV screen. By pressing the Enter key, various messages will appear on the
TV screen.
The system does not start up shut-down process though the power switch is OFF. And, 5
minutes later, the system shuts down suddenly.
u STCW EP4442**
The system will start up normally. But the STCW function does not work.
u BSC EP4464**
The system will start up normally. But the image is not displayed. And, when you change the
mode, the following error message is displayed on the TV screen.
The system does not start up shut-down process though the power switch is OFF. And, 5
minutes later, the system shuts down suddenly.
u CSC EP4465**
The system will start up normally. But the Color flow image is not displayed.
u MGR EP4467**
Nothing is displayed on the TV screen, and the switches of the operation panel are
continuously illuminated in order.
The system does not start up shut-down process though the power switch is OFF. And, 5
minutes later, the system shuts down suddenly.
Hard No Answer
Spectrum Doppler initialize error. No. 0X48
Manager Processor Command Error
Manager Processor Busy with Command
OldCmd = 0x**, OldPara = 0x**
NewCmd = 0x**, NewPara = 0x**
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 – 30
LED3LED4
LED1LED2
u VPU EP4466**/EP4768**
Nothing is displayed on the TV screen, and the switches of the operation panel are
continuously illuminated in order.
The system does not start up shut-down process though the power switch is OFF. And, 5
minutes later, the system shuts down suddenly.
u PSC EP4468**
The system will start up normally. But the physiological signals are not displayed
6-4-12 LED’s on the PCB’s
LED’s are mounted on several of the PCB’s. These LED’s can be used to determine the operating
state of the PCB and also to detect a faulty PCB. LED’s include some which independently indicate
the operating state of a circuit and some which indicate the operating state as related to other
circuit boards, so the cause of trouble may not necessarily be in the board on which the LED is
mounted. The location and operating state of the LED’s are shown below.
EP4430** Tx Rx Control
LED1(red) : Lights up when watch dog timer is in reset state.
LED2(green) : Lights up when initializing work for IC9 is completed.
Lights up while DONE signal is outputting.
LED3(red) : Turn off when initializing work for IC9 is completed.
LED4(green) : Lights up when read out the revision of DBF board
completely after POWER switch ON or Reboot the
system., and turn off when DBF board becomes a
state of stand-by.
Then, lights up when the sequence for each mode is
starting, and turn off by freezing.
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 31
LED2LED3
LED1
LED14LED15
LED12LED13
LED11
LED4LED5
LED2LED3
LED1
LED9LED10
LED7LED8
LED6
EP4435** CFP
LED1(red) : Lights up when configuration error for IC89 occurs.
LED2(red) : Lights up when configuration error for IC92 occurs.
LED3(red) : Lights up when configuration error for IC88 occurs.
EP4436** SDPLED1(red) : Lights up when device for debugging is
connected.LED2(green) : Lights up when initializing work for DSP is
normal.LED3(red) : Blinking when internal error (illegal error)
occurs.Lights up when external bus error for DSPoccurs.
LED4(red) : Blinking when internal error (stuck error)
occurs.LED5(red) : Blinking when error of RS-232C port for DSP
occurs.Lights up when access error of FIFO for outputof color data occurs.
LED6(red) : Not useLED7(red) : Not useLED8(yellow) : Lights up when the DSP working.LED9(yellow) : Lights up when the MSE working.LED10(yellow) : Repeat the light up or turn off when over run
error of DSP processing occurs.LED11(yellow) : When abnormal operation of DSP occurs, lights
up the LED11 and turn off the LED8.LED12(green) : Lights up when the DSP working.LED13(green) : Lights up when the CW Doppler working.LED14(green) : Lights up when the output of spectrum Doppler
is stopped.LED15(green) : Repeat the light up or turn off when over run
error of DSP processing occurs.When abnormal operation of DSP occurs, lightsup the LED15 and turn off the LED12.
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 32
EP4464** BSCLED1(green) : For debugging. Normally, This LED is not lighted.
LED2(green) : For debugging. Normally, This LED is not lighted.
LED3(green) : For debugging. Normally, This LED is not lighted.
LED4(green) : For debugging. Normally, This LED is not lighted.
LED5(green) : For debugging. Normally, This LED is not lighted.
LED6(green) : For debugging. Normally, This LED is not lighted.
LED7(green) : For debugging. Normally, This LED is not lighted.
LED8(green) : For debugging. Normally, This LED is not lighted.
EP4465** CSC
LED1(green) : For debugging. Normally, This LED is not lighted.
LED2(green) : For debugging. Normally, This LED is not lighted.
LED3(green) : For debugging. Normally, This LED is not lighted.
LED4(green) : For debugging. Normally, This LED is not lighted.
LED5(green) : For debugging. Normally, This LED is not lighted.
LED6(green) : For debugging. Normally, This LED is not lighted.
LED7(green) : For debugging. Normally, This LED is not lighted.
LED8(green) : For debugging. Normally, This LED is not lighted.
LED8
↑
LED2LED1
LED7LED8
LED6LED5
LED3LED4
LED1LED2
MN2-0233SECTION 6 TROUBLESHOOTING
6 – 33
LED11↑
LED4
LED20LED21
LED12↑
LED19
LED23LED22
EP4467** MGRLED4(green) : For debugging. Normally, This LED is not lighted.
LED5(green) : For debugging. Normally, This LED is not lighted.
LED6(green) : For debugging. Normally, This LED is not lighted.
LED7(green) : For debugging. Normally, This LED is not lighted.
LED8(green) : For debugging. Normally, This LED is not lighted.
LED9(green) : For debugging. Normally, This LED is not lighted.
LED10(green) : For debugging. Normally, This LED is not lighted.
LED11(green) : For debugging. Normally, This LED is not lighted.
LED12(green) : For debugging. Normally, This LED is not lighted.
LED13(green) : For debugging. Normally, This LED is not lighted.
LED14(green) : For debugging. Normally, This LED is not lighted.
LED15(green) : For debugging. Normally, This LED is not lighted.
LED16(green) : For debugging. Normally, This LED is not lighted.
LED17(green) : For debugging. Normally, This LED is not lighted.
LED18(green) : For debugging. Normally, This LED is not lighted.
LED19(green) : For debugging. Normally, This LED is not lighted.
LED20(green) : For debugging. Normally, This LED is not lighted.
LED21(green) : For debugging. Normally, This LED is not lighted.
LED22(green) : For debugging. Normally, This LED is not lighted.
LED23(green) : For debugging. Normally, This LED is not lighted.
EP4468** PSC
LED1(green) : Lights up when an R wave is detected.
LED1
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 34
6-5 Check List Map
This “Check List Map”provides you with the data, based on which you may assume a PCB or
unit considered to have caused the equipment failure. It comprises the following information.
l Phenomenon Code Table : General failure phenomena have been classified into codes.
A failure is related with the“MAP”through each of codes.
l MAP : This is a table showing the relations of a“Code”given
in the“Phenomenon Code Table”, that is, a failure phenomenon,
with the PCB or unit assumed to cause that failure.
l Check Procedure : These steps show the norms on which you may determine a failure
concerning the PCBs and/or units entered on the “MAP”.
6-5-1 Flow chart for the usage of Check List Map
The method of cross reference for tree part, “Phenomenon Code Table”, “MAP” and “ Check
Procedure” , in “Check List Map” on the next page with the flow chart.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 35
Flow chart for the usage of Check List Map
No
No
Yes
No
Yes
Yes
START
Confirm phenomenon
Choose Code from
“Phenomenon Code
Table”
Phenomenon
Code is found from
table?
Choose corresponded
“Check Code” from“MAP”
Check according to“Check Procedure”
assigned with Code
Reason of
this failure is
found?
END
Any other
“Check Procedure”
suggested?
Apply toTechnical Support
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 36
6-5-2 Phenomenon Code Table
The general failure phenomena envisaged herein are roughly classified as described below while
being code with two alphabetical characters and gives the “Phenomenon Code”to refer the
“MAP”
Phenomenon Code
Failure on the ultrasound image with any display mode US
Failure on the display of characters or graphics CG
Failure about the timing synchronization or observational monitor TM
Failure on the general operation or function FU
Failure on the power supply, recording or panel control knobs PM
Failure on the physiological signal display PH
Failure on the spectral Doppler DP
Failure on the color flow Doppler or color image display CD
The “Phenomenon Code Tables” are used to provide the “Check Procedure” in order to judge
whether the trouble cause is existing or not according to the “MAP”.
The “Phenomenon Code Tables” are shown based on the classification with above codes, from
next page,
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 37
US Failure of the ultrasound image (UltraSound)
Code Aply Problems
item div
US-1 1 ○ Ultrasound image is not all displayed.
2 ○ Ultrasound image is not all displayed in a particular MODE.
3 ○ Ultrasound image is not all displayed only for LINEAR (or CONVEX).
4 Ultrasound image is not all displayed only for MECHANICAL SCANNER.
5 ○ Ultrasound image is not all displayed only for PHASED ARRAY.
6 ○ Only particular Ultrasound image is not displayed in multiples Ultrasound imagedisplays.
US-2 1 ○ Display of Ultrasound image area become white.
US-3 1 ○ Unnecessary dots or lines are displayed in Ultrasound image area.
2 ○ Regular horizontal or vertical stripes are displayed in Ultrasound image area.
US-4 1 ○ Lacks of ECHO are displayed in LINEAR (or CONVEX).
2 Lacks of ECHO are displayed in MECHANICAL SCANNER.
3 ○ Lacks of ECHO are displayed in PHASED ARRAY.
US-5 1 ○ Noises are seen on the Ultrasound image in LINEAR ( or CONVEX )
2 Noises are seen on the Ultrasound image in MECHANICAL SCANNER.
3 ○ Noises are seen on the Ultrasound image in PHASED ARRAY.
4 ○ Noises are seen on the Ultrasound image in all Ultrasound images.
US-6 1 ○ Sensitivity of Ultrasound image is low in LINEAR (or CONVEX).
2 Sensitivity of Ultrasound image is low in MECHANICAL SCANNER.
3 ○ Sensitivity of Ultrasound image is low in PHASED ARRAY.
4 ○ Sensitivity of Ultrasound image is low in all Ultrasound images.
US-7 1 ○ Same as depth band is difference brightness in Ultrasound image.
US-8 1 ○ Image varies as if enhanced, without gradation.
2 ○ Ultrasound image becomes moiré in MECHANICAL SCANNER, PHASEDARRAY, CONVEX.
US-9 1 ○ Form of Ultrasound image is abnormally displayed.
US-10 1 ○ Unnecessary multiples of Ultrasound images are displayed in LINEAR (orCONVEX).
2 Unnecessary multiples of Ultrasound images are displayed in MECHANICAL
SCANNER.
3 ○ Unnecessary multiples of Ultrasound image are displayed in PHASEDARRAY.
4 ○ Unnecessary multiples of Ultrasound image are displayed in allUltrasound images.
○:Marked items are effective on this system.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 38
CG Failure on the characters or graphics (Character & Graphic)
Code Aply Problems
item div.
CG-1 1 ○ Characters are displayed in the entire screen.
CG-2 1 ○ Only Caliper, Graphic are not displayed.
2 ○ Only Caliper, Graphic are abnormally displayed.
CG-3 1 ○ The entire screen becomes white.
2 ○ Unnecessary dots or stripes are displayed in all or parts of image.
CG-4 1 ○ TIME and DATE are abnormally displayed.
CG-5 1 ○ Characters are not displayed, key in cannot be made.
2 ○ Characters are abnormally displayed.
CG-6 1 ○ Measured value is not correct.
○:Marked items are effective on this system.
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 39
TM Failure about the timing or monitor (Timing & Monitor)
Code Aply Problems
item div.
TM-1 1 ○ All images are not displayed in any Monitor.
2 ○ Image is not displayed in a particular Monitor.
TM-2 1 ○ All Images are not synchronized in any Monitor.
2 ○ Image is not synchronized in a particular Monitor.
TM-3 1 ○ Entire image shake. Abnormality is seen when brightness varies in any Monitor.
2 ○ Entire image shake in a particular Monitor. Abnormality is seen.
TM-4 1 ○ The VCM screen is not synchronized. Abnormality is seen.
○:Marked items are effective on this system.
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 40
FU Failure on the general operation or function (FUnction)
Code Aply Problems
item div.
FU-1 1 ○ System locks up, or panel information is not accepted.
2 ○ The ERROR messages are shown on the monitor.
3 ○ The VOL mode doesn’t work. Functions and the images that related to the VOL
mode don’t work.
○:Marked items are effective on this system.
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 41
PM Failure on power supply, recording, switch & controls (Power & Memory)
Code Aply Problems
item div
PM-1 1 ○ Power output is not present, or abnormally outputted.
PM-2 1 ○ Switches and/or Controls are inoperative.
2 ○ Switches and/or Controls are abnormally operated.
3 ○ Camera shutter (or printing) is inoperative.
PM-3 1 ○ Photographed picture is not normal (Monitor is normal).
2 ○ Playback image is abnormally displayed (usual image is normal).
PM-4 1 ○ The recorded image and play back images are abnormally in VCM.
(The display image with main system is normal)
○:Marked items are effective on this system.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 42
PH Failure on the physiological signal display (PHysiological Signal)
Code Aply Problems
item div.
PH-1 1 ○ ECG (EKG) waveform is not displayed.
2 ○ ECG (EKG) waveform is abnormally displayed or sensitivity is low.
3 ○ ECG (EKG) waveform is abnormally displayed in a particular Mode, or not
displayed.
4 ○ ECG (EKG) Synchronization is not correctly operated.
PH-2 1 PULSE waveform is not displayed.
2 PULSE waveform is abnormally displayed, or sensitivity is low.
PH-3 1 ○ PCG waveform is not displayed.
2 ○ PCG waveform is abnormally displayed, or sensitivity is low.
○:Marked items are effective on this system.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 43
DP Failure on the spectral Doppler (DoPpler)
Code Aply Problems
item div.
DP-1 1 ○ Doppler image is not displayed.
2 ○ Doppler image is not displayed in a particular Mode.
3 ○ Doppler image is not displayed in a particular Probe.
4 ○ Doppler image is not displayed either PW or CW.
DP-2 1 ○ Doppler image is abnormally displayed.
2 ○ Doppler image is abnormally displayed in a particular Mode.
3 ○ Doppler image is abnormally displayed in a particular Probe.
4 ○ Doppler image is abnormally displayed either PW or CW.
DP-3 1 ○ Mirror or Side band noise appears on image or a large amount of noise.
2 ○ Mirror or Side band noise appears in a particular Mode, or a large amount of noise.
3 ○ Mirror or Side band noise appears in a particular Probe, or a large amount of noise.
4 ○ Mirror or Side band noise appears either PW or CW.
DP-4 1 ○ Sensitivity of Doppler image is low.
2 ○ Sensitivity of Doppler image is low in a particular Mode.
3 ○ Sensitivity of Doppler image is low in a particular Probe.
4 ○ Sensitivity of Doppler image is low either PW or CW.
DP-5 1 ○ Doppler sound is low or not outputted.
○ :Marked items are effective on this system.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 44
CD Failure on the color flow or color display (Color D isplay)
Code Aply Problems
item div.
CD-1 1 ○ Color is not displayed in Ultrasound image area.
2 ○ Color is not displayed in Ultrasound image area in a particular Mode.
3 ○ Color is not displayed in Ultrasound image area in a particular Probe.
CD-2 1 ○ Color noises are seen in Ultrasound image area, or a large amount of noises are
seen.
2 ○ Noises are seen in Ultrasound image in a particular Mode.
3 ○ Noises are seen in Ultrasound image in a particular Probe.
CD-3 1 ○ Color is abnormally displayed in Ultrasound image area.
2 ○ Color is abnormally displayed in Ultrasound image area in a particular Mode.
3 ○ Color is abnormally displayed in Ultrasound image area in a particular Probe.
CD-4 1 ○ Color is abnormally displayed in Playback mode.
CD-5 1 ○ Color is not displayed entire image, or abnormally displayed.
○:Marked items are effective on this system.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 45
6-5-3 MAP
Concerning the typical failure phenomena identified by “Phenomenon Codes”, those PCBs or units
which may be deemed to have caused such phenomena are shown below.
This MAP has phenomena classified by “Problem Code”. A PCB or unit assumed to be causative of
the related phenomenon is marked with a “Check List Code” for your referring to the “Check
Procedure”.
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 46
Failure on the ultrasound image with any display mode
Check List Problem Code US-1 US-2 US-3 US-4 US-5
Item Code 1 2 3 4 5 6 1 1 2 1 2 3 1 2 3 4Operation A1 ○ ○ ○ ○ ○
External Noise A2 ○ ○ ○
Power supply (PSU-S4000*) A3 ○ ○ ○ ○ ○ ○ ○
Probe/Scanner A4 ○ ○ ○ ○ ○ ○ ○
Monitor IPC-1530Q/IPC-1530(u)
A5
L-KEY-75* Main panel B1 ○ ○ ○
EP4438** Probe Selector 1 C1 ○ ○ ○ ○ ○
EP4439** Probe Selector 2 C2 ○ ○ ○ ○ ○
EP4437** Rx connector/EP4639**
C3 ○ ○ ○ ○ ○
EP4441** Tx & Tx Focus 2(For EU-9082)
C4 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4500** Tx & Tx Focus C5 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4440** Pre AMP &Variable Gain AMP
C6 ○ ○ ○ ○ ○ ○ ○ ○
EP4429** Rx Beam Former/EP4625**/EP4837**
C7 ○ ○ ○ ○ ○ ○ ○
EP4430** Tx Rx Control C8 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4443** A ITF C9 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4444** AD_DA/EP4784** DBP
C10 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4435** CFP/EP4760**
C11
EP4436** SDP/EP4761**
C12
EP4464** BSC C13 ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4465** CSC C14EP4467** MGR C15 ○ ○ ○ ○ ○ ○ ○ ○
EP4466** VPU/EP4768**
C16 ○ ○ ○ ○
EP4423** CPU C17EP4473** Audio C18EP4472** Distributor C19EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○ ○ ○ ○ ○ ○ ○ ○ ○
UCW-4000*EP4442**/EP4902** STCW
D1
PEU-4000EP4468** PSC
D2
PEU-4000EP4578** Physio. AMP
D3
SCU-4000*EP4448** Mecha. Connector
D4 ○ ○
EU-9083EP4470** VCM
D5
EU-9084EP4469** VOL
D6
B/W Printer E1Color Printer E2VCR E3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 47
Check List Problem Code US-6 US-7 US-8 US-9 US-10
Item Code 1 2 3 4 1 1 2 1 1 2 3 4Operation A1 ○ ○ ○ ○ ○
External Noise A2Power supply (PSU-S4000*) A3 ○ ○ ○ ○
Probe/Scanner A4 ○ ○ ○
Monitor IPC-1530Q/IPC-1530(u)
A5
L-KEY-75* Main panel B1 ○ ○ ○ ○
EP4438** Probe Selector 1 C1EP4439** Probe Selector 2 C2 ○ ○
EP4437** Rx connector/EP4639**
C3
EP4441** Tx & Tx Focus 2(For EU-9082)
C4 ○ ○ ○
EP4500** Tx & Tx Focus C5 ○ ○ ○
EP4440** Pre AMP &Variable Gain AMP
C6 ○ ○
EP4429** Rx Beam Former/EP4625**/EP4837**
C7 ○ ○ ○ ○ ○
EP4430** Tx Rx Control C8 ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4443** A ITF C9 ○ ○ ○ ○ ○
EP4444** AD_DA/EP4784** DBP
C10 ○ ○ ○ ○ ○ ○
EP4435** CFP/EP4760**
C11
EP4436** SDP/EP4761**
C12
EP4464** BSC C13 ○ ○ ○ ○ ○ ○ ○
EP4465** CSC C14EP4467** MGR C15 ○ ○ ○ ○ ○ ○ ○
EP4466** VPU/EP4768**
C16 ○ ○ ○ ○ ○ ○
EP4423** CPU C17 ○ ○ ○ ○ ○ ○
EP4473** Audio C18EP4472** Distributor C19EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○ ○ ○ ○ ○ ○ ○
UCW-4000*EP4442**/EP4902** STCW
D1
PEU-4000EP4468** PSC
D2
PEU-4000EP4578** Physio. AMP
D3
SCU-4000*EP4448** Mecha. Connector
D4 ○
EU-9083EP4470** VCM
D5
EU-9084EP4469** VOL
D6
B/W Printer E1Color Printer E2VCR E3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 48
Failure on the display of characters or graphics (Character & Graphic)
Check List Problem Code CG-1 CG-2 CG-3 CG-4 CG-5 CG-6
Item Code 1 1 2 1 2 1 1 2 1Operation A1External Noise A2Power supply (PSU-S4000*) A3Probe/Scanner A4Monitor IPC-1530Q
/IPC-1530(u)A5 ○ ○
L-KEY-75* Main panel B1 ○ ○ ○
EP4438** Probe Selector 1 C1EP4439** Probe Selector 2 C2EP4437** Rx connector/EP4639**
C3
EP4441** Tx & Tx Focus 2(For EU-9082)
C4
EP4500** Tx & Tx Focus C5EP4440** Pre AMP &
Variable Gain AMPC6
EP4429** Rx Beam Former/EP4625**/EP4837**
C7
EP4430** Tx Rx Control C8EP4443** A ITF C9EP4444** AD_DA/EP4784** DBP
C10
EP4435** CFP/EP4760**
C11
EP4436** SDP/EP4761**
C12
EP4464** BSC C13EP4465** CSC C14EP4467** MGR C15 ○ ○
EP4466** VPU/EP4768**
C16 ○ ○ ○ ○ ○
EP4423** CPU C17 ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4473** Audio C18EP4472** Distributor C19 ○
EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○ ○
UCW-4000*EP4442**/EP4902** STCW
D1
PEU-4000EP4468** PSC
D2
PEU-4000EP4578** Physio. AMP
D3
SCU-4000*EP4448** Mecha. Connector
D4
EU-9083EP4470** VCM
D5
EU-9084EP4469** VOL
D6
B/W Printer E1Color Printer E2VCR E3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 49
Failure about the timing synchronization or observational monitor (Timing & Monitor)
Check List Problem Code TM-1 TM-2 TM-3 TM-4
Item Code 1 2 1 2 1 2 1Operation A1 ○ ○ ○
External Noise A2Power supply (PSU-S4000*) A3 ○ ○ ○
Probe/Scanner A4Monitor IPC-1530Q
/IPC-1530(u)A5 ○ ○ ○
L-KEY-75* Main panel B1EP4438** Probe Selector 1 C1EP4439** Probe Selector 2 C2EP4437** Rx connector/EP4639**
C3
EP4441** Tx & Tx Focus 2(For EU-9082)
C4
EP4500** Tx & Tx Focus C5EP4440** Pre AMP &
Variable Gain AMPC6
EP4429** Rx Beam Former/EP4625**/EP4837**
C7
EP4430** Tx Rx Control C8EP4443** A ITF C9EP4444** AD_DA/EP4784** DBP
C10
EP4435** CFP/EP4760**
C11
EP4436** SDP/EP4761**
C12
EP4464** BSC C13EP4465** CSC C14EP4467** MGR C15 ○ ○ ○
EP4466** VPU/EP4768**
C16 ○ ○ ○ ○ ○ ○ ○
EP4423** CPU C17 ○ ○
EP4473** Audio C18EP4472** Distributor C19 ○ ○ ○
EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○ ○ ○
UCW-4000*EP4442**/EP4902** STCW
D1
PEU-4000EP4468** PSC
D2
PEU-4000EP4578** Physio. AMP
D3
SCU-4000*EP4448** Mecha. Connector
D4
EU-9083EP4470** VCM
D5 ○
EU-9084EP4469** VOL
D6
B/W Printer E1Color Printer E2VCR E3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 50
Failure on the general operation or function (FUnction)
Check List Problem Code FU-1
Item Code 1 2 3Operation A1External Noise A2Power supply (PSU-S4000*) A3 ○
Probe/Scanner A4 ○
Monitor IPC-1530Q/IPC-1530(u)
A5
L-KEY-75* Main panel B1 ○ ○ ○
EP4438** Probe Selector 1 C1EP4439** Probe Selector 2 C2EP4437** Rx connector/EP4639**
C3
EP4441** Tx & Tx Focus 2(For EU-9082)
C4 ○ ○
EP4500** Tx & Tx Focus C5 ○ ○
EP4440** Pre AMP &Variable Gain AMP
C6
EP4429** Rx Beam Former/EP4625**/EP4837**
C7 ○ ○
EP4430** Tx Rx Control C8 ○ ○
EP4443** A ITF C9 ○ ○
EP4444** AD_DA/EP4784** DBP
C10 ○
EP4435** CFP/EP4760**
C11
EP4436** SDP/EP4761**
C12 ○ ○
EP4464** BSC C13 ○ ○
EP4465** CSC C14EP4467** MGR C15 ○ ○
EP4466** VPU/EP4768**
C16 ○ ○
EP4423** CPU C17 ○ ○
EP4473** Audio C18EP4472** Distributor C19EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○ ○ ○
UCW-4000*EP4442**/EP4902** STCW
D1
PEU-4000EP4468** PSC
D2
PEU-4000EP4578** Physio. AMP
D3
SCU-4000*EP4448** Mecha. Connector
D4
EU-9083EP4470** VCM
D5
EU-9084EP4469** VOL
D6 ○
B/W Printer E1Color Printer E2VCR E3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 51
Failure on the power supply, recording or panel control knobs (Power & Memory)
Check List Problem Code PM-1 PM-2 PM-3 PM-4
Item Code 1 1 2 3 1 2 1Operation A1 ○ ○ ○
External Noise A2Power supply (PSU-S4000*) A3 ○
Probe/Scanner A4Monitor IPC-1530Q
/IPC-1530(u)A5
L-KEY-75* Main panel B1 ○ ○ ○
EP4438** Probe Selector 1 C1EP4439** Probe Selector 2 C2EP4437** Rx connector/EP4639**
C3
EP4441** Tx & Tx Focus 2(For EU-9082)
C4
EP4500** Tx & Tx Focus C5EP4440** Pre AMP &
Variable Gain AMPC6
EP4429** Rx Beam Former/EP4625**/EP4837**
C7
EP4430** Tx Rx Control C8 ○
EP4443** A ITF C9 ○
EP4444** AD_DA/EP4784** DBP
C10 ○
EP4435** CFP/EP4760**
C11
EP4436** SDP/EP4761**
C12
EP4464** BSC C13EP4465** CSC C14EP4467** MGR C15 ○
EP4466** VPU/EP4768**
C16 ○ ○ ○
EP4423** CPU C17 ○ ○ ○
EP4473** Audio C18EP4472** Distributor C19 ○
EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○
UCW-4000*EP4442**/EP4902** STCW
D1
PEU-4000EP4468** PSC
D2
PEU-4000EP4578** Physio. AMP
D3
SCU-4000*EP4448** Mecha. Connector
D4
EU-9083EP4470** VCM
D5 ○
EU-9084EP4469** VOL
D6
B/W Printer E1 ○ ○
Color Printer E2 ○ ○
VCR E3 ○
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 52
Failure on the physiological signal display (PHysiological signal)
Check List Problem Code PH-1 PH-2 PH-3
Item Code 1 2 3 4 1 2 1 2Operation A1 ○ ○ ○ ○
External Noise A2Power supply (PSU-S4000*) A3Probe/Scanner A4Monitor IPC-1530Q
/IPC-1530(u)A5
L-KEY-75* Main panel B1EP4438** Probe Selector 1 C1EP4439** Probe Selector 2 C2EP4437** Rx connector/EP4639**
C3
EP4441** Tx & Tx Focus 2(For EU-9082)
C4
EP4500** Tx & Tx Focus C5EP4440** Pre AMP &
Variable Gain AMPC6
EP4429** Rx Beam Former/EP4625**/EP4837**
C7
EP4430** Tx Rx Control C8 ○
EP4443** A ITF C9EP4444** AD_DA/EP4784** DBP
C10
EP4435** CFP/EP4760**
C11
EP4436** SDP/EP4761**
C12
EP4464** BSC C13 ○ ○ ○ ○ ○ ○ ○
EP4465** CSC C14EP4467** MGR C15EP4466** VPU/EP4768**
C16 ○ ○ ○ ○ ○
EP4423** CPU C17EP4473** Audio C18EP4472** Distributor C19EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○ ○ ○ ○ ○ ○ ○
UCW-4000*EP4442**/EP4902** STCW
D1
PEU-4000EP4468** PSC
D2 ○ ○ ○ ○ ○ ○ ○ ○
PEU-4000EP4578** Physio. AMP
D3 ○ ○ ○ ○ ○ ○ ○ ○
SCU-4000*EP4448** Mecha. Connector
D4
EU-9083EP4470** VCM
D5
EU-9084EP4469** VOL
D6
B/W Printer E1Color Printer E2VCR E3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 53
Failure on the spectral Doppler (DoPpler)
Check List Problem Code DP-1 DP-2 DP-3 DP-4 DP-5
Item Code 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1Operation A1 ○ ○ ○ ○ ○ ○ ○ ○
External Noise A2Power supply (PSU-S4000*) A3Probe/Scanner A4 ○ ○ ○ ○ ○ ○ ○ ○ ○
Monitor IPC-1530Q/IPC-1530(u)
A5 ○
L-KEY-75* Main panel B1EP4438** Probe Selector 1 C1EP4439** Probe Selector 2 C2EP4437** Rx connector/EP4639**
C3
EP4441** Tx & Tx Focus 2(For EU-9082)
C4 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4500** Tx & Tx Focus C5 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4440** Pre AMP &Variable Gain AMP
C6 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4429** Rx Beam Former/EP4625**/EP4837**
C7 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4430** Tx Rx Control C8 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4443** A ITF C9 ○ ○ ○ ○
EP4444** AD_DA/EP4784** DBP
C10
EP4435** CFP/EP4760**
C11 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4436** SDP/EP4761**
C12 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4464** BSC C13 ○ ○
EP4465** CSC C14EP4467** MGR C15 ○ ○ ○
EP4466** VPU/EP4768**
C16
EP4423** CPU C17 ○
EP4473** Audio C18 ○
EP4472** Distributor C19 ○
EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○ ○ ○
UCW-4000*EP4442**/EP4902** STCW
D1 ○ ○ ○ ○ ○ ○ ○
PEU-4000EP4468** PSC
D2
PEU-4000EP4578** Physio. AMP
D3
SCU-4000*EP4448** Mecha. Connector
D4
EU-9083EP4470** VCM
D5
EU-9084EP4469** VOL
D6
B/W Printer E1Color Printer E2VCR E3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 54
Failure on the color flow Doppler or color image display (Color Display)
Check List Problem Code CD-1 CD-2 CD-3 CD-4 CD-5
Item Code 1 2 3 1 2 3 1 2 3 1 2Operation A1 ○ ○ ○ ○
External Noise A2Power supply (PSU-S4000*) A3Probe/Scanner A4 ○ ○ ○ ○ ○ ○
Monitor IPC-1530Q/IPC-1530(u)
A5
L-KEY-75* Main panel B1EP4438** Probe Selector 1 C1EP4439** Probe Selector 2 C2EP4437** Rx connector/EP4639**
C3
EP4441** Tx & Tx Focus 2(For EU-9082)
C4 ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4500** Tx & Tx Focus C5 ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4440** Pre AMP &Variable Gain AMP
C6 ○ ○ ○ ○ ○
EP4429** Rx Beam Former/EP4625**/EP4837**
C7 ○ ○
EP4430** Tx Rx Control C8 ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4443** A ITF C9EP4444** AD_DA/EP4784** DBP
C10 ○
EP4435** CFP/EP4760**
C11 ○ ○ ○ ○ ○ ○ ○ ○
EP4436** SDP/EP4761**
C12 ○ ○ ○ ○ ○ ○ ○ ○
EP4464** BSC C13EP4465** CSC C14 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4467** MGR C15 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
EP4466** VPU/EP4768**
C16 ○ ○ ○
EP4423** CPU C17 ○ ○ ○
EP4473** Audio C18EP4472** Distributor C19EP4445** Mother/EP4812**
C20
EP4769** CMB C21 ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ ○
UCW-4000*EP4442**/EP4902** STCW
D1
PEU-4000EP4468** PSC
D2
PEU-4000EP4578** Physio. AMP
D3
SCU-4000*EP4448** Mecha. Connector
D4
EU-9083EP4470** VCM
D5
EU-9084EP4469** VOL
D6
B/W Printer E1Color Printer E2VCR E3
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 55
6-5-4 PCB Check Procedure
This “PCB check Procedure” is divided by“CHECK CODE».
Before use this procedure, find“CHECK CODE» corresponding to the symptom using “Problem
Code Table” and “MAP”.
This procedure shows description to confirm for each “CHECK CODE” listed in “MAP”
And this procedure estimates one trouble exits in Ultrasound diagnostic equipment.
How to use “PCB Check Procedure”.
1) Refer to the explanation in each “CHECK CODE”.
2) Follow the procedure related the problem.
3) Some procedure require to refer Waveform and Adjustment procedure.
4) In “Abnormal” or “Normal”, continue the confirmation described.
«C8» : If there is other confirmation, please jump to the CHECK CODE «C8»
which is shown at head of phrase.
“3”) : There is a description to confirm in other item (3).Please refer it and
check a relative item.
Replace this PCB : After some confirmation, it has been judged that the corresponded PCB is
defective.
5) Other cause can be thought.
It has been judged that this PCB or Unit is defective.
However, other cause can be thought. So you should check the other symptoms occur or
not.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 56
A1 Operation
It is important that you understand the operation and specification.
At first, you should be check that the symptom is caused by the operation or its specification,
according to“SECTION 8 PERFORMANCE CHECK».
However, if you cannot judge, you should inquire of technical Support.
●CAUTION● Do not change or readjust the switches and variable resistors which are
located inside of the equipment thoughtlessly. It may make the other big
problem.
○REFERENCE○ The operation and specification may be changed by software or its level.
Please refer “HISTORY OF IMPROVEMENT” and “Technical Bulletin”.
Please refer to “3-3 Messages” with SECTION 3 onto SSD-4000 Service Manual 1/2 about
displayed message on screen.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 57
A2 External Noise Factor
Against the noise which is an unexpected phenomenon suspected to be external, try to change the
equipment location and the power supply line.
To investigate into the environments where the equipment is installed, refer to the following
points:
(1) Isn’t such a voltage fluctuate or noise inducer as X-ray equipment or the like existing in a
near room?
(2) Isn’t such a noise-inducer as a computer or the like existing nearby?
(3) Isn’t such a radio wave transmitting station as a broadcasting station or the like existing
nearby?
(4) Isn’t a high-voltage overhead cable existing nearby?
(5) Is the noise level affected when a fluorescent lamp is switched off or when the probe is
brought nearer to such lamp?
(6) Aren’t optional units, such as VTR, physiological signal unit, etc. affecting?
(7) Doesn’t the noise level change even if the equipment is securely grounded onto the
building by the use of a thick and short grounding cable? It is necessary, however, to
confirm beforehand that the building itself has been grounded securely.
(8) Doesn’t the building-fed power have any noise or voltage fluctuation?
The corrective action to be taken differs between the noise generated by the equipment itself
and the external one. If the worker concerned has insufficient knowledge to take such action,
check the items specified below first and then make contact with Technical Support.
(1) Are the noise and phenomena equivalent thereto taking place under normal working
conditions in a limited mode, with a limited probe and/or by a limited usage only?
(2) Make certain of such low-voltage power supplies as +3.3V, ±5V and ±15V.
(3) With the probe held by hand, does the noise increase or decrease?
(4) With the probe redirected, does the noise increase or decrease?
(5) In what direction does the noise (nor streak) change on the ultrasound image (or on the
entire screen)? And is such change regular or irregular?
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 58
A3 Power Supply PSU-S4000*
Check each output voltage according to following table and figures.
The checking must be done in following condition.
<In case of PSU-S4000>
1) Connect the electronic linear / convex / phased array probe.
2) Wait for 30 minutes after turning the power switch on.
3) AC input voltage to the power supply unit must be set within ±10% of standard at worst.
4) Make without load condition when you measure AC OUTLET.
Check Point
Connector No. Pin GNDOutput Voltage (Standard)
1 7 +5.1V +5.3V~+5.1V
2 7 -5.0V -5.2V~-5.0V
3 7 -12.0V -12.2V~-12.0V
4 7 HVB Refer to table of HVB
5 - NC or +70V ―――
6 7 CWV Refer to table of CWV
8 7 +3.3V +3.5V~+3.3V
9 7 +5.0V +5.2V~+5.0V
10 7 +12.0V +12.2V~+12.0V
11 - NC ―――
12 7 HVA Refer to table of HVA
13 - NC or –130V ―――
J401
14 7 +12Vb +13.5V~+10.5V
AC OUTLET Same as AC input Voltage Within ±3.0%
An ultrasound transmission voltage is controlled variably by the control signal supplied from the
exterior as shown in a table given on the next page. That voltage is controlled by a 6-bit TTL
signal.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 59
High Voltage specification
HV Control (HVA/HVB) Output Voltage Current(Max.)
HEX b0 b1 b2 b3 b4 b5 HVA HVB
- × × × × × × OFF OFF
3F H H H H H H OFF OFF
~ ~ ~ ~ ~ ~ ~ ~ ~ ~
1A L H L H H L -31.2V +19.5V 0.25A
19 H L L H H L -32.5V +20.3V 0.25A
01 H L L L L L -78.75V +49.2V 0.1A
00 L L L L L L -80.0V +50.0V 0.1A
CWV specification
HV Control (CWV) Output Voltage Current(Max.)
HEX b0 b1 b2 b3 b4 b5 CWV
- × × × × × × OFF
3F H H H H H H OFF
3A L H L H H H +0.9V 0.08A
39 H L L H H H +1.1V 0.09A
~ ~ ~ ~ ~ ~ ~ ~ ~
01 H L L L L L +11.8V 0.98A
00 L L L L L L +12.0V 1.0A
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 60
Connector arrangement of PSU-S4000*-2
A. Applied to S/N. M00101 through M02606, M02772 and M02773
B. Applied to S/N. M02607 through M02771, M02774 and higher
J401:VOLTAGE CHECK
14
7
8
1
FAN NC HVA NC +12.0V
+5.1V-5.0VHVB -12.0V
5.0V
GND
+3.3V
CWV NC
J401:VOLTAGE CHECK
14
7
8
1
FAN -130V HVA NC +12.0V
+5.1V-5.0VHVB -12.0V
5.0V
GND
+3.3V
CWV +70V
6 –61
MN2-0233
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Power Distribution Map for PSU-S4000PSU-S4000-2 PSU-S4000-1Power supply unit
PSU-S4000 +3.3V +5.1Va +12.0V -12.0V +5.0V -5.0V HVB HVA CWV +12.0V AC OUT
EP4483** 〇 〇
EP4484** 〇 〇 〇 〇
EP4485** 〇 〇 〇
EP4495** 〇
USI-150
Fan 〇
IPC-1530Q TV monitor 〇
L-KEY-75* Main panel 〇 〇 〇
HDD 〇
FDD 〇
EP4261** Foot SW PCBEP4438** Probe Selector 1 〇 〇 〇 〇 〇
EP4439** Probe Selector 2 〇 〇 〇 〇 〇
EP4440** Pre AMP 〇 〇 〇
EP4441**/EP4500** Tx & Tx Focus 〇 〇 〇 〇 〇 〇EP4441 only
〇 〇 〇
EP4442** STCW 〇 〇 〇 〇
EP4443** A ITF 〇 〇 〇 〇 〇01 only
〇01 only
EP4429** Rx Beam Former 〇 〇 〇 〇
EP4429** Rx Beam Former 〇 〇 〇 〇
EP4429** Rx Beam Former 〇 〇 〇 〇
EP4444** AD_DA 〇 〇 〇 〇 〇 〇
MN2-0233
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PSU-S4000-2 PSU-S4000-1Power supply unitPSU-S4000
+3.3V +5.1Vd +12.0V -12.0V +5.0V -5.0V HVB HVA CWV +12.0V AC
EP4483** 〇 〇
EP4484** 〇 〇 〇 〇
EP4485** 〇 〇 〇
EP4495** 〇
EP4435** CFP 〇 〇
EP4436** SDP 〇 〇
EP4430** Tx Rx Control 〇 〇
EP4469** VOL 〇 〇 〇 〇 〇
EP4465** CSC 〇 〇
EP4464** BSC 〇 〇
EP4468** PSC 〇 〇 〇 〇
EP4466** VPU 〇 〇 〇 〇
EP4467** MGR 〇 〇
EP4470** VCM 〇 〇 〇 〇 〇
EP4423** CPU 〇 〇 〇 〇 〇
EP4472** Distributor 〇 〇 〇
EP4473** Audio 〇 〇 〇
MN2-0233 Rev.3
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6 — 62 — 1
Power Distribution Map for PSU-S4000*PSU-S4000*-2* PSU-S4000*-1Power supply unit
PSU-S4000* +3.3V +5.1Va +12.0V -12.0V +5.0V -5.0V HVB HVA CWV +12.0V AC OUTEP4631** 〇 〇 〇 〇 〇
EP4632** 〇 〇 〇 〇
EP4634** 〇
USI-150Fan 〇
IPC-1530Q/IPC-1530(u) TV monitor 〇
L-KEY-75* Main panel 〇 〇 〇
HDD 〇
FDD 〇
EP4261** Foot SW PCBEP4438** Probe Selector 1 〇 〇 〇 〇 〇
EP4439** Probe Selector 2 〇 〇 〇 〇 〇
EP4440** Pre AMP 〇 〇 〇
EP4441**/EP4500** Tx & Tx Focus 〇 〇 〇 〇 〇 〇
EP4441
〇 〇 〇
EP4442**/EP4902** STCW 〇 〇 〇 〇
EP4443** A ITF 〇 〇 〇 〇 〇
01のみ
〇
01のみ
EP4625**/EP4837** Rx Beam Former 〇 〇 〇 〇
EP4625**/EP4837** Rx Beam Former 〇 〇 〇 〇
EP4444** AD_DA 〇 〇 〇 〇 〇 〇
EP4784** DBP 〇 〇 〇 〇 〇 〇
MN2-0233 Rev.2
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PSU-S4000*-2* PSU-S4000*-1Power supply unitPSU-S4000*
+3.3V +5.1Vd +12.0V -12.0V +5.0V -5.0V HVB HVA CWV +12.0V AC
EP4631** 〇 〇 〇 〇 〇
EP4632** 〇 〇 〇 〇
EP4634** 〇
EP4435**/EP4760** CFP 〇 〇
EP4436**/EP4761** SDP 〇 〇
EP4430** Tx Rx Control 〇 〇
EP4469** VOL 〇 〇 〇 〇 〇
EP4465** CSC 〇 〇
EP4464** BSC 〇 〇
EP4468** PSC 〇 〇 〇 〇
EP4466**/EP4768** VPU 〇 〇 〇 〇
EP4467** MGR 〇 〇
EP4470** VCM 〇 〇 〇 〇 〇
EP4423** CPU 〇 〇 〇 〇 〇
EP4472** Distributor 〇 〇 〇
EP4473** Audio 〇 〇 〇
EP4769** CMB 〇 〇
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 63
A4 Probe / Scanner
This system is connectable with an electronic scanning probe. First of all, therefore, it is
important to make certain in which probe the failure phenomenon has taken place.
1) Electronic Probe only
1)-1 Confirmation by Use of Another Probe or UnitMake a checkout of performance, using a probe of the same model number as that inwhich the failure has taken place, if possible. To check for performance, moreover,connect the apparently failed probe with a system of identical type available as a substitute,if any.
1)-2 Coin Check (Effective for electronic linear and convex sector probe.)Set the system in B mode and slowly move a fine metal bar, such as a resistor lead or thelike, from end to end while fitting it to the probe lightly on the surface. Then, observe theultrasound image on the TV monitor. There are possibilities that the probe may have ailedif the problem should fall in any of the following cases while moving the metal bar.
Echo gap at one location :If the probe is normal, the failure has taken place on the high-voltage switch (HVS) circuitor from the probe selector to the probe.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1
Echo gaps at two or more locations at equal intervals :If the probe is normal, the failure relates to the signal lines covering the crystal on theprobe or to the HVS circuit.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C2/C4/C5/C6
● Two or more echoes appear at equal intervals.A failure of the signal line provided on equal terms with a transducer of the probe or afailure of the HVS circuit.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C2/C4/C5
Echo gaps over a certain consecutive span:If the probe is normal, the failure has taken place in the HVS control circuit or from theprobe selector to the probe.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C2/C4/C5/C7
2) Probe Code
To make the system identify the type of a probe, a “probe code” is provided individually.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 64
This “probe code” is used to determine conceivability or to read out the informationpeculiar to a probe stored in the parameter memory. A probe code is set according to avariation of how pins are arranged in a connector of the probe. If any of these pins has bentor broken, the system will not only fail to identify a probe code but also, in the worst case,may mistake it for the code of a different probe. This involves the fear that the systemeventually set up may be put into a dangerous condition. Strictly check every pin for apossible bend or breakage, accordingly.
●CAUTION● If the probe should be mounted and removed repetitively onto the system
equipment while leaving a probe pin bent, there are possibilities that the
system connector may break down. In addition, the system connector so
broken down has really ruptured a pin in another probe in the worst case so far
experienced.
It is necessary, therefore, to find out a pin bent or broken in its earliest
possible stages.
If there is an impediment to the path through which a probe code is transmitted, moreover,a similar failure phenomenon will appear.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C2/C4/C5/C9/C15/D1
Connector for electrical linear, convex and pheased array probe.
Model : UST-9123
G : GND
Probe Code SW1: 5, SW2: 6
In case of the probe code is not recognized normally and the
message of “Invalid Probe” is shown on the TV monitor, the
poor connection of the probe connector may occur this trouble.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 65
A5 TV monitor IPC-1530Q/IPC-1530(U)
For this checking, refer “SECTION 7 SCHEMATICS”.
Check the contrast and brightness potentiometers for proper setting at first. And referring A3,
check the voltage supplied for TV monitor.
○REFERENCE○ An impression of an ultrasound image depends largely on setting of
contrast and brightness. User complaints about insufficient sensitiveness
or resolving power may be sometimes solved by adjustments of contrast
and brightness potentiometers.
Remember the fact that excessively high setting of those potentiometers
would cause characters and graphics to flicker.
If the display power switch is repeatedly turned on and off at random, a spot may be produced on
the CRT or a fault may result. Care should be taken.
1) Precaution for Monitor repairing
1)-1 Subjecting the unit to strong shocks may result in damage to the CRT or malfunction,
therefore care must be taken when transporting or installing the unit.
● DANGER ● High voltages are present inside the display chassis. Only experiencedtechnicians should touch internal parts.
● DANGER ● The electric charge has remained in CRT after the power switch is turned
off. Because the high voltage is usually used for CRT. So make the
electric charge escape with a grounding stick which is connected to the
ground of the chassis and through the resistance for high voltage (Approx.
1MΩ) before removing the anode cap.
Some electric charge remains in CRT after escaping with a grounding stick.
Do not touch the metallic part of anode cap with bare hands, when
detaching the anode cap directly.
1)-2 CRT with the deflecting yoke is already adjusted to the best condition. Do not touch the
deflecting yoke and the magnet of the neck part.
1)-3 Be sure to detach the metallic goods such as a wristwatch from your body before doing the
repair work.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 66
1)-4 To prevent the secondary damage and the electrical shock, the matters above should be
taken into careful consideration.
1)-5 Avoid covering the air hole or installing this equipment by the side of any source of heat.
Install the equipment in a place with good ventilation as much as possible.
1)-6 Avoid using the equipment in direct sunlight or a bright place. It may raise the temperature
or make the screen unclear.
1)-7 Avoid using the equipment near magnetic sources such as a transformer, motor and power
line. It can cause color phase irregularity or picture shaking.
1)-8 Giving strong shocks or vibration can cause damage to or trouble with the CRT. When
transporting or setting up the equipment, handle with care.
1)-9 Before replacing the fuse, be sure to turn off the power and unplug the power cable.
1)-10 If the display power switch is repeatedly turned on and off at random, a spot may be
produced on the CRT or a fault may result. Care should be taken.
●CAUTION● Do not adjust any potentiometers unless they have been altered.
When you perform the adjustment, note that the rear cover must be taken off
in any case.
●CAUTION● When you replace the fuse, you must use the same rating one.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 67
<IPC-1530Q : Troubleshooting>(1) Unable to view an Image
Is a Power supplied? Supply correct AC power.
Are all the Connectors properlyconnected?
Connect all the Connectorsproperly.
Is the CRT Heater lit? Is the built-in Fuse (withinPG584 Board) fused?
Replace the Fuse.
Is the Signal Cable properlyconnected?
Connect the Signal Cableproperly.
Is the Input Signal supplied? Supply proper Input Signal.(Check the Input Signal Leveland the Scanning Band.)
Is the value of potentiometer forthe contrast and the brightnesstuned too low?
Supposed to be an error of theVIDEO Board (PG582 Board)
Adjust the potentiometer tooptimize the screen.
Supposed to be anerror of POWERboard (PG584)
Yes
Yes
YesYes
Yes
Yes
No
No
Yes
No
No
No
No
No
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 68
(2) Unable to obtain Synchronizing
(3) An Image is too bright.
Is the supplied signalcorrect?
Supply Input Signal correctly.Check for the Scanning Band.Check for the No.4/No.5-line Input.
Is the termination SW setproperly?
Set the termination SW at 2.2 kΩ.
Supposed to be an error ofVIDEO Board (PG582)
No
No
Yes
Yes
Is the level of potentiometerfor Contrast and Brightnessproperly set?
Adjust the level of potentiometerto obtain the optimal image.
Is the VIDEO terminationSW set at a rightposition?
Set the VIDEO terminationSW at 75Ω.
Is the Input Level correct? Adjust the Signal Levelcorrectly.
Supposed to be an errorof the VIDEO Board(PG582).
Yes
Yes
Yes
No
No
No
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 69
(4) The Raster does not come out.
Is a Power supplied? Supply AC power correctly.
Are all the Connectorsproperly connected?
Connect all the Connectorsproperly.
Is the CRT Heater lit? Is the built-in Fuse (withinPG584 Board) fused?
Supposed to be an errorof POWER board(PG584)
Do the connectors (CN104 ~CN106) of VIDEO Board(PG582) have waveform?
Supposed to be an error of theVIDEO Board (PG582).
Does the raster come out byturning the FBT Screen VRclockwise?
Supposed to be an error ofboth DEF & HV Board.(PG583)
Adjust the Screen Voltagecorrectly.
CRT failure
The raster does not come out.
No
Yes
No
NoNo
No
No
Yes
Yes
Yes
Yes
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 70
(5) The raster turns into vertically one line.
(6) The raster turns into horizontally one line.
(7) The Retrace can be seen.
Are all the Connectorsproperly connected?
Connect all the Connectorsproperly.
Supposed to be an error ofeither DEF & HV Board(PG583) or DEF SUB Board(PG585).
Yes
No
Are all the Connectorsproperly connected?
Connect all the Connectorsproperly.
Supposed to be an error ofDEF & HV Board(PG583)
Yes
No
Are all the Connectorsproperly connected?
Connect all the Connectorsproperly.
Supposed to be an error ofDEF SUB Board (PG585).
Yes
No
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 71
<Fuse replacement procedure>
Detach AC Power Connector from the power cable. Use a screwdriver and unfasten three screws forthe cover mounting (Fig. 1 ①), and then pull it out.
Fig. 1 Machine-screws position to mount Cover
Fig. 2 (a) State after the Cover detached (Monitor upper part)
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 72
Fig. 2 (b) State after the Cover detached (Monitor rear side)
Remove the screws (6 pieces) of ① of Fig. 2 (a) and (b), and unfasten the screws (8 pieces) of ② toopen the upper shield-cover. You can find the Power Board on the right side. Furthermore, whenreplacing the Fuse, it will be easier to take off the machine-screws (3 pieces) on the Board and holdthe Board up.
Fig. 3 Fuse position on the Power Board
*:A Fuse is fixed on the Fuse Holder.
Power board
Parts Side
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 73
<Functions of Each Potentiometer>
(1) Power (PG584 Board)(a) Location of potentiometer
(Top View)
(b) Functions of potentiometer Model : PG584No Part No. Function① VR2 Adjust the voltage of +B2 to 98 V ±1 V.② VR1 Adjust the voltage of +B3 to 21.3 V±0.2 V.
(2) PWM CTL (PG393 Board)(a) Location of Potentiometer
(Top View)
(b) Functions of Potentiometer Model : PG393No Part No Function
① VR301Adjust the high voltage to 25 kV.*Never move this potentiometer since this is related to DHHS Regulations. Toavoid movement, the VR is silicon-fixed.
② VR302For the X-ray protection, it is provided with the high voltage protector.*Never move this potentiometer since this is related to DHHS Regulations. Toavoid movement, the VR is silicon-fixed.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 74
(3) DEF & HV(PG583 Board)(a) Location of Potentiometer
(Left Side View)
①
②
(b) Functions of Potentiometer Model : PG583No Part No. Function① FBT (FOCUS VR) Adjust the Focus of characters to come into a focus.
② FBT (SCREEN VR) Never move this unit after shipment since the default values areproperly adjusted before shipment.
(4) VIDEO(PG582 Board)(a) Location of Potentiometer (Top View)
(b) Functions of Potentiometer Model : PG582No Part No. Function① SW1 Toggle the SW to the terminal at VIDEO (Red) 75Ω.② SW2 Toggle the SW to the terminal at VIDEO (Green) 75Ω.③ SW3 Toggle the SW to the terminal at VIDEO (Blue) 75Ω.④ SW4 Toggle the SW to the terminal at CS/HS 75Ω.⑤ SW5 Toggle the SW to the terminal at VS 75Ω.
⑥ VR5 Never move this unit after shipment since the unit is initialized when themachine is charged before shipment.
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 75
<Waveform of Input / output signals>
PG584 (POWER)
Terminal number Output voltage
CN403 #1#2
+6.1VGND
CN405 #1#2
+21.5VGND
CN406 #1#2#3#4#5, #6
+160V+98V+12V-5VGND
CN407 #1#2#3#4, #5
+21.5V+14V+12VGND
CN408 #1#2#3, #4
+98V+12VGND
+14VGND-2
+14VGND
〔Remarks〕 Shows the period of Horizontal (1H) and Vertical (1V) for Input/output signals
and voltage as a table below.
Input signal 1H 1V
NTSC 63.55 μs 16.68 ms
NTSC double scan speed 31.78 μs 16.68 ms
PAL 64.0 μs 20 ms
PAL double scan speed 32.0 μs 20 ms
VGA 31.75 μs 16.67 ms
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 76
PG582 (VIDEO)
Terminal number Input / output signal waveform and voltage
#1 Approx. +3V
#2 0 ~ +3V (Depend on external CONTRAST VR)
#4 Approx. +3V
#5 0 ~ +3V (Depend on external BRIGHTNESS VR)
CN101
#3, #6 GND
#1 0 ~ +5V (Depend on count of H CENT)
#2, #3, #4 0 or +5V
CN102
#5 0 ~ +5V (Depend on count of K BIAS)
#1
#2, #3, #5 0 ~ +5V
#4
#6 Approx. 2V (NTSC, PAL)Approx. 3V (NTSC double scan speed, PAL double scan speed, VGA)
#7
#8, #12 GND
#9 0V (NTSC, PAL)+5V (NTSC double scan speed, PAL double scan speed, VGA)
CN103
#10
1VGND
1V Approx.1VGND
Approx.3V
1VApprox.3V
GND
Approx. 6V
GND
Approx. 4.5V
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 77
PG582 (VIDEO)
Terminal number Input / output signal waveform and voltage
CN103 #11 +5V
CN104
CN105
CN106
(Depend on external CONTRAST VR and BRIGHTNESS VR)
#1 +160V
#2 +98V
#3 +12V
#4 -5V
CN107
#5, #6 GND#1, #2, #3,
#4 0 or +5V (Depend on CONTROL SW)CN108
#5 GND
#1
#2, #4, #6 GND
#3
CN109
#5
1H
Approx.40V
Approx.100V
GND
1H
Aprrox.12V
GND
1H
Approx.12V
GND
1H
Approx.10V
GND
Approx.5μs
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 78
PG582 (VIDEO)
Terminal number Input / output signal waveform and voltage
#7
#8 Approx. +2V
#9 0 ~ Approx. +2V
CN109
#10 0V (NTSC, PAL)
+5V (NTSC double scan speed, PAL double scan speed, VGA)
#1 ~ #6 NCCN110#7, #8 GND
#1
#3
CN111
#2, #4 GND
CN112
CN113
CN114
#1
1V
Approx.6VApprox.4VGND
1H
3 ~ 5V
GND
1V
1V
3 ~ 5V
GND
1H
0.7V
GND
1V
0.7V
GND
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 79
PG583 (DEF & HV)
Terminal number Input / output signal waveform and voltage
#1
#2, #4, #6 GND
#3
#5
#7
#8 Approx. +2V
#9 0 ~ Approx. +2V
CN201
#10 0V (NTSC, PAL)
+5V (NTSC double scan speed, PAL double scan speed, VGA)
#1 0 ~ +5V (Depend on count of H CENT)#2, #3, #4 0 or +5V
CN202
#5 0 ~ +5V (Depend on count of K BIAS)
1V
Approx.6VApprox. 4VGND
1H
Approx.12V
GND
1H
Approx.12V
GND
1H
Approx.10V
GND
Approx.5μs
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 80
PG583 (DEF & HV)
Terminal number Input / output signal waveform and voltage
#1
#2
A number in parentheses ( ) : NTSC double scan speed, PAL double scan speed,
VGA
CN203
#3 NC
#1 +98V
#2 +12V
CN204
#3, #4 GND
#1CN205
#2 GND
CN206
1H
Approx.600 ~ 700V
GND
Approx.5μs
1HApprox.20V
(Approx.40V)
Approx.30V(Approx.60V)
1V 0.3ms
50V
18V
5V
GND
1H
-15V
GND
5μs
-70V
1V
0.5ms
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 81
PG585 (DEF SUB)
Terminal number Input / output signal waveform and voltage
#1
#2, #3, #5 0 ~ +5V
#4
#6 Approx. +2V (NTSC, PAL)
Approx. +3V (NTSC double scan speed, PAL double scan speed, VGA)
#7
#8, #12 GND
#9 0V (NTSC, PAL)
+5V (NTSC double scan speed, PAL double scan speed, VGA)
CN302
#10
1VGND
1V Approx.1VGND
Approx.3V
1VApprox. 3V
GND
Approx. 6V
GND
Approx.4.5V
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 82
PG580 (DEF SUB)
Terminal number Input / output signal waveform and voltage
#1
#2
A number in parentheses ( ) :NTSC double scan speed, PAL double scan speed,
VGA
#3
CN304
#4
#1CN305
#2 GND
1H
Approx.600 ~ 700V
GND
Approx. 5μs
1HApprox. 20V(Approx.40V)
Approx.30V(Approx. 60V)
1V 0.3ms
50V
5V
GND
1V
14V
11V
GND
1V 0.3ms
50V
18V
5V
GND
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 83
PG585 (DEF SUB)
Terminal number Input / output signal waveform and voltage
#1 +21.5V
#2 +13.5V
#3 +12.0V
CN306
#4, #5 GND
PG586 (AUDIO AMP)
Terminal number Input / output signal waveform and voltage
#1 +14.0VCN901
#2 GND
#1 +5V
#2 0 ~ +5V (Depend on external VOL VR)
CN902
#3 0V
#1, #3 0 ~ Approx. 2Vp-pCN903
#2, #4 GND
PG592 (CRT SOCKET)
Terminal number Input / output signal waveform and voltage
G2 Approx. 600V
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 84
<On-Screen Display and Description of Functions>
The Display is tunable with the SW located at top/ left of the Screen.(1) Locations of SWs ① ② ③ ④
No Name Function① MODE Used when selecting items to tuned.② ▽ DOWN (used for Data Input)③ △ UP (used for Data Input)④ EXIT Used for Data Entry.
(2) How to Operate Control SW(a) Press “MODE” once to view MENU screen with a blue display.
Select “ADJUSTMENT MENU” with ▽SW or △ SW, and press “MODE”.
Further select the item to be tuned with ▽SW or △SW, and press “MODE”.
Adjust the Set-Value with ▽SW or △SW, and press “EXIT” once for Entry.(When further necessary to input items to be tuned, back to the previous screen.)
Once every items are tuned, press “EXIT” several times to cancel the On-Screen Display. Up to thisall the entry are memorized.
(b) Adjustment of SUB CONTRAST and SUB BRIGHTPress “▽” SW once to display “CONTRAST”.
Select either “CONTRAST” or “BRIGHT” via “MODE”.
Tune the Set-Value with ▽SW or △ SW.
Press “EXIT” to cancel the On-Screen Display. Up to this all the entry are memorized.
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 85
(3) On-Screen Display Description
(a) MENUCOLOR :To calibrate the White-BalanceGEOMETRY :To tune the BiasON SCREEN DISPLAY :To tune the Position on the On-Screen DisplayRECALL :To get the screen Status back to that of pre-shipment.
(b) COLORR GAING GAIN To calibrate the White-Balance in high-intensityB GAIN
R BIASG BIAS To calibrate the White-Balance in low-intensityB BIAS
(c) GEOMETRYH SIZE :To tune the Horizontal SizeH POSITION :To tune the Horizontal PhaseV SIZE :To tune the Vertical SizeV POSITION :To tune the Vertical Center PositionSIDE PIN :To tune Pin DistortionTILT :To tune the TiltKEY STONE :To tune the Trapezoidal Distortion
(d) ON SCREEN DISPLAYH POSITION :To tune the Horizontal Position of On-Screen DisplayV POSITION :To tune the Vertical Position of On-Screen DisplayDISPLAY TIME :Time for the On-Screen Display to disappear
(e) RECALLRECALL → MODE :Press “MODE” to go back to the state of pre-shipment of a makerCANCEL → EXIT :Press “EXIT” to cancel “RECALL”.
CAUTION : Please make sure to record the image size first. Because, all settings areinitialized to the state of pre-shipment of a maker by executing“RECALL” function.
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 86
<How to calibrate the White-Balance>
(1) Calibration MenuThis is to perform the White-Balance calibration through the COLOR menu on the screen.
R GAIN, G GAIN, B GAIN :Items to calibrate the White-Balance in high-intensity.R BIAS, G BIAS, B BIAS :Items to calibrate the White-Balance in low-intensity.
[Additive Primary Colors]
(2) White-Balance calibration in low-intensity
In case the screen seems Blue Increases Red and Green through BIAS to White. Decreases Blue through BIAS to White.
In case the screen seems Purple Increases Green through BIAS to White. Decreases Red and Blue through BIAS to White.
In case the screen seems Red Increases Blue and Green through BIAS to White.Decreases Red through BIAS to White.
In case the screen seems Orange Increases Blue through BIAS to White.Decreases Red and Green through BIAS to White.
In case the screen seems Yellow Increases Blue through BIAS to White.Decreases Red and Green through BIAS to White.
In case the screen seems Green Increases Red and Blue through BIAS to White.Decreases Green through BIAS to White.
In case the screen seems Cyan Increases Red through BIAS to White.Decreases Green and Blue through BIAS to White.
Green
Yellow
White
Red Magenta Blue
Cyanic
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 87
(3) White-Balance calibration in high-intensity
In case the screen seems Blue Increases Red and Green through GAIN to White. Decreases Blue through GAIN to White.
In case the screen seems Purple Increases Green through GAIN to White. Decreases Red and Blue through GAIN to White.
In case the screen seems Red Increases Blue and Green through GAIN to White.Decreases Red through GAIN to White.
In case the screen seems Orange Increases Blue through GAIN to White.Decreases Red and Green through GAIN to White.
In case the screen seems Yellow Increases Blue through GAIN to White.Decreases Red and Green through GAIN to White.
In case the screen seems Green Increases Red and Blue through GAIN to White.Decreases Green through GAIN to White.
In case the screen seems Cyan Increases Red through GAIN to White.Decreases Green and Blue through GAIN to White.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 1
IPC-1530U: TroubleshootingMonitor reference table with serial number
Set Group A Group B
S/N
M00101 ~ M00400,M00403, M00404,
M00406 ~ M00440,M00451 ~ M00545
M00401, M00402,M00405,M00441 ~ M00450, M00546~
Power supply board Model TB-0055* TB-0047*
CPU board Model TC-0143* TC-0130*
Deflection board Model TM-0280* TM-0230*
Video board Model TA-0040* TA-0040*
Neck board Model TE-0035* TE-0037*
Panel board Model TD-0121* TD-0108*
Note: Hereafter, the type of monitor is described as the model, or as the Group A and B which areseparated by serial number.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 2
Troubleshooting for Group A
Phenomena
Characters are
blurred.
An image is too
bright.
The raster turns into
horizontally one line.
The raster turns intovertically one line.
Poor or excessive
horizontal amplitude
Poor or excessive
vertical amplitude
Retrace line can be seen.
Poor adjustment of RV (FBT)
for focusing
Abnormality of high voltage
output circuit
Abnormality of videooutput circuit.
Abnormality of voltages (G1 and
G2) supplied to CRT.
Abnormality of verticaldeflection circuit
Abnormality of horizontaldeflection circuit
Abnormality of horizontal
oscillation or deflection circuits .
Abnormality ofblanking circuit
Abnormality of vertical
oscillation or deflection circuits .
DEFLECT board (TM-0280*)
DEFLECT board (TM-0280*)
Malfunction of CRT
VIDEO board (TA-0040*)
DEFLECT board (TM-0280*)
DEFLECT board (TM-0280*)
DEFLECT board (TM-0280*)
DEFLECT board (TM-0280*)
DEFLECT board (TM-0280*)
NECK board (TE-0035*)
DEFLECT board (TM-0280*)
DEFLECT board (TM-0280*)
Unable to view an image
Unable to obtainSynchronizing
The raster does not come out.
Unable to obtainwhite balance
Abnormality of
VIDEO circuit
Abnormality of
VIDEO circuit
Abnormality of horizontal
synchronizing circuit.
Input signal or front regulator
VIDEO board (TA-0040*)
VIDEO board (TA-0040*)
Input signal
CPU board (TC-0143*)
Refer to next page
CPU board (TC-0143*)
CPU board (TC-0143*)
Abnormality of high voltage
output circuit
Abnormality of vertical
synchronizing circuit.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 3
The raster does not come out.
Are all the connectors
properly connected?
Is the CRT Heater lit?
Do the connectors (J505~J507) of VIDEO board have
output signal waveform?
Is the voltage of the
connector J607 #4 of
DEFRECT board a normal?
Is the voltage of the
connector J607 # 1 of
DEFRECT board a normal?
Adjust the RV8 on VIDEOboard when the setting of
brightness at external front
is a maximum.
Does the raster come out byturning the FBT Screen RV
clockwise?
DEFLECT board
(TM-0280*)
DEFLECT board
(TM-0280*)
Replace the fuse
VIDEO board
(TA-0040*)
DEFLECT board
(TM-0280*)
The setting of RV8 is incorrect.
The setting of Screen RV is
incorrect.
DEFLECT board
(TM-0280*)
Malfunction of CRT
Is the built-in Fuse
fused?
Abnormality of high
voltage circuit
Abnormality of high
voltage circuit
Abnormality of image
amplitude circuit
The raster does not come out.
The raster comes out.
The raster comes out.
YES
YES
YES
YES
YES
NO
NO
NO
NO
NO
Is the proper synchronizing
signal input?
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 4
Troubleshooting for Group B
Phenomena
Characters are
blurred.
An image is too
bright.
The raster turns into
horizontally one line.
The raster turns intovertically one line.
Poor or excessive
horizontal amplitude
Poor or excessive
vertical amplitude
Retrace line can be seen.
Poor adjustment of RV (FBT)
for focusing
Abnormality of high voltage
output circuit
Abnormality of videooutput circuit.
Abnormality of voltages (G1 and
G2) supplied to CRT.
Abnormality of verticaldeflection circuit
Abnormality of horizontaldeflection circuit
Abnormality of horizontal
oscillation or deflection circuits .
Abnormality ofblanking circuit
Abnormality of vertical
oscillation or deflection circuits .
DEFLECT board (TM-0230*)
DEFLECT board (TM-0230*)
Malfunction of CRT
VIDEO board (TA-0040*)
DEFLECT board (TM-0230*)
DEFLECT board (TM-0230*)
DEFLECT board (TM-0230*)
DEFLECT board (TM-0230*)
DEFLECT board (TM-0230*)
NECK board (TE-0037*)
DEFLECT board (TM-0230*)
DEFLECT board (TM-0230*)
Unable to view an image
Unable to obtainSynchronizing
The raster does not come out.
Unable to obtainwhite balance
Abnormality of
VIDEO circuit
Abnormality of
VIDEO circuit
Abnormality of horizontal
synchronizing circuit.
Input signal or front regulator
VIDEO board (TA-0040*)
VIDEO board (TA-0040*)
Input signal
CPU board (TC-0130*)
Refer to next page
CPU board (TC-0130*)
CPU board (TC-0130*)
Abnormality of high voltage
output circuit
Abnormality of vertical
synchronizing circuit.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 5
The raster does not come out.
Are all the connectors
properly connected?
Is the CRT Heater lit?
Do the connectors (J505~J507) of VIDEO board have
output signal waveform?
Is the voltage of the
connector J607 #4 of
DEFRECT board a normal?
Is the voltage of the
connector J607 # 1 of
DEFRECT board a normal?
Adjust the RV8 on VIDEOboard when the setting of
brightness at external front
is a maximum.
Does the raster come out byturning the FBT Screen RV
clockwise?
DEFLECT board
(TM-0230*)
DEFLECT board
(TM-0230*)
Replace the fuse
VIDEO board
(TA-0040*)
DEFLECT board
(TM-0230*)
The setting of RV8 is incorrect.
The setting of Screen RV is
incorrect.
DEFLECT board
(TM-0230*)
Malfunction of CRT
Is the built-in Fuse
fused?
Abnormality of high
voltage circuit
Abnormality of high
voltage circuit
Abnormality of image
amplitude circuit
The raster does not come out.
The raster comes out.
The raster comes out.
YES
YES
YES
YES
YES
NO
NO
NO
NO
NO
Is the proper synchronizing
signal input?
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 6
Adjustment procedure at each screen condition
1. Adjustment with a variable resistor
Screen condition Variable resistor Indication
The raster becomes dark. TA-0040* RV8 (SUB.B2) Turning it to counterclockwise
The raster becomes bright. TA-0040* RV8 (SUB.B2) Turning it to clockwise
White line appears at theupper part.
TM-0230* RV1 (CUT.W)TM-0280* RV1 (CUT.W) Turning it to clockwise
2. Adjustment with OSD (On screen displayed menu) NOTE: Press MENU key to decide the setting of each item whenever you executed the adjustment
work. Otherwise, the adjusted value cannot be memorized into the system.
Screen condition Selection of OSD menu Indication
The picture is shifted to the left. HPOS Push “-“ key
The picture is shifted to the right. HPOS Push “+” key
The picture is shifted upward. VPOS Push “-“ key
The picture is shifted downward. VPOS Push “+” key
The horizontal screen size isnarrowed. HSIZ Push “+” key
The horizontal screen size iswidened. HSIZ Push “-“ key
The vertical screen size isnarrowed.
VSIZ Push “+” key
The vertical screen size iswidened. VSIZ Push “-“ key
The image is distorted like abarrel SDP Push “-“ key
The image is distorted like apincushion. SDP Push “+” key
The image is distorted like atrapezoidal. TRP Push “-“ key
The image is distorted like aninverted trapezoidal. TRP Push “+” key
The image is distorted like aparallelogram (inclined to theright).
PAR Push “+” key
The image is distorted like aparallelogram (inclined to theleft).
PAR Push “-“ key
Abnormal color caused bymagnetizing. — Push “DEGAUSS” key
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 7
3. Adjustment of both chromaticity and brightness with WBC1 in OSD (On screen displayed menu) Note:By executing this adjustment work, the relation with color cannot return to the original settings.
Therefore, there is not quite a complicated situation, do not execute this work. If you need to do
the adjustment, do it by using a measuring instrument (a luminance meter: Minolta)
Screen condition Selection of OSD menu Indication
A luminance of brightnessbecomes red color. SSBR, SSBG
Push “-“ key for SSBR or “+”key for SSBG.
A luminance of brightnessbecomes magenta color.
SSBG Push “+” key
A luminance of brightnessbecomes yellow color. SSBR, SSBG
Push “-“ key for SSBR or “-“ key for SSBG
A luminance of brightnessbecomes yellowish greencolor.
SSBG Push “-“ key
A luminance of brightnessbecomes green color. SSBR, SSBG
Push “+“ key for SSBR or “-”key for SSBG.
A luminance of brightnessbecomes cyanic color. SSBR Push “+” key
A luminance of brightnessbecomes blue color.
SSBR, SSBGPush “+“ key for SSBR or “+”key for SSBG.
A luminance of contrastbecomes red color. SCR, SCG
Push “-“ key for SCR or “+” keyfor SCG.
A luminance of contrastbecomes magenta color.
SCG Push “+” key
A luminance of contrastbecomes yellow color. SCR, SCG
Push “-“ key for SCR or “-” keyfor SCG.
A luminance of contrastbecomes yellowish greencolor.
SCG Push “-“ key
A luminance of contrastbecomes green color.
SCR, SCGPush “+“ key for SCR or “-” keyfor SCG.
A luminance of contrastbecomes cyanic color. SCR Push “+” key
A luminance of contrastbecomes blue color.
SCR, SCGPush “+“ key for SCR or “+”key for SCG.
A luminance of contrast is toohigh.
ALL of SC* Push “-“ key
A luminance of contrast is toolow. ALL of SC* Push “+” key
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 8
No. RV No. Title Functional Description
1 RV8 SUB.B2 Adjusts the maximum luminance of raster.
2 RV5 SUB.C2 Adjust the maximum luminance of contrast slightly.
3 RV6 SUB.C1 Adjusts the maximum luminance of contrast.
1
VIDEO AMP board
(TA-0040*)
2
3
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 9
Explanation for the function of each key
Title No. Functional Description
MENU SW1Open or close the OSD menu.Push it to decide each item after executing the adjustment.
SHIFT SW2 Blank key
SW3 Push it to select the item.
SW4 Push it to select the item.
— SW5 Push it to adjust the setting value.
+ SW6 Push it to adjust the setting value.
DEGAUSS SW7 Push it to degaussing.
PANEL BOARD
PANEL BOARD (TD-0121*、TD-0108*)
MENU SHIFT - DEGAUSS+
SW1 SW2 SW3 SW4 SW5 SW7SW6
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 10
Explanation for the function of each key
Title No. Functional Description
1 SCREENAdjusts the cut-off voltage on CRT.(Do not adjust it at field, because a monitor set may breakdown.)
2 FOCUS Adjusts the focus of the image.
1
2
AC INVIDEO IN
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 11
Input/output signal wave forms
○ TB-0047*/TB-0055* (POWER SUPPLY)
Terminal No. Output voltages
J407 #1 +12V
J409 #1 Approx. +135V (Not stable)
J409 #3J411 #3 Approx. +15V (Not Stable)
J409 #4J411 #6 Approx. -15V (Not stable)
J410 #1 Approx. +83V (Not stable)
J410 #2J411 #4 Approx. +30V (Not stable)
J410 #4 +6.3V
J411 #1 +5V
J407 #2J409 #2J409 #5J410 #3J410 #6J411 #2J411 #5
GND
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 12
Input/output signal wave forms
○ TC-0130*/TC-0143* (CPU)
Terminal No. Output voltages
J114 #1 +5V
J114 #3 Approx. +15V(Not stable)
J114 #4 Approx. +30V(Not stable)
J114 #6 Approx. -15V(Not stable)
J114 #2J114 #5 GND
J111 #1
J111 #4 +5V
J111 #3J111 #5 GND
1H
5V
GND
1V
5V
GND
All signals except VGA signal
1V
5V
GND
VGA signalAll signals except VGA signal
All signals
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 13
Input/output signal wave forms
○ TM-0230*/TM-0280* (DEFRECT)
Terminal No. Output signals
J610 #1 +83V (Not stable)
J610 #2 +30V (Not stable)
J610 #4 +6.3V
J610 #3J610 #6
GND
J607 #1
J607 #4 +6.3V
J607 #3 GND
J611 #1
J611 #2 GND
J613 #1
1V
24V
-5~50V
1H
24V
-5~50V
1H
5V
GND
1H
Approx. 4V
GND
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 14
○ TM-0230*/TM-0280* (DEFRECT)
Terminal No. Output voltages
J613 #2
J613 #3
J613 #7
J613 #6J613 #15
GND
J614 #1
J614 #5
J614 #4 GND
1H
Approx. 7V
GND
1H
Approx. 24V
GND
NTSC, PAL
1H
Approx.
24V
GND
Double scan speed NTSC,
Double scan speed PAL, VGA
1H
Approx.
24V
GND
NTSC, PAL
1H
Approx.
24V
GND
Double scan speed NTSC,
Double scan speed PAL, VGA
1V
Approx. 2~3Vpp3.5V
1V
5V
GND
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 15
Input/output signal wave forms
○ TA-0040* (VIDEO AMP)
Terminal No. Output voltages
J503 #1 +135V(Not stable)
J503 #3 +15V(Not stable)
J503 #4 -15V(Not stable)
J503 #2J503 #5
GND
J512 #1
J512 #2
J512 #3
J512 #4J512 #9
GND
1H
5V
GND
1V
5V
GND
1H
5V
GND
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 87 — 16
(Blank page)
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 88
B1 Main panel L-KEY-75*
To check this operation panel for confirmation, refer to Section 5 “Circuit Diagrams”.
First of all, determine whether the operation panel has all of its functions failed or the function
relating to a switch or knob mounted on the operation panel only has failed.
Subsequently, refer to A3 and make certain of the supplied power voltage
1) Faults relating to every panel function
1)-1 If the system is normal
The operation panel is connected with the system on a serial communication basis by way
of the RS-232C interface. And it is designed to be operable independently.
If the system is operating to a certain extent except for those functions which are directly
controlled by this unit, therefore, the failure may be deemed to have taken place in the unit.
It may be assumed, therefore, that the connecting cable has a fault. Check it for
connections and conductivity, accordingly.
1)-2 If the system is also abnormal
A fault may be considered to have taken place in the panel information receiver, that is,
CPU in the system.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C17
2) Fault relating to a Switch, Knob and/or LED
The related switch, knob or LED has failed. Replace it for a repair. Nevertheless, refer to
the related checkout procedures concerning the functions involved in the following
STC、GAIN、CONTRAST、AGC、ACOUSTIC POWER
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 89
C1 Probe Selector 1 EP4438**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Echo gap at one location
l Echo gap two or more locations at equal intervals
1) Fault relating to probe
1)-1 Is the phenomenon changed by re-connecting the probe?
Changed・・・・・・・・・・・・・・・・・・・・・・・・・・Connection failure of the probe connector
Unchanged・・・・・・・・・・・・・・・・・・・・・・・・1)-2
1)-2 Refer to A3 and confirm the output of the power supply unit.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 1)-3
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3
1)-3 Has the same problem arisen with other electrical probe connectors?
YES ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C2/C3/C4/C5
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 1)-4
1)-4 Is an abnormality noted when only one of the probes is used?
YES ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
2) Echo gap two or more locations at equal intervals
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C2/C3/C4/C5/C6/C7
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 90
C2 Probe Selector 2 EP4439**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Echo gap two or more locations at equal intervals
l No US image on the monitor. Only noises are displayed. (No transmission )
1) Fault relating to probe
1)-1 Is the phenomenon changed by re-connecting the probe?
Changed・・・・・・・・・・・・・・・・・・・・・・・・・・Connection failure of the probe connector
Unchanged・・・・・・・・・・・・・・・・・・・・・・・・1)-2
1)-2 Refer to A3 and confirm the output of the power supply unit.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 1)-3
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3
1)-3 Has the same problem arisen with other electrical probe connectors?
YES ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C3/C4/C5
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 1)-4
1)-4 Is an abnormality noted when only one of the probes is used?
YES ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
2) Echo gap two or more locations at equal intervals
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C3/C4/C5/C6/C7
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 91
C3 Rx Connector EP4437**/EP4639**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Echo gap two or more locations at equal intervals
l Low sensitivity with the ultrasound image (B/W, PW, COLOR)
1) Echo gap two or more locations at equal intervals
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C2/C4/C5/C6/C7
2) Low sensitivity with the ultrasound image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
2)-1 Low sensitivity for B/W, PW and COLOR
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/A4/C4/C5/C6/C7/C8/C9
2)-2 Low sensitivity only for B/W images
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C9/C10
2)-3 Low sensitivity only for PW images
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4/C11/C12
2)-4 Low sensitivity only for COLOR images
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4/C11/C12
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 92
C4 Tx & Tx Focus 2 EP4441**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Echo gap two or more locations at equal intervals
l The ultrasound wave image (B/W, PW, COLOR) displays only noise (not transmitted)
l Low sensitivity with the ultrasound image (B/W, PW, COLOR)
Flash memory is installed on the following PC boards. If data in such memory is abnormal,
trouble such as a failure to start the equipment will occur.
1) Echo gap two or more locations at equal intervals
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C2/C3/C5/C6/C7
2) The ultrasound wave image displays only noise
2)-1 Confirm the following signalsTXCLK
TXSTRT_
Normal・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 2)-2
2)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/C3/C7/C8/C9
3) Low sensitivity with the ultrasound image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
3)-1 Refer to A3 and confirm the HVA output.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4/C6/C7/C8/C9/C10
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3
3)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified at an above. If so, try to replace the PCB
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 93
C5 Tx Tx Focus EP4500**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Echo gap two or more locations at equal intervals
l The ultrasound wave image (B/W, PW, COLOR) displays only noise (not transmitted)
l Low sensitivity with the ultrasound image (B/W, PW, COLOR)
Flash memory is installed on the following PC boards. If data in such memory is abnormal,
trouble such as a failure to start the equipment will occur.
1) Echo gap two or more locations at equal intervals
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C2/C3/C5/C6/C7
2) The ultrasound wave image displays only noise
2)-1 Confirm the following signalsTXCLK
TXSTRT_
Normal・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 2)-2
2)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/C3/C7/C8/C9
3) Low sensitivity with the ultrasound image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
3)-1 Refer to A3 and confirm the HVA output.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4/C6/C7/C8/C9/C10
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3
3)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified at an above. If so, try to replace the PCB
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 94
C6 Pre AMP & Variable Gain AMP EP4440**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Echo gap two or more locations at equal intervals
l Low sensitivity with the ultrasound image (B/W, PW, COLOR)
l Low sensitivity with the CW Doppler image
1) Echo gap two or more locations at equal intervals
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C2/C3/C4/C5/C7/C8
2) Low sensitivity with the ultrasound image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・A3/A4/C1/C2/C3/C4/C5/C7/C8/C9
3) Low sensitivity with the CW Doppler image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/A4/C12/D1
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 95
C7 Rx Beam Former EP4429**/EP4625**/EP4837**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Echo gap two or more locations at equal intervals
Low sensitivity with the ultrasound image (B/W, PW, COLOR)
1) Echo gap two or more locations at equal intervals or low sensitivity with theultrasound image etc
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C1/C2/C3/C4/C5/C6/C9
2) Low sensitivity of ultrasound image
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/A4/C4/C5/C6/C9
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 96
C8 Tx Rx Control EP4430**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Can not transmit
Ultrasound image not displayed
Abnormality with the ultrasound scanning line address
Transmission voltage abnormality (electrical scans)
Doppler and color images not displayed
Heart rate display abnormality
Flash memory is installed on the following PC boards. If data in such memory is abnormal,
trouble such as a failure to start the equipment will occur.
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
1) Can not transmit or Transmission voltage abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/C1/C2/C4/C5
2) Ultrasound image not displayed
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/C1/C2/C4/C5
3) Abnormality with the ultrasound scanning line address
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 97
4) Doppler and color images not displayed
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C7/C11/C12
5) Heart rate display abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D2/D3
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 98
C9 A ITF EP4443**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Low sensitivity with the ultrasound image (B/W, PW, COLOR)
A different in gain exists in the ultrasound image’s beam direction
Abnormality with the transmission for mechanical radial probes
Abnormality with the rotation for mechanical radial probes
1) Low sensitivity with the ultrasound image
1)-1 Confirm the following signalsPreSTC1, PreSTC2, STC 1, STC 2, GAINCNT
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/A4/C4/C5/C6/C7
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
2) A different in gain exists in the ultrasound image’s beam direction
2)-1 Confirm the following signalsPreSTC1
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C7/C8/C10
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
3) Abnormality with the transmission for mechanical radial probes
3)-1 Confirm the following signals
M TXRX, HVB
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
4) Abnormality with the rotation for mechanical radial probes
4)-2 Confirm the following signals
M MTR+, M_A, M_B, M_Z
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 99
C10 AD_DA EP4444** /DBP EP4784**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Low sensitivity of ultrasound image.
Fault relating to gradation and sensitivity for ultrasound images.
Fault relating to AGC, CONTRAST, RELIFE and FTC
Low sensitivity or echo gap occurred when in the parallel receive mode.
1) Low sensitivity of ultrasound image (B/W image only)
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C9
2) Fault relating to gradation and sensitivity for ultrasound images
2)-1 Confirm the following signalsUSVIDO_P (TP13)USVIDO_S (TP14)
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C7/C13/C16/C21
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
3) Fault relating to AGC, CONTRAST, RELIFE and FTC
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ B1
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 100
C11 CFP EP4435**/EP4760**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Color display image abnormality or will not display
Abnormality only with the power flow image display
Only the PW Doppler image is not displayed
1) Color display image abnormality or will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C12/C14/C15/C16/C21
2) Abnormality only with the power flow image display
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
3) Only the PW Doppler image is not displayed
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/C7/C9/C12
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 101
C12 SDP EP4436**/EP4761**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Doppler (PW, CW) and color images not displayed
Only the PW Doppler image is not displayed
Only the CW Doppler image is not displayed
Only the Color image is not displayed
Doppler display image abnormality
Color display image abnormality
Doppler sound abnormality or cannot be heard
Flash memory is installed on the following PC boards. If data in such memory is abnormal,
trouble such as a failure to start the equipment will occur.
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
1) Doppler (PW, CW) and color images not displayed
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/C8/C9
2) Only the PW Doppler image is not displayed
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/C7/C8/C9
3) Only the CW Doppler image is not displayed
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/C8/C9/D1
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 102
4) Only the color image is not displayed
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C9/C11/C14/C15/C16/C21
5) Doppler display image abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C13/C15/C16/C21
6) Color display image abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C11/C14/C15/C16/C21
7) Doppler sound abnormality or cannot be heard
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A5/C18
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 103
C13 BSC EP4464**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Plane mode images will not display
Only B mode B/W images will not display
Fault relating to Line correlation (BW: B mode)
Fault relating to Frame correlation
Fault relating to US address
Line mode will not display
Only M mode images will not display
Only D mode images will not display
Only M mode color images will not display
Fault relating to Sweep speed
Fault relating to Image display in the line mode
Fault relating to physiological signal display in the line mode
Fault relating to overall ultrasound image (B/W, DOPPLER, COLOR)
Fault relating to cine memory function
Ultrasound image formatting abnormality
Fault relating to read zoom function
Fault relating to ultrasound image display function
Fault relating to video playback image
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
1) Plane mode images will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C10/C15
2) Only B mode B/W images will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C10
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 104
3) Fault relating to Line correlation (BW: B mode)
3)-1 Does this phenomenon change with line correlation settings?
YES・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 3)-2
3)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
4) Fault relating to Frame correlation
4)-1 Does this phenomenon change with frame correlation settings?
YES・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 4)-2
4)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
5) Fault relating to US address
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C15
6) Line mode will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C15
7) Only M mode or D mode images will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 105
Fault relating to Sweep speed
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
9) Fault relating to Image display in the line mode
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
10) Fault relating to physiological signal display in the line mode
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D2
11) Fault relating to overall ultrasound image
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C10
12) Fault relating to cine memory function
Does this phenomenon change with the use of the cine memory function?
YES・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C17
13) Ultrasound image formatting abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C16
14) Fault relating to read zoom function
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 106
15) Fault relating to ultrasound image display function
Display image abnormality in 2B mode
Display image abnormality in Ping/Pong function used
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
16) Fault relating to video playback image
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C14/C16
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 107
C14 CSC EP4465**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Only color VEL or POWER will not display in the B mode
Only color VAR will not display in the B mode
Only M mode color images will not display
Fault relating to overall color image
Ultrasound image formatting abnormality
Fault relating to read zoom function
Fault relating to ultrasound image display function
Fault relating to video playback image
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
1) Only color VEL or POWER will not display in the B mode
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C11/C12
2) Only color VAR will not display in the B mode
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C11/C12
3) Only M mode color images will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 108
4) Fault relating to overall color image
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C11/C12/C15
5) Ultrasound image formatting abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C17
6) Fault relating to read zoom function
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
7) Fault relating to ultrasound image display function
Display image abnormality in 2B mode
Display image abnormality in Ping/Pong function used
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
Fault relating to video playback image
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C13/C16
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 109
C15 MGR EP4467**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Cannot start up the equipment
Cannot acquire synchronization between the TV monitor and storage device
The print SW will not operate
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
9) Cannot start up the equipment
Confirm the operational status of the LEDs
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 6-4-11
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
10) Cannot acquire synchronization between the TV monitor and storage device
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A5/C16/E1/E2/E3
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 110
C16 VPU EP4466**/EP4768**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Synchronization not acquired for the TV display image
Fault relating to ultrasound image gradation
The Doppler image will not display NEGA
Either red, green or blue will not display on the TV monitor or color printer
Monochrome and color composites or the Y/C video signals will not output
Overlay display abnormality
VCM record/playback abnormality
The VCR playback image is not displayed even when switched across to EXT input
RGB for external input will not display individually or in combination
Only external input Y/C will not display or is abnormal
Only external input composite video signals will not display
VCR playback image display intensity abnormality
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
1) Synchronization not acquired for the TV display image
1)-1 Confirm the following signalsMON_SYNC_
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A5/E1/E2/E3
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 1)-2
1)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C21
2) Fault relating to ultrasound image gradation
2)-1 Is the POST PROCESS setting applicable?
YES・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 2)-2
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A1
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 111
2)-2 Does the test pattern display normally?
YES・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 2)-3
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
2)-3 Does the VCR playback image display normally?
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C13/C14/C21
3) The Doppler image will not display with NEGA
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
4) Either red, green or blue will not display on the TV monitor or color printer
4)-1 Confirm the following signalsMON_RMON_GMON_B
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C19Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 4)-2へ
4)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A5/E1/E2/E3
5) Monochrome and color composites or the Y/C video signals will not output
5)-1 Confirm the following signalsPRN_BWVCR_VBSVCR_YVCR_C
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E1/E2/E3
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
6) Overlay display abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C17
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 112
7) VCM record/playback abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D5
The VCR playback image is not displayed even when switched across to EXTinput
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A1/E3
9) RGB for external input will not display individually or in combination
9)-1 Does the ultrasound diagnostic system image display normally?
YES・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 9)-2
NO・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A5/C13/C14/C21
9)-2 Confirm the following signalsR_ING_INB_IN
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 9)-3
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C19/E3/C21
9)-3 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C19/C21
10) Only external input Y/C will not display or is abnormal
10)-1 Confirm the following signalsYINCIN
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 10)-2
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C19/E3/C21
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 113
10)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C13/C14/C21
11) Only external input composite video signals will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C13/C14/C15/E3/C21
12) VCR playback image display intensity abnormality
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ E3
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 114
C17 CPU EP4423**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Cannot start up the system
Equipment cannot be controlled
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
1) Cannot start up the system
Refer to the contents provided in 6-4-10, select the PCB or unit linked to the CPU path,and then confirm the corresponding check codes.
2) Equipment cannot be controlled
Refer to the contents provided in 6-4-10, select the PCB or unit linked to the CPU path,and then confirm the corresponding check codes.
3) Other faults
Refer to “ROM Arrangement”, “PCB Switch Settings” and “Jumper (JP) Settings” inSection 6. Troubleshooting and confirm that the wiring and settings have been madecorrectly.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 115
C18 Audio EP4473**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Doppler audio will not output
R wave sound will not output
External input sound will not output
1) Doppler audio will not output
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A1/C12
2) R wave sound will not output
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D2
3) External input sound will not output
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A1/C15/C16/E3/C21
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 116
C19 Distributor EP4472**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Failure related to external output signal
Failure related to external input signal
Failure related to printer control signal
This PC board is not mounted with an electrical circuit.
Check the connections for all connectors and the condition of the solder if a failure is assumed
with this PC board.
4) Failure related to external output signal
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C16
5) Failure related to external input signal
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C16
6) Failure related to printer control signal
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C21
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 117
C20 Mother EP4445**/EP4812**
Refer to “Circuit Diagram” in section 5 for details on these confirmations.
In the event of a phenomenon other than those described below, refer to a list of motherboard
signal list described on section 5 to identify a failed part. Or return to the map to make certain all
over again of the “check code”.
Fault relating to power supply
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3
Fault relating to probe or scanner
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4/C16/C17
Fault relating to BUS line
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C16/C17
MN2-0233 Rev.2
SECTION 6 TROUBLESHOOTING
6 — 117 — 1
C21 CMB EP4769**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Plane mode images will not display
l Only B mode B/W images will not display
l Fault relating to Line correlation (BW: B mode)
l Fault relating to Frame correlation
l Fault relating to US address
l Line mode will not display
l Only M mode images will not display
l Only D mode images will not display
l Only M mode color images will not display
l Fault relating to Sweep speed
l Fault relating to Image display in the line mode
l Fault relating to physiological signal display in the line mode
l Fault relating to overall ultrasound image (B/W, DOPPLER, COLOR)
l Fault relating to cine memory function
l Ultrasound image formatting abnormality
l Fault relating to read zoom function
l Fault relating to ultrasound image display function
l Fault relating to video playback image
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
1) Plane mode images will not display
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C10/C15
2) Only B mode B/W images will not display
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C10
MN2-0233 Rev.2
SECTION 6 TROUBLESHOOTING
6 — 117 — 2
3) Fault relating to Line correlation (BW: B mode)
3)-1 Does this phenomenon change with line correlation settings?
YES ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
NO ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 3)-2
3)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
4) Fault relating to Frame correlation
4)-1 Does this phenomenon change with frame correlation settings?
YES ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
NO ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 4)-2
4)-2 It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
5) Fault relating to US address
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C15
6) Line mode will not display
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C15
7) Only M mode or D mode images will not display
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
Fault relating to Sweep speed
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
9) Fault relating to Image display in the line mode
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
MN2-0233 Rev.2
SECTION 6 TROUBLESHOOTING
6 — 117 — 3
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
10) Fault relating to physiological signal display in the line mode
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ D2
11) Fault relating to overall ultrasound image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C10
12) Fault relating to cine memory function
Does this phenomenon change with the use of the cine memory function?
YES ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
NO ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C17
13) Ultrasound image formatting abnormality
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C16
14) Fault relating to read zoom function
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
15) Fault relating to ultrasound image display function
l Display image abnormality in 2B mode
l Display image abnormality in Ping/Pong function used
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
16) Fault relating to video playback image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C14/C16
17) Only color VEL or POWER will not display in the B mode
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C11/C12
MN2-0233 Rev.2
SECTION 6 TROUBLESHOOTING
6 — 117 — 4
18) Only color VAR will not display in the B mode
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C11/C12
19) Only M mode color images will not display
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15
20) Fault relating to overall color image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C11/C12/C15
21) Ultrasound image formatting abnormality
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C17
22) Fault relating to read zoom function
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
23) Fault relating to ultrasound image display function
l Display image abnormality in 2B mode
l Display image abnormality in Ping/Pong function used
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
24) Fault relating to video playback image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C13/C16
25) Cannot start up the equipment
Confirm the operational status of the LEDs
Normal・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ 6-4-11
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ Replace this PCB
26) Cannot acquire synchronization between the TV monitor and storage device
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A5/C16/E1/E2/E3
MN2-0233 Rev.3SECTION 6 TROUBLESHOOTING
6 — 118
D1 STCW EP4442**/EP4902**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Low sensitivity with the CW Doppler image
Side band or other forms of noise appears on the CW Doppler image
A mirror phenomenon appears on the CW Doppler image
1) Low sensitivity with the CW Doppler image
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A3/A4/C4/C12
2) Side band or other forms of noise appears on the CW Doppler image
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4/C4/C12
3) A mirror phenomenon appears on the CW Doppler image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C12
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 119
D2 PSC EP4468**
Refer to “Principle of System Operation” in section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
Physiological signal display is abnormal or will not display
Physiological signal will not display in the M or B modes
The ECG Sync. Function will not operate or the image will not update
The heart mark will not display
The synchronized sound for the R wave will not output
This PCB is mounted with an operation confirmation LED. Refer to “PCB LEDs” in 6-4-11 and
confirm normal operations before implementing the confirmation tasks outlined below.
Replace this PCB if it is assumed from the confirmation result that it is the cause of the fault.
1) Physiological signal display is abnormal or will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A1/D3
2) Physiological signal will not display in the M or B modes
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C13/C16/C21
3) The ECG Sync. Function will not operate or the image will not update
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C8/C13/D3/C21
4) The heart mark will not display
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C16/D3
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 120
5) The synchronized sound for the R wave will not output
It may be impossible to identify a failed part as a result of confirming each check codespecified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C18/D3
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 121 -1
D4 Mecha. Connector EP4448**
Refer to “Principle of System Operation” in Section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Low sensitivity or no ultrasound image at mechanical probe.
l Echo gap at one location on mechanical probe.
l Noises in ultrasound image.
l Mechanical probe cannot be recognized.
1) Low sensitivity or no ultrasound image at mechanical probe.
1)-1 Confirm “M TXRX” signals at both J3C15 and J3D15 of EP444300 “A ITF” board.
・ Normal・・・・・・・・・・・・・・・・・・・・・・・・・ Refer to 1)-2
Abnormal・・・・・・・・・・・・・・・・・・・・・・・ A3/ A4/ C9
1)-2 Confirm “M RX” signal at J2D40 of EP444400 “AD_DA” board.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・ C10
Abnormal・・・・・・・・・・・・・・・・・・・・・・・ Replace Probe or PCB
2) Echo gap at one location on mechanical probe.
2)-1 Confirm “M TXRX” signals at both J3C15 and J3D15 of EP444300 “A ITF” board.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・ Refer to 2)-2
Abnormal ・・・・・・・・・・・・・・・・・・・・・・ A4/ C9
2)-2 Confirm “M RX” signals at J2D40 of EP444400 “AD_DA” board.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・ Refer to C9
Abnormal ・・・・・・・・・・・・・・・・・・・・・・ Replace Probe or PCB
3) Noises in ultrasound image.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A2/A4/D4
4) Mechanical probe cannot be recognized.
4)-1 Confirm the connector pins at probe connector.
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・ Replace PCB
Abnormal ・・・・・・・・・・・・・・・・・・・・・・・ Repair or replace Probe
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 121 — 2
D5 VCM EP4470**
Refer to “Principle of System Operation” in Section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Loop (multi-frame) image cannot store into MO disk, or cannot read from MO disk.
l Loop (multi-frame) image cannot transfer via network.
1) Loop (multi-frame) image cannot store into MO disk, or cannot read from MO
disk.
1)-1 Check MO disk or MO disk drive
Normal・・・・・・・・・・・・・・・・・・・・・・・・・ Refer to 1)-2
Abnormal・・・・・・・・・・・・・・・・・・・・・・・ Replace MO disk or MO disk drive
1)-2 Check CPU and VPU boards.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・ Replace PCB
Abnormal・・・・・・・・・・・・・・・・・・・・・・・ Replace CPU or VPU board.
2) Loop (multi-frame) image cannot transfer via network.
2)-1 Check connection between system and network.
Normal ・・・・・・・・・・・・・・・・・・・・・・・・・ Refer to 2)-2
Abnormal・・・・・・・・・・・・・・・・・・・・・・・ Replace network cable
2)-2 Check CPU and VPU boards.
Normal・・・・・・・・・・・・・・・・・・・・・・・・・ Replace PCB
Abnormal・・・・・・・・・・・・・・・・・・・・・・・ Replace CPU or VPU board.
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 121 -3
D6 VOL EP4469**
Refer to “Principle of System Operation” in Section 4 for details on these confirmations.
Phenomenon which may occur by a failure of this unit
l Fault relating to the VOLUME mode image
l Fault relating to the servo system for the VOLUME mode probe
1) Fault relating to the VOLUME mode image
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C13 / C14 / C15 / C16 / C17 / C21
2) Fault relating to the servo system for the VOLUME mode probe
It may be impossible to identify a failed part as a result of confirming each check code
specified below. If so, try to replace the PCB
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ A4 / C17
MN2-0233 Rev.1SECTION 6 TROUBLESHOOTING
6 — 121 — 4
(Blank page)
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 122
E1 B/W Printer
First of all, refer A3 and confirm that a normal power supply voltage is fed to the B/W printer.
Subsequently, refer to the check codes given below and identify whether the phenomenon taking
place arises from ultrasound diagnostic system or from the B/W printer.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C16/C19/C21
MN2-0233 Rev.2SECTION 6 TROUBLESHOOTING
6 — 123
E2 Color Printer
First of all, refer A3 and confirm that a normal power supply voltage is fed to the Color printer.
Subsequently, refer to the check codes given below and identify whether the phenomenon taking
place arises from ultrasound diagnostic system or from the Color printer.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C15/C16/C19/C21
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 124
E3 VCR
First of all, refer A3 and confirm that a normal power supply voltage is fed to the VCR.
Subsequently, refer to the check codes given below and identify whether the phenomenon taking
place arises from ultrasound diagnostic system or from the VCR.
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・ C16/C18/C19
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 125
6-6 Waveform for Troubleshooting
It describes the waveforms from next page for the reference to judgment of failure PCB on the
troubleshooting.
However, the specified waveforms have been selected to be signified to show with the
consideration of specification of measuring equipment and characteristic of signals.
The waveforms are taken in the following condition, if it is not specified in each waveform
●CAUTION● Since the connector pin numbers are dependent on each PCBs, the pin numbers
are shown for each signal should be changed to those suited to each PCB by
making reference with “Section 4 Principle of system operation”.
The specified waveforms have been recorded with the Logic Analyzer and its
printer. Because, the same waveform cannot be always taken with your
measuring equipment, please pay attention.
The waveform are taken in the following condition, if it is not specified in each waveform.
l PROBE :UST-9123
l PRESET :Initial setting in the application “Abdomen”.
l STC :CENTER (ALL)
l GAIN :Initialize condition
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 126
EP4500**/4441** Tx & Tx Focus
Mode : B
Range/Depth : 17cm
Mode : FLOW B
Range/Depth : 17cm
GND
GND
J1C42 TXCLK
J2B13 TXRX0
J2B36 TXRX47
GND
GND
GND
J1C42 TXCLK
J2B13 TXRX0
J2B36 TXRX47
GND
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 127
EP4443** A_ITF
Mode : B
Range/Depth : 17cm
EP4443** A_ITF
Mode : B
Range/Depth : 17cm
TP3 PreSTC0
GND
TP1 STC0G+
GND
TP2 PreSTC1
GND
TP2 STC1G+
TP3 STC2GGND
GND
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 128
EP4444** AD_DA
Mode : B
Range/Depth : 17cm
TP13 USVIDO_P
GND
TP14 USVIDO_S
GND
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 129
EP4466** VPU
Mode : B
Range/Depth : 17cm
Mode : B
Range/Depth : 17cm
GND
GND
GND
GND
TP4 MON_SYNC
TP3 MON_R
TP1 MON_G
TP2 MON_B
GND
GND
TP7 PRN_R
TP5 PRN_G
TP6 PRN_B
TP8 PRN_SYNC
GND
GND
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 130
EP4466** VPU
Mode : B
Range/Depth : 17cm
GNDTP12 MON_BW1
GNDTP11 VCR_VBS
TP10 VCR_C
TP9 VCR_YGND
GND
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 131
EP4578** Physio Amp
Mode : B
Range/Depth : 15cm
ECG : ON
ECG SENS : MAX
Hart Rate : 80bpm
Mode : B
Range/Depth : 15cm
PCG : ON
PCG SENS : MAX
Hart Rate : 80bpm
Mode : B
Range/Depth : 15cm
ECG : ON
ECG SENS : MAX
Hart Rate : 80bpm
GND
TP603 PHI_ECG
GND
TP604 PHI_PCG
GND
TP602 ECG R_SIG
(UC RINT_)
MN2-0233SECTION 6 TROUBLESHOOTING
6 — 132
EP4441** Tx & Tx Focus 2
Mode : FLOW B
Range/Depth : 17cm
Mode : B / Tissue Harmonic Imaging: ON
Range/Depth : 17cm
J2B13 TXRX0 GND
J2B23 TXRX21 GND
J2B13 TXRX0GND
J2B36 TXRX47 GND
SECTION 7
SECTION 7
ADJUSTMENT PROCEDURE
MN2-0233SECTION 7 ADJUSTMENT PROCEDURE
7 — 1
7-1 Introduction
The adjustment points shown in this adjustment procedure are points where the actual ultrasound
image is directly adjusted.
7-2 Attention
In order to avoid some new trouble created by this adjustment procedure manual, the person
performing this adjustment should be restricted to someone who has undergone the Aloka
approved training course and who has a high level of technical expertise and knowledge.
Also, by all means investigate beforehand whether the trouble you are attempting to solve by
adjustment is caused by faulty adjustment or by the failure of one of the circuits. Since
indiscriminate readjustments can be a hindrance to restoring the equipment’s original
performance, please exercise great caution in performing adjustments.
When actually engaging in adjustments, be careful especially in the following points.
1) Begin the operation only after switching on the power and letting it warm up
sufficiently.(30 minutes or more have passed after throwing the power switch ON.)
2) When adjusting variable resistors, do not exert greater force on the PCB than necessary.
3) Some of the variable resistors used in S.M.T. (Surface Mount Technology) may be smaller in size
than those used in the past. When adjusting these devices, be sure to use a driver that is
appropriate for each specific variable resistor.
4) Do not touch any variable resistor or any variable coil, etc. which is not specifically indicated in
these procedures. There is danger of altering the circuit to the point where restoration of function
will become impossible.
7-3 Tools and Measuring Instruments The tools and measuring instruments which are ordinarily necessary when performing
adjustments are as shown below.
1) Probe :UST-9123, UST-5299
2) Driver :for + M3 Phillips screwdriver, Adjustment driver
3) Extension board:EP442100BB
MN2-0233 Rev.3
SECTION 7 ADJUSTMENT PROCEDURE
7 — 2
7-4 Adjustment Procedure
7-4-1 EP444400** AD_DA
To adjust the ultrasound image noise level to the appropriate value.
Item Condition Adjustment
Point
Measuring
Point
Standard
Adjust the noise
level
Preset:AbdomenSetting of PresetHorizontal Smoothing :OffPixel Smoothing :OnFrame Smoothing:OffSetting of B mode imageProbe:ConvexFrequency:3.8MHzMODE:BDEPTH/RANGE:17cmLine Density:HighFrame CORR(B):0FOCUS:Auto 1PBeam Processing: SingleSTC:MAXGain:90CONTRAST:1AGC:0Acoustic Power:0%
VR3 On TV screen Make the area to the noise of17th in high and 16th in lowuniform.
(Refer to Fig.7-4-1)
Fig. 7-4-1 Adjustment of the noise level.
Purpose of Adjustment
(Adjustment procedure)
● Put the probe in the air.
● Display 17th in high and 16th in low gray
scale by selecting SLOPE2, and adjust VR3
so that noise fills up image area uniformly.
HIGH: 17th
LOW: 16th
MN2-0233 Rev.3SECTION 7 ADJUSTMENT PROCEDURE
7 — 3
7-4-2 EP444400** AD_DA
To adjust the vertical lines when parallel receiving is performed.
(Sector) (STEP 1)
Item Condition Adjustment
Point
Measuring
Point
Standard
Adjust the
vertical lines on
B/W image
(while pararell
recieiving is
performed)
Preset:CardiacSetting of PresetHorizontal Smoothing :OffPixel Smoothing :OffFrame Smoothing:OffSetting of B mode imageProbe:SectorFrequency:3.0MHzMODE:BDEPTH/RANGE:17cmLine Density:HighFrame CORR(B):0FOCUS:Auto 1PBeam Processing: MultiSTC:CenterGain:90CONTRAST:8AGC:4Acoustic Power:0%
VR5 On TV screen Decrease the vertical lines
on B/W image.
Fig. 7-4-2 Adjustment of the vertical lines when parallel receiving is performed.
(Adjustment procedure)
● Put the probe in the air.
● Adjust VR5 so that the vertical lines may
decrease most.
After the adjustment, check the image on the
other probe if another probe is connected.
Refer to Fig. 7-4-2
Purpose of Adjustment
MN2-0233 Rev.3
SECTION 7 ADJUSTMENT PROCEDURE
7 — 4
7-4-3 EP444400** AD_DA
To adjust the vertical lines when parallel receiving is performed.
(Sector) (STEP 2)
Item Condition Adjustment
Point
Measuring
Point
Standard
Adjust the
vertical lines on
B/W image
(while pararell
recieiving is
performed)
Preset:CardiacSetting of PresetHorizontal Smoothing :OffPixel Smoothing :OffFrame Smoothing:OffSetting of B mode imageProbe:SectorFrequency:3.0MHzMODE:BDEPTH/RANGE:15cmLine Density:MidFrame CORR(B):0FOCUS:Auto 1PBeam Processing: MultiSTC:CenterGain:Proper valueCONTRAST:8AGC:4Acoustic Power:70%
VR2 On TV screen Decrease the vertical lines
on B/W image.
(Adjustment procedure)
● Put the probe on a body.
● Adjust VR2 in exactly so that the vertical
lines may decrease most.
Remarks:
After the adjustment, check the image on the
other probe if another probe is connected.
If the vertical lines remain, readjust the
vertical lines on B/W image by «STEP1», and
then execute this adjustment work again.
Purpose of Adjustment
MN2-0233 Rev.1SECTION 7 ADJUSTMENT PROCEDURE
7 — 5
◆Confirmation of B mode image for Convex probe
Change the above setting to the following conditions, and confirm the vertical lines on B/W image was
reduced.Setting of Preset (Abdomen)Horizontal Smoothing :LowPixel Smoothing :OnFrame Smoothing :OnSetting of B mode imageProbe :ConvexFrequency :3.8MHzRange :17cmLine Density :HighFrame CORR(B) :7FOCUS :Auto 2PBeam Processing :MultiGain :Proper valueAcoustic power :70%
◆Confirmation of B mode image for Sector probe
Change the above setting to the following conditions, and confirm the vertical lines on B/W image was
reduced.Setting of Preset (Cardiac)Horizontal Smoothing :LowPixel Smoothing :OffFrame Smoothing :OnSetting of B mode imageProbe :SectorFrequency :3.0MHzRange :15cmLine Density :MidFrame CORR(B) :2FOCUS :Auto 1PBeam Processing :MultiGain :B mode image:35~85, B+FLOW mode image:45~75Acoustic power :70%
MN2-0233
SECTION 7 ADJUSTMENT PROCEDURE
7 — 6
(Blank page)
SECTION 8
SECTION 8
PERFORMANCE CHECK
MN2-0233SECTION 8 PERFORMANCE CHECK
8 — 1
8-1 Introduction
“Performance Check” describes the items to be confirmed for the maintenance of an equipment
quality and safety under the circumstances referred to below.
l Once a repair work has been done,
l Once an improvement, for a problem or the like, has been made,
l Once a change as to upgrade the functions and/or specifications has been made,
l When a periodic inspection is made.
8-2 Precautions
Unless otherwise specified, this performance check must be conducted with all coverings
attached in place and under the following environments:
l 30 minutes or more have passed after throwing the power switch ON.
If the performance check specified herein should be conducted after a repair, an improvement or
an upgrade, make certain of the following:
l All the PCBs removed are reconnected properly.
l All the connectors removed are reconnected properly.
l The replaced ROM and others are mounted in place on a printed circuit board.
The power pin, in particular, should never be mistaken for the GND pin.
l The unnecessary ROM is not left behind inside the equipment.
l Tool, measuring probe, and the like are not left behind inside the equipment.
l Optional components and grounding cable are properly reconnected.
l Screws and the like are not left behind inside the equipment.
8-3 Making Entries in Repair Report
Upon completion of the check, enter findings thereof in such a form as repair report or the like.
And present it to the user. Keep a copy thereof in custody.
MN2-0233
SECTION 8 PERFORMANCE CHECK
8 — 2
8-4 Performance Check
Those items which are covered by a performance check vary, in principle, with what is done for
the operation requiring the check. In accordance with the chart given below, identify an item or
items required (those marked with ● in the chart). And check each of the items so marked.
The terms referred to in the chart, meanwhile, are defined, respectively, as follows:
“Power Supply Unit” Power supply body, isolation transformer, and power switch.
“Other units than above” Units other than the power supply unit.
CHECK ITEM
Check Requiring Operation Function Image
Quality
Safety REMARKS
Replacing parts inside power supplyunit.
● ● ● Including PCBreplacement.
Replacing the power supply unit as awhole.
● ●
Replacing parts inside physiologicalsignal unit
● ● ● Including PCBreplacement.
Replacing physiological signal unitas a whole
● ●
Replacing a PCB in units other thanthat the above.
● ●
Replacing parts on PCB in otherunits.
● ● Including ROMreplacement.
Replacing units other than thatreferred to above as a whole.
● ● Including a probeand scanner.
Performance check before theupgrade or improvement
● ●
Periodic inspection ● ● ●
What be checked in each of the check items, meanwhile, is given on the pages described below,
to which you are requested to refer.
Functional Check……………………………………… Item 8-4-1 from Page 8-3 and on.
Image Quality Check…………………………………. Item 8-4-2 from Page 8-11 and on.
Safety Check…………………………………………… Item 8-4-3 from Page 8-14 and on.
* Refer to the Electrical Safety Check Manual: MN2-0205 to check safety.
If a specified performance or rating should be found unsatisfied as a result of the check, the
equipment should be deemed failed.
Now, refer to “Section 6 Troubleshooting” to dissolve the failure.
MN2-0233SECTION 8 PERFORMANCE CHECK
8 — 3
8-4-1 Functional check
Using the control panel of the equipment, you can check the operative condition of the function
corresponding to each panel switch.
1) Checking the panel switch operation
When any PCB around the panel or any switch on the panel is replaced, particularly check the
condition of the key top (cap). If the key top position is shifted, the switch may not operate
normally.
l Panel LED lamps: Using «Panel Test» of the maintenance menu, check that all the LED
lamps light.
l KEY BOARD
Input of all the characters, SPACE, CLEAR, BS, SHIFT, RETURN, CAPS, ESC, TAB.
COMMENT :Moves the cursor with the trackball
ID :Patient number
NEW PATIENT :Resets the ID, COMMENT, measuring function or
picture condition
FUNCTION :Operates a function assigned to the full keyboard
l MODE (Freeze OFF)
When selecting B, M, D, PW/CW, B/B, B/M, B/D, FLOW or POWER FLOW, each
image must be displayed normally.
l DEPTH/RANGE (Freeze OFF)
In B mode, the image display magnification must be increased or reduced.
l VEL RANGE (Freeze OFF)
In DOPPLER/FLOW mode, the velocity range must be increased or decreased.
l SELECT (Freeze ON/OFF)
In B/* mode, the select screen must be switched.
l REC (Freeze ON or OFF)
The recorder or function assigned by PRESET must operate.
l INVERT (Freeze ON or OFF)
In B mode, the image must be reversed in left-right direction by pressing INVERT
switch.
l IMAGE ROTATION (Freeze ON or OFF)
In B mode, the image must be rotated in 90 degrees step by pressing the
STEER/ROTATE switch.
MN2-0233 Rev.2
SECTION 8 PERFORMANCE CHECK
8 — 4
2) Image adjusting function
The following items should be all checked with Freeze OFF.
l B-GAIN (Freeze OFF)
In B/M mode, both gains must be adjusted by turning the GAIN control knob.
The GAIN display must change from 30 to 90.
l M-GAIN (Freeze OFF)
The gain of the M mode image must be corrected by turning the M-GAIN control knob.
The GAIN display must change from 30 to 90.
l D-GAIN (Freeze OFF)
The gain of the Doppler mode image must be adjusted by turning the D-GAIN control
knob. The GAIN display must change from 00 to 60.
l F-GAIN (Freeze OFF)
The gain of the Flow mode image must be adjusted by turning the F-GAIN control knob.
The GAIN display must change from 00 to 32.
l STC (Freeze OFF, Depth: 24cm)
The gains of both the B and M mode images must be adjusted corresponding to their
depths. When all the STC controls are centered, they must be free of excessive
variations in sensitivity.
l CONTRAST(Freeze OFF:B or M mode menu)
The contrast of the B and M mode images must be adjusted by pressing the contrast ▲
▼switches on the operation panel.
l RELIEF (Freeze OFF:B or M mode menu)
The relief processing for the B and M mode images must be adjusted by pressing ←→
in the MENU.
l AGC (Freeze OFF:B or M mode menu)
The AGC for the B and M mode images must be adjusted by pressing ←→ in the
MENU.
l FTC (Freeze OFF:M mode menu)
The relief processing for the M mode image must be adjusted by selecting FTC in the
MENU.
l PIXEL SMOOTHING (Freeze OFF:B or M mode menu)
The smoothing processing for B mode image must be adjusted by selecting PIXEL
SMOOTHING (B) in the MENU.
l IP SELECT (Freeze OFF)
MN2-0233 Rev.2SECTION 8 PERFORMANCE CHECK
8 — 5
When you select the IP SELECT switch in each of the B and M modes and operate the
rotary encoder, the picture quality must change to rather hard and rather soft.
l IMAGE FREQ (Freeze OFF)
When you select the ▲▼ switches for IMAGE FREQ in each mode, the frequency of
the ultrasound must be switched.
l ACOUSTIC POWER (Freeze OFF)
The image sensitivity must be changed by pressing the ▲▼ switches for ACOUSTIC
POWER in B mode.
l ANGLE (Freeze OFF)
The angle correction mark must be displayed by pressing the ANGLE switch in D mode.
The speed range in D mode must change by turning the rotary encoder .
l FRAME CORRELATION (Freeze OFF:B mode menu)
For the B mode image, the level of frame correlation must be adjusted by FRAME
CORRELATION setting in the MENU.
l LINE DENSITY (Freeze OFF:B mode menu)
For the B mode image, the frame rate must change in 3 steps by changing the LINE
DENSITY setting in the MENU.
l SWEEP SPEED (Freeze OFF:M mode menu)
For the M mode image, the sweep speed must be adjusted by turning the M Sweep Speed
rotary encoder on the touch panel M-MODE.
l ECHO ERASE (Freeze OFF:M mode menu)
The M mode image must be erased from the bottom to the center or turned on, off or
reset by turning the ←→ for ECHO ERASE in the MENU.
l Capture Mode (Freeze OFF)
The flow mode image must be updated in fixed interval when the “Capture Mode” in
«Flow1» of MENU is set to ON.
l FRAME RATE ACCELERATOR (Smoothing (Flow) :0, PIX SMOOTH :HIGH)
In the B with color flow mode image , the continuity between the frames must be
changed when «FRAME RATE ACCELERATION» in «Flow2» of MENU is set to ON.
MN2-0233
SECTION 8 PERFORMANCE CHECK
8 — 6
3) FUNCTION
The following functions must operate normally.
l PROBE (Freeze OFF)
The kinds, model names and frequencies of all the probes connected must be displayed
on the monitor and the image of the selected probe must be displayed on the monitor.
l PRESET (Freeze ON/OFF)
The preset menu must be displayed and the preset selected must be started. The preset
must be registered on the Set Up Menu screen. Even if the power is once turned off, the
preset registered must not be erased.
l PHYSIO (OPTION:With the PEU-4000 connected)
With the physiological signal unit connected, the Physio Menu must be displayed.
l MENU (Freeze ON/OFF)
The active mode menu must be displayed automatically.
4) MEASUREMENT functions
The following measurement functions must operate normally.
l DISTANCE (Freeze ON)
The DISTANCE measurement function must operate normally.
5) TRACKBALL FUNCTION
The following functions must operate normally.
l CURSOR/B.L.S. (Freeze OFF)
The cursor must be displayed when you select the CURSOR/B.L.S. switch in B/M mode.
When you operate the trackball, the cursor direction must catch up with it in real time
and M-MODE must be displayed corresponding to the cursor position.
l FOCUS (Freeze OFF)
The FOCUS menu must be displayed on the monitor by selecting the FOCUS switch in
B mode. When you manipulate the trackball, the focus mark on the monitor must catch
up with it in real time and the focus point of the ultrasound image must change.
MN2-0233SECTION 8 PERFORMANCE CHECK
8 — 7
l BODY MARK
When you select the BODY MARK switch, the body mark must appear on the monitor
and the selected body mark must be displayed on the monitor.
l SCAN AREA (Freeze OFF)
When you select the SCAN AREA switch in B mode and turn the rotary encoder, the
scan area must be narrowed and the frame rate must increase. You must be able to steer
within the maximum sight with the trackball.
l ZOOM (Freeze OFF)
When you select the ZOOM switch in B mode and turn the rotary encoder, the image
must be reduced or magnified (CW: Magnify, CCW: Reduce). The position must be
moved (vertically, horizontally) with the trackball.
6) CINE MEMORY FUNCTION
l SEARCH (Freeze ON)
After freezing in B/M mode, searching for the M image with the trackball and searching
for the B image with the rotary encoder must be possible.
l STORE/REVIEW (Freeze ON)
After moving the trackball or rotary encoder in the search state in B/M mode, when you
store and review the displayed image, the stored B/M image must be displayed.
7) DOPPLER FUNCTION
Check that all the operations are normal by referring to the operator’s manual.
l SAMPLE VOLUME
In B/D mode, the size of sample volume for PW Doppler must be changed by operating
SAMPLE VOLUME switch.
l DOPPLER FILTER
In B/D mode, the noises around the base line must be eliminated by operating the DOP
FILTER switch.
l DOPPLER MENU
FLOW/POWER FLOW FUNCTION
Check that all the operations are normal by referring to the operator’s manual.
l FLOW/POWER MENU
MN2-0233
SECTION 8 PERFORMANCE CHECK
8 — 8
9) PHYSIO SIGNAL (OPTION:With the PEU-4000 connected)
Connect the simulator to the physiological unit, connect the PCG cable and Pulse cable, then
perform the following check operations.
l MODE (Freeze OFF)
When you select the ECG Display in the MENU, an ECG waveform and heart rate must
appear on the B image.
l When you select the PCG Display and Pulse Display in the MENU, a PCG and a Pulse
waveform must appear on the screen.
l An ECG and a PCG waveform must be displayed on the M image and no unnecessary
noise must be contained in them. Each SENSE operation must allow the amplitude of the
waveform to change and the POSITION operation must allow the waveform to move
from the top to the bottom of the M image.
l R-WAVE BEEP (Freeze OFF)
When you select the R-WAVE BEEP in the MENU, a «beep» tone must be heard
synchronizing with the rise of the ECG waveform (R wave).
l ECG SYNC (Freeze OFF)
When you press the ECG 2B SYNC switch, the 2B display must appear, the SYNC mark
must appear at the rise of the ECG waveform (R wave), and the right B image must be
overwritten synchronizing with SYNC.
10) STCW Doppler (OPTION:With the UCW-4000 connected)
Connect the electronic sector probe available STCW to probe connector and perform the
following check operations.
l STCW (Freeze OFF)
B/D (CW) must be displayed when B/D (CW) is selected.
l ACOUSTIC POWER (Freeze OFF)
When you select the ACOUSTIC POWER switch and turn the rotary encoder, the
sensitivity of the CW Doppler must change.
11) VIDEO PRINTER
Before making the following checks, check that the Video Printer is connected properly.
When you press the Video Printer Rec switch set by the preset, the Video Printer must be
operated and the same image as displayed on the monitor must be recorded. The recorded
image must be free of skew, tilt, and image missing. The image printed by the color printer
MN2-0233SECTION 8 PERFORMANCE CHECK
8 — 9
must be free of tint and color misalignment.。
12) VCR(OPTION:With the SVO-9500MDA connected)
Before performing the following checks, check that the SVO-9500MDA is connected
properly.
l External input
An external input image from the VCR must be output to the monitor with the EXT
switch. The image must be displayed correctly without synchronization failure, etc.
l FREEZE
The VCR playback image must be made freeze with the FREEZE switch.
l Playback measurement
With the VCR playback image made freeze, measurement of the playback image must be
possible.
l Audio
The audio must also be recorded and played back normally.
l Remote control
MN2-0233
SECTION 8 PERFORMANCE CHECK
8 — 10
REC and Pause for the VCR must be controlled from the EXT menu on the touch panel.
13) FOOT SWITCH(OPTION:With the MP-2614* connected)
Operation of the functions assigned by the preset must be possible.
14) Tissue Harmonic Imaging
・Select the Tissue Harmonic Imaging switch on the operation panel. Image must be
changed to Tissue Harmonic Imaging image.
MN2-0233SECTION 8 PERFORMANCE CHECK
8 — 11
8-4-2 Image Quality Check
To ensure the quality of ultrasound images, check should be made by using a test piece or a similar
object.
1) Image Quality
l TOTAL IMAGE QUALITY
Condition:B mode, GAIN set to proper level, STC at center, CONTRAST 4
PROBE : UST-9123
A proper image must be shown with the probe placed on the abdominal
region. There are not a noise, an unevenness, an unnecessary writing on
the image. (If 5 MHz and/or 7.5 MHz probes are connected, the above
check also should be made by using them.)
l COIN CHECK
Confirm that the focus points change smoothly from F1 (F8) to F15 (F8).
Condition:B mode, DEPTH/RANGE 17 cm
Apply a thin film of jelly to the probe, put a thin metallic pin on the probe in
right angle to the probe length direction, and move the pin slowly on the
surface.
Perform this once for focus F1 only, and also once for F8 only.
Confirm that US image does not have the echo gap(s), or does not appear on two or
more locations. Confirm that variable aperture is acting normally.
Confirmation should be made by using the probe connectors 1,2 and 3.
MN2-0233 Rev.2
SECTION 8 PERFORMANCE CHECK
8 — 12
l NOISE LEVEL
Condition:
Preset :Abdomen
(IMAGE 1 : FRAME SMOOTHING : OFF)
Probe :UST-9123
Mode :B
DEPTH / RANGE :17 cm
GAIN :MAX
STC :MAX ALL
IMAGE/FREQ :3.8M
CONTRAST :1
DVA :0%
FOCUS (B) :AUTO (1P)
AGC (B) :0
LINE DENSITY :HIGH
HORIZONTAL SMOOTHING :OFF
FRAME CORRELATION (B) :0
PIXEL SMOOTHING :ON
BEAM PROCESSING :SINGLE
POST PROCESSING :SLOPE2
POST PROCESSING LEVEL, LOW :16
POST PROCESSING LEVEL, HIGH :17
According the above condition, the whole of Ultrasound image area must be displayed in
white.
MN2-0233SECTION 8 PERFORMANCE CHECK
8 — 13
2) Total Performance test
l Total Sensitivity
Condition : B mode, PROBE : UST-9123 used
Use a test phantom, RMI-403 or an equivalent, confirm the following items.
u A reflection echo of the seventh thread can be shown.
u A solid echo of 11 cm or deeper can be seen.
l Resolution
Use a probe UST-9123. MODE:B
Use a test target ASU-32 KG1 (Aloka product), visually check the minimum distance
recognizable in water.
u Lateral resolution 3 mm or less
u Axial resolution 2 mm or less
l Distance accuracy
Use a probe UST-9123 and a test target ASU-32 KG1 (Aloka product).
Confirm that an error of a distance accuracy is less than ±5%, when measure an
interval of 60mm between targets (vertical and horizontal directions) in a reflection echo
from the water (the temperature is 40℃±5℃).
MN2-0233SECTION 8 PERFORMANCE CHECK
8 — 14
8-4-3 Safety Check
When you do the Safety Check, refer to the Electrical Safety Check Manual; MN2-0205.
○IMPORTANT○ In Electrical Safety Checks, the method and rating of check
differ in the degree of protection against electric shock.
SSD-4000 belongs to “ Type BF applied part ” in the degree
of protection against electric shock.
MN2-0233 Rev.2SECTION 8 PERFORMANCE CHECK
8 — 15
SSD-4000 CHECK SHEETChecked by
No. Check Item Details 1 2 Remarks
8-4-1 Functional Check
1) Panel Switch PANEL LED
KEY BOARD
MODE
DEPTH/RANGE
VEL RANGE
SELECT
REC
INVERT
IMAGE ROTATION
2) Image Adjustment B-GAIN
M-GAIN
D-GAIN
F-GAIN
STC
CONTRAST
RELIEF
AGC
FTC
PIXEL SMOOTHING
I.P. SELECT
IMAGE FREQ
ACOUSTIC POWER
ANGLE
FRAME CORRELATION
LINE DENSITY
SWEEP SPEED
ECHO ERASE
CAPTURE MODE
FRAME RATEACCELERATOR
3) FUNCTION PROBE
PRESET
PHYSIO (OPTION)MENU
4) MEASUREMENT FUNCTION DISTANCE
5) TRACK BALL FUNCTION CURSOR/B.L.S.
FOCUS
BODY MARK
SCAN AREA
ZOOM
MN2-0233 Rev.2SECTION 8 PERFORMANCE CHECK
8 — 16
SSD-4000 CHECK SHEETChecked by
No. Check Item Details 1 2 Remarks
6) CINE MEMORY FUNCTION SEARCH
STORE/REVIEW
7) DOPPLER FUNCTION DOPPLER MENU
DOP FILTER
DOPPLER MENU
FLOW/POWER FUNCTION FLOW/POWER MENU
9) PHYSIO. SIGNAL MODE (OPTION)
R-WAVE BEEP
ECG SYNC
10) STCW Doppler STCW
Acoustic Power
11) Video Printer (OPTION)
12) VCR External input (OPTION)
FREEZE (OPTION)
Playback measurement
Audio
Remote control
13) FOOT SWITCH (OPTION)
14) Tissue Harmonic Imaging (OPTION)
8-4-2 Image Quality Check
1) Image Quality Total Image Quality
COIN CHECK
Noise level
2) Total Performance test Total sensitivity
Resolution
Distance accuracy8-4-3 Safety Check
1) Checking Protected Earth Cable forContinuity
2) Measuring an Insulation Resistance
3) Earth Leakage Current Normal
Single Fault Condition
4) Enclosure Leakage Current(a) Normal
Single Fault Condition
5)Enclosure Leakage Current(b) Normal
Single Fault Condition
6) Patient Leakage Current Normal
Single Fault Condition
SECTION 9
SECTION 9
DISASSEMBLING PROCEDURE
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 1
SSD-4000 Disassembling Instruction
1. Parts Identification
2. Individual Unit Layout
3. Dismounting Flow Chart
4. Removing of Covers
5.Removing of Operation Panel Assembly, Knob, Interface PC board, Track ball, Roller Knob,Flexible board, Switch board, Light
6. Removing of JB-263/USM-25*
7. Removing of JB-260/261/Power Supply Unit(PSU-S4000*-1/-2*)/JB-258*/259*
8. Removing of Daughter board
9. Removing of Mother board
10. Removing of Floppy Disk Drive
11. Removing of Black and white Printer(UP-895*, P91*) VCR (SVO-9500MD*,AG-7350*) , MO(DYNA MO 640SE) Color Printer (UP-2850P/-2950MD/-21MD(*), CP700*/900*)
12. Removing of Monitor(IPC-1530Q/-1530(U))
13. Removing of Tilt base
14. Removing of Monitor Arm
15. Removing of Foot Switch
16. Removing of Physio Unit
17. Removing of reinforcement metal fittings of the unit for the VOL mode
18. Removing of mechanical radial connection unit (SCU-4000)
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 2
1. Parts Identification
Monitor
IPC-1530Q
IPC-1530(U)
L-KEY-75*
Cable Hanger
MP-HA6500-1
L-KI-630
Operation Panel
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 3
2. Individual Unit Layout
Power Supply Unit
PSU-S4000*-1
Ultrasound
Memory
Unit
USM-25*
Floppy Disk Drive
Junction Box Assy
JB-263
Power Supply Unit
PSU-S4000*-2*
Junction Box Assy
JB-260/261
Power Cable Unit
JB-258*/259*
Physio Unit
PEU-4000
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 4
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 5
4. Removing of Covers
4-1 Removing of Right Side Cover
① Loosen 3 screws and remove right sidecover.
4-2 Removing of Left Side Cover
① Loosen 3 screws and remove left sidecover.
BNK3 x 8 Fe,Ni,3
Right Side Cover
BNK3 x 8 Fe,Ni,3
Left Side Cover
①
①
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 6
4-3 Removing of Front Cover
①Loosen 4 screws and remove front cover.
Front Cover
BNK3 x 8 Fe,Ni, 4
①
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 7
4-4 Removing of Small Rear Cover
① Remove 4 screws and remove small rear
cover.
4-5 Removing of Rear Cover
①Remove 4 screws and remove rear cover.
BNK3 x 8 Fe,Ni, 4
Rear Cover
BNK3 x 8 Fe,Ni,4①
①
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 8
4-6 Removing of Upper Right Side Cover
①Remove 2 screws.
②Lift up the lower section of the upper rightside cover and remove it.
BNK3 x 8 Fe,Ni,2
Upper Right Side Cover
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 9
4-7 Removing of Upper Left Side Cover
① Remove 2 screws.
②Lift up the lower section of the upper left sidecover and remove it.
BNK3 x 8 Fe,Ni,2
Left Side Cover
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 10
4-8 Removing of Panel Cover
①Remove 2 screws and remove panel cover.
4-9 Removing of Front Handle
①Remove 6 screws and remove front handle.
BNK3 x 8 Fe,Ni,2
BNK3 x 12,Fe,Ni, 2
BNK4 x 10,Fe,Ni,4
①
①
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 11
4-10 Removing of Probe Holder
①Remove 5 screws and remove probe holder.
②Remove 3 screws and remove fixture.
Holder Fixture
BNK3 x 8,Fe,Ni,5
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 12
5. Removing of Operation Panel Assembly, Knob, Interface PC board, Track ball, RollerKnob, Flexible board, Switch board, Light
5-1How to open the operation panel
① Remove 1 screw.
② Lift up the front section of the operation
panel.
③Remove the clamp, stand up the stay,
and fasten.
BNK3 x 12 Fe,Ni,1
Operation panel
Stay
①
③
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 13
5-2 Removing of Operation Panel
①Disconnect all of the connectors from the
Interface PC board.
• Connectors to unplug. [P411,P400,P412,P86]
②Remove the operation panel to the front ofmain body.
P412 P411
P400
P86
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 14
5-3 Removing of Knobs
• Operation ① is only for when removing theswitch board.
① Remove 8 STC knobs and 5 operationpanel knobs.
5-4 Removing of Interface PC board
①Disconnect all of the connectors from the
interface PC board.
②Remove 6 screws and remove interface PCboard.
Connectors
Connector
BNK3 x 5,6
CN2, CN3
CN1
①
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 15
5-5 Removing of Track ball
①Remove 4 screws and disconnect theconnector (CN7), then remove track ball.
②Remove 4 screws and remve fixture.
CNK3 x 5Bs,4 Connector
Track ball
Fixture
S4 x 6,4
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 16
5-6 Removing of Roller knob
① Remove 4 screws and disconnect theconnector, then remove roller knob.
②Remove 1 screw and remove roller knob.
CNK3 x 5,4
Connector Roller knob
CNK3 x 5,1
Roller knob
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 17
5-7 Removing of Flexible board
①Remove 6 screws and remove flexible board
assembly.
②Remove 1 screw and remove flexible board.
CNK3 x 5, 6
BNK3 x 5,1
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 18
5-8 Removing of Switch board
①Disconnect all of the connector from switchboard (large).
②Remove 20 screws and remove switchboard(large).
Track ball connector
Roller knob connector
Connector
CNK3 x 5,20
Switch board (large)
Connector
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 19
③Disconnect the connector from switch board(small).
④Remove 6 screws.
⑤Remove switch board (small).
5-9 Removing of dust cover
① Remove dust cover.
NOTE. This cover is into the seesaw switch.(seven places)
CNK3 x 5,6Connector
Switch board (small)
③ ④
⑤
①
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 20
5-10 Removing of Light
①Loosen 1 screw.
②Take out the light.
BNK3 x 16,FeNi,1
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 21
6. Removing of JB-263/USM-25
6-1Removing of JB-263
①Disconnect all of the connectors fromconnector box (JB-263).
②Remove 4 screws.
③Pull the levers, and remove connector box(JB-263).
BNK3 x 8,Fe,Ni,4
①
②
③
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 22
6-2 Removing of PCB
①Remove 6 screws and remove cover.
②Remove 6 screws and remove PCB[EP447300].
BNK3 x 6,Fe,Ni,6
BNK3 x 6,Fe,Ni,6
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 23
③Remove 4 screws and remove 2 PCB.
④Remove 19 screws and remove PCB[EP447200].
BNK3 x 6,Fe,Ni,4
③
④
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 24
6-3 Removing of USM-25*
①Remove 2 screws from back of USM-25*.
②Remove 18 screws and remove shield cover.
BNK3 x 8,Fe,Ni,2
BNK3 x 8 Fe,Ni,18
Shield Cover
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 25
③ Loosen 1 screws, then disconnect
Grounding cable.
④Remove 9 screws.
⑤Disconnect SCSI cable.
SCSI Cable
BNK3 x 8,Fe,Ni,9④
⑤
③
BNK3 x 8,Fe,Ni,1
Grounding cable
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 26
⑥Pull out the connector(P221) from USM-25*.
⑦Remove USM-25*.
Connector
⑥
⑦
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 27
7. Removing of JB-260/261/Power Supply Unit (PSU-S4000*-1/-2*)/JB-258*/259*
7-1 Removing of JB-260/261
①Disconnect 2 connectors.
* ( ) is the option.
• Connectors to unplug.
[P825, J805, (MO cable connector)]
②Remove 4 screws and remove JB-260/261.
BNK3 x 8,Fe,Ni,4
P825
J805
①
②
MO cable
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 28
7-2 Removing of Power supply unit(PSU-S4000*-2*)
① Remove 2 screws at front bottom, then
remove cover.
② Disconnect all connectors.
• Connectors to unplug[P101, P201, P301]
BNK3 x 8,Fe,Ni,2
P101
P201P301
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 29
③Remove 5 screws.
④ Remove grounding cable by loosing a screw.
⑤Remove a power unit PSU-S4000*-2*. (Use Card puller.)
BNK3 x 8,Fe,Ni,3
BNK3 x 8,Fe,Ni,2
③
④
⑤
BNK3 x 8,Fe,Ni,1
Grounding cable
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 30
7-3 Removing of PCB
① Remove 12 screws and remove top cover.
• The part varies in the serial number. Do work referring to the following serial number.
②Remove PCB.
S3 x 8,Fe,Ni,4
CNK3 x 8,Fe,Ni,8
①
Top cover
② S/N:M00101~M00300
② S/N:M00301~
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 31
7-4 Removing of FAN
• The part varies in the serial number.Do work referring to the following serialnumber.
①Remove 10 screws and remove FAN
assembly.
②Disconnect connector.
Connector
S3 x 8,Fe,Ni10
① S/N:M00101~M00300
S3 x 8,Fe,Ni10
① S/N:M00301~
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 32
③Remove 4 screws and remove FAN and
finger guard.
S4 x 40,4
N4,4(Nuts with Flange)③
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 33
7-5 Removing of Power supply unit(PSU-S4000*-1).
① Disconnect all connectors.
• Connectors to unplug.[P802, P825]
② Remove 2 screws at front bottom, thenremove cover.
P825
P802
BNK3 x 8,Fe,Ni,2
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 34
③ Disconnect all connectors.
• Connectors to unplug[P100, P200, P300, FAN]
④Remove 4 screws at both sides.
FAN
BNK3 x 8,Fe,Ni,4
P100P200
P300
③
④
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 35
⑤Set the caster in parallel.
⑥Pull out the power unit PSU-S4000*-1
backward.
⑦Remove the power supply unit, not to drop it.
• Handle the power supply unit carefully,because the power supply unit is very heavy.
⑤
⑥
⑦
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 36
7-6 Removing of JB-258/259
• This work is to follow the following serialnumber.
S/N: M00101~M00300
①Remove 5 screws and remove JB-258/259.
JB -258: For 100-120V JB -259: For 200-240V
②Disconnect the cable and the ground cable.
• When connect the cables again, connectcorrectly.
JB-258/259
BNK3 x 8,Fe,Ni,5
Grounding cable
Cable
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 37
7-6 Removing of JB-258*/259*
S/N: M00301~
① Remove 5 screws and removeJB-258*/259*.
JB -258*: For 100 — 120V JB -259*: For 200 — 240V
②Disconnect the cable and the groundingcable.
• When connect the cables again, connectcorrectly.
JB-258*/259*
BNK3 x 8,Fe,Ni,5
Grounding cable
①
②
Cable
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 38
7-7 Removing of FAN
①Remove 6 screws and remove cover.
②Disconnect connector of the FAN.
S3 x 6,2
BNK3 x 6,Fe,Ni,4
Connector
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 39
③Remove 4 screws and remove FAN and
finger guard.
7-8 Removing of FUSE
① Remove fuse cap.
NK5 x 10,4③
①
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 40
7-9 Removing of Power SupplyMother board
• This work is to follow the following serialnumber.
S/N: M00101~M00300
①Remove 2 screws.
② Remove 5 screws.
③Remove power supply rear cover and power supply left cover at the same time.
PSU-S4000-2
S3 x 8,Fe,Ni,2①
③
S3 x 8,Fe,Ni,2
CNK3 x 8,Fe,Ni,3
②
Power supplyleft cover
Power supplyrear cover
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 41
④ Remove 10 screws and remove motherboard support.
⑤ Push down the power supply motherboardin the front, after pull it out in the top.
CNK3 x 8,Fe,Ni,10
④
⑤
Power supplymother board
Motherboard support
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 42
7-9 Removing of Power SupplyMother board
S/N: M00301~
①Remove 2 screws.
②Remove 5 screws.
③Remove power supply rear cover and power supply left cover at the same time.
PSU-S4000*-2*
S3 x 8,Fe,Ni,2①
③
S3 x 8,Fe,Ni,2
CNK3 x 8,Fe,Ni,3
②
Power supplyleft cover
Power supplyrear cover
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 43
④ Remove 8 screws and remove 2 mother
board support.
⑤ Push down the power supply mother board in the front, after pull it out in the top.
CNK3 x 8,Fe,Ni,8
④
⑤ Power supply mother board
Motherboard support
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 44
7-10 Removing of Power SupplyShield board
①Remove 7 screws and remove top plate (3).
②Remove 6 screws and remove Top plate (1).
① BNK3 x 6,Fe,Ni,7
② BNK3 x 6,Fe,Ni,6
Top plate (3)
Top plate (1)
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 45
7-11 Removing of PCB[EP448200**]
①Disconnect all connectors.
• Connectors to unplug
[P10, P11, P12, P13, P14]
②Remove 4 screws and remove PCB[EP448200**].
①
②
CNK3 x 6,Fe,Ni,4
P10
P12
P13
P11
P14
PCB
[EP448200**]
MN2-0233 Rev.SECTION 9 DISASSEMBLING PROCEDURE
9 — 46
7-12 Removing of PCB[EP449500**]
• This work is to follow the following serialnumber.
S/N: M00101~M00300
① Remove 12 screws and remove power
supply rear cover.
②Disconnect all of the connectors.
• Connectors to unplug[J20, J21, J22]
③Remove 6 screws and remove cable.
• Be careful the color of the cable in case of installation.
BNK3 x 6,Fe,Ni,2
①
②
BNK3 x 8Fe,Ni,6
CNK4 x 8,Fe,Ni,10
J22
J20
J21
Power supply rear cover
PCB
[EP449500**]
RedBlackOrangeGrayYellowPurple
③
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 47
④Remove 5 screws and remove PCB
[EP449500**].
CNK3 x 6,Fe,Ni,5④
PCB [EP449500**]
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 48
7-12 Remove of PCB[EP463400**]
S/N: M00301~
① Remove 5 screws.
Make PCB [EP463400**] slide in the
direction of the white arrow and remove
it from the connector.
② Turns PCB [EP463400**] in the direction of the white arrow.
③ Pull it up.
BNK3 x 6Fe,Ni,5
①PCB [EP463400**]
②
③
PCB [EP463400**]
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 49
7-13 Remove of PCB[EP462200**]
S/N: M00301~
①Remove 6 screws and remove top plate (2).
②Remove 3 screws from the back.
BNK3 x 6,Fe,Ni,4
①
②
Top plate (2)
S3 x 6,Fe,Ni,2
BNK3 x 6,Fe,Ni,3
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 50
③Disconnect all connectors.
• Connectors to unplug
[P1, P2, P3, P4]
④ Remove 6 screws and remove PCB [EP462200**].
P4
③
④
P3
P2
CNK3 x 6,Fe,Ni,6
P1
PCB
[EP462200**]
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 51
⑤ Remove 4 screws and remove diode heat
sink.
CNK3 x 6,Fe,Ni,4
⑤
Diode heat sink
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 52
8. Removing of Daughter board, CPU, Probe select PC board
8-1Removing of Shield Cover
①Remove 18 screws and remove shield cover.
8-2 Removing of Daughter board
①Remove PC board.
S/N: M00101~M00300… EP443700 S/N: M00301~…… EP463900
②Remove daughter board.
Shield Cover
BNK3 x 8 Fe,Ni,18
PC board
EP443700/EP463900
①
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 53
8-3 Removing of CPU
①Disconnect SCSI cable.
②Disconnect the connector.
③Remove CPU.
SCSI Cable
Connector
①
②
③
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 54
8-4 Removing of Probe selector PC board
①Remove 6 screws.
②Remove probe selector PC board.
BNK3 x 8,Fe,Ni,6①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 55
9. Removing of Mother board
9-1Removing of Mother board
①Remove all of the daughter boards from
USM-25*.
②Remove 8 screws and remove back cover.
BNK3 x 8,Fe,Ni,8
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 56
③Remove 14 screws and remove mother
board unit.
④Remove 22 screws and remove motherboard.
BNK3 x 8,Fe,Ni,14③
④
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 57
10. Removing of Floppy Disk Drive
10-1 Removing of Floppy Disk Drive
①Disconnect connectors of the floppy disk
drive from back of main body.
②Remove 2 screws and remove floppy diskdrive.
Connector
BNK3 x 8,Fe,Ni,2
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 58
11.Removing of Black and white Printer(UP-895*, P91*) VCR (SVO-9500MD*,AG-7350*), MO(DYNA MO 640SE)
Color Printer(UP-2850P/-2950MD/-21MD(*), CP700*/900*)
11-1 Removing of Recording device
①Remove all the cables connected to the each recording device with wiring chart given below.
記録装置 Recorder SSD-4000
R
G
BIN PUT
SYNC
CONTROL
J31
COLOR PRINTER
接栓板Connector panel
UP-2850P/-2950MD/-21MD(*)
~ AC INJ854
COLOR PRINTER AC outlet [JB-260/261]
R
G/G+SYNC
BIN PUT
H+V-SYNC
REMOTE
J31
COLOR PRINTER
接栓板
Connector panelCP700*/900*
~ AC LINEJ854
COLOR PRINTER AC outlet [JB-260/261]
VIDEO INJ12
B/W VIDEO OUT
REMOTEJ32
PRINT CONTROL
接栓板Connector panelUP-895*
~ AC INJ853
PRINTER AC outlet [JB-260/261]
VIDEO INJ12
B/W VIDEO OUT
REMOTEJ32
PRINT CONTROL
接栓板Connector panelP91*
~ AC LINEJ853
PRINTER AC outlet [JB-260/261]
VIDEO IN J10
VIDEO IN S VIDEO J13VIDEO OUT
VIDEO OUT J11
VIDEO OUT S VIDEO J14VIDEO IN
CH-1 CH-1 J21AUDIO IN
CH-2 CH-2 J23AUDIOOUT
CH-1 CH-1 J20AUDIO OUT
CH-2 CH-2 J22AUDIO
IN
REMOTEJ30
VCR CTRL
接栓板
Connector panelSVO-9500MD*
~ AC INJ855VCR AC outlet [JB-260/261]
VIDEO IN J10S1 VIDEO IN J13 VIDEO OUT
VIDEO 2 OUT J11S1 VIDEO OUT J14 VIDEO IN
CH-1 CH-1 J21AUDIO IN CH-2 CH-2 J23
AUDIOOUT
CH-1 CH-1 J20AUDIO OUT CH-2 CH-2 J22
AUDIOIN
接栓板
Connector panelAG-7350*
~ AC IN J855VCR AC outlet [JB-260/261]
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 59
In case of top rack(SVO-9500MD*, CP700/900
UP-2850P/-2950MD/-21MD(*))
① Remove 3 screws and remove recording
device.
• The screw being used by the carried record
device is different.
Refer to the following for the screw
from name.
UP-2850P/-2950MD/-21MD(*), SVO-9500*‥‥BNK3 x 10 Fe,Ni,3
CP700*/900*‥‥ BNK4 x 12Fe,Ni,3
②Remove 4 screws and remove fixtures.
* BNK3 x 10Fe,Ni,3
or BNK4 x 12Fe,Ni,3
S3 x 6 Fe,Ni,4
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 60
In case of intermediate rack
(SVO-9500*, CP700*/900*,
UP-2850P/-2950MD/-21MD(*), AG-7350*)
①Remove 4 screws and remove
recording device.
• The screw being used by the carried record
device is different.
Refer to the following for the screw
from name.
UP-2850P/-2950MD/-21MD(*), SVO-9500*‥‥BNK3 x 10 Fe,Ni,4
CP700*/900*, AG-7350*
‥‥ BNK4 x 12Fe,Ni,4
②Remove 4 screws and remove fixtures.
*BNK3 x 10Fe,Ni,4
or BNK4 x 12Fe,Ni,4
S3 x 6 Fe,Ni,4 Fixture
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 61
11-2 Removing of Black and white Printer
(UP-895*, P91*)
①Remove 1 screw and remove printer.
BNK3 x 6 Fe,Ni,1
①
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 62
11-3 Removing of MO drive
In case of connected black and white printer
with MO
①Remove the clamp, then disconnect the
power cable.
②Remove the SCSI cable.
AC adapter
Power cable
SCSI cable
①
②
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 63
③Remove MO from the printer.
Removing of MO
In case of only MO
①Disconnect power cable and SCSI cable.
②Remove MO
MO
Power cable
SCSI cable
MO
③
②
①
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64
12. Removing of Monitor(IPC-1530Q/-1530(U))
12-1 Removing of Monitor
• Operation ① is only necessary for PAL device.
①Unfasten 2 screws and remove the cable disconnect prevention fixture.
②Remove the power cable.
③Loosen the 2 screws for the signal cable, thenremove it.
Power cable
Cable Disconnect
Prevention Fixture
BTight3 x 8 Bs,2
Installation screws, 2
Signal Cable
(Only for PAL devices)
①
②
③
MN2-0233 Rev.1SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 1
④Remove the 4 screws fastening the monitor,
then remove the monitor from the tilt base.
BNK4 x 10-EC ,4
Monitor
Tilt base
④
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 2
12-2 Removing of Back Cover
①Unfasten 3 screws, and remove
the back cover.
Back Cover①
CNK3 x 10Fe,Ni,3
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 3
12-3 Removing of Escutcheon
①Loosen 4 screws, and remove
the escutcheon.
• Be careful not to pull the cable of the volume
knob.
②Unfasten 4 screws, and remove the volume knob.
BNK4 x 10 Fe,Ni,4
B Tight M3 x 6,4
①
②
Escutcheon
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 4
12-4 Removing of Power supply PC board
• This work is the case of IPC-1530 (U) .
It is omitted in case of IPC-1530Q.
①Unfasten 8 screws from the bottom
of the monitor, and take off an
insulation seat.
②Pull a power supply PC board to
the front.
• Be careful not to pull the cable when
you pull the PC board.
③Disconnect all connectors, and remove the power supply PC board.
○Connectors to unplug[P309, P402, P404, P405, P406, P403, P411, P410, P409, P611, P407]
Power supply PC boardTB-0047A
P403③
①
Insulation Seat
P406
P405
P404
P411 P410 P409
P611
P407
P309P402
Screws, 8
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 5
12-5 Removing of Rear Plate
In case of IPC-1530Q
①Unfasten 24 screws from the top plate
and the rear plate.
②Lift the top plate, and remove the
rear plate.
• Be careful not to pull the cable.
Top Plate
Screws, 24①
②
Rear Plate
Top Plate
Rear Plate
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 6
12-5 Removing of Rear Plate
In case of IPC-1530(U)
①Unfasten 11 screws.
Then slide downward, and remove
the sheet metal back cover.
• Be careful not to pull the cable.
12-6 Removing of Fuse
• This work is the case of IPC-1530 (U) .
It is omitted in case of IPC-1530Q.
①Remove the fuse from the power supply
PC board of the bottom.
• Be careful not to pull the cable.
Rear Plate
Screws, 11
①
Fuse, 2
Power supply
PC board
TB-0047A
①
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 7
12-7 Removing of Fan
In case of IPC-1530Q
①Remove a fan’s connector.
• Be careful not to pull a cable.
②Unfasten 2 screws, and remove the fan from the rear plate.
Fan
Rear Plate
①
②
Connector
Screws, 2
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 8
12-7 Removing of Fan
In case of IPC-1530 (U)
①Unfasten 8 screws from the bottom
of the monitor, and take off an
insulation seat.
②Pull a power supply PC board to
the front.
• Be careful not to pull the cable when
you pull the PC board.
②Remove a fan’s connector [P407] from the power supply PC board.
Power supply PC boardTB-0047A
Power supply
PC board
TB-0047A
①
②
Screws, 8
①
Insulation Seat
②
P407
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 9
③Undo the clamp, and remove the cable.
④ Unfasten 2 screws, and remove the fan.Cable
Clump③
④
Fan
Screws, 2
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 10
13. Removing of Tilt base
13-1 Removing of Tilt base
①Remove 8 screws and remove the arm cover.
②Remove 4 screws and remove tilt base.
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 11
14.Removing of Rear Handle, Top Rear Cover, Monitor Arm, Arm Ring
14-1 Removing of Rear Handle
①Remove 2 bolts and remove rear handle.
14-2 Removing of Top rear cover
①Remove 1 screw.
Rear Handle
HB5 x 30,2
BNK3 x 8,Fe,Ni,1
Top rear cover
①
①
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 12
②Remove top rear cover.
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 13
14-3 Removing of Monitor Arm
①Disconnect 2 connectors.
• Connectors to unplug
[P410,J805]
②Remove 8 screws.
P410
J805
BNK4 x 12,Fe,Ni,8
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 14
③Remove 6 bolts and remove fixture.
14-4 Removing of Arm Ring
①Remove arm ring.
HB5 x 12,6
Arm ring
③
①
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 15
15.Removing of Foot Switch
15-1 Removing of Foot Switch
①Remove 4 screws and remove the rack
panel.
②Remove 4 screws and remove cover.
BNK3 x 8,Fe,Ni,4
BNK3 x 8,Fe,Ni,4
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 16
④Remove 2 screws and remove foot switch
PC.
③
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 17
16. Removing of EP446800, Physio. Unit, Control Panel
16-1 Removing of EP446800
①Remove the PCB[EP446800].
16-2 Removing of Physio Unit
①Disconnect 2 connectors from JB-263.
• Connectors to unplug
[J70, J821]
USM-25* Unit
J821
J70
EP446800
①
①
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 18
②Remove 4 screws and remove physio. unit.
BNK3 x 8 Fe,Ni,2②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 19
16-3 Removing of Physio Control Panel
①Disconnect the connector of physio control
panel.
②Remove 2 screws and remove physio controlpanel.
BNK3 x 8 Fe,Ni,2
①
②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 20
③Remove 2 screws and remove panel cover.
BNK4 x 8 Fe,Ni,2
Panel cover
③
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 21
17. Removing of reinforcement metal fittings of the unit for the VOL mode
17-1 Removing of reinforcement metal fittings
① Remove the cables.
② Remove 2 screws and remove the
reinforcement metal fittings.
Cable
L-CABLE-584-60
①
reinforcement
metal fittings
BNK3 x 8Fe,Ni,2②
MN2-0233 Rev.2SECTION 9 DISASSEMBLING PROCEDURE
9 — 64 — 22
18. Removing of mechanical radial connection unit (SCU-4000)
18-1 Removing of SCU-4000’s connector cover
① Unfasten 4 screws, then remove the SCU-4000.
② Unfasten 8 screws, then remove theconnector cover.
BNK3 x 8 Fe,Ni,4
SCU-4000
①
BNK3 x 8Fe,Ni ,8
EP444800**
Connector cover
②
ALOKA CO.,LTD.
MS5-1034
- 1 -
Rev.03
SSD-4000 据付要領書
INSTALLATION PROCEDURES
この据付要領書は、SSD-4000 の納品等の際、据付の資料としてご使用ください。
※カラープリンタとVCRを同時に搭載する場合は、MP-FX4000-2C が必要です。
必要な工具:プラスドライバー、スタビドライバー(あらかじめ用意すること)
These installation procedures are provided for reference in installation of SSD-4000.
※ When fixing both the Color printer and the VCR on the system simultaneously by
using an attached fixture for VCR/Color printer, you should prepare a fixture of
MP-FX4000-2C additionally.
Tool required : Phillips screw driver , Stabilizing screw driver( Provide it beforehand )
注意
■ 装置の据付作業は、有資格者に限られる。
■ 装置を設置する場所の環境条件および電源設備は、取扱説明書の記載条件による。
■ 探触子の接続は、取扱説明書を参照すること。
■ 指定された機種以外のオプション機器は、取り付けしないこと。
C A U T I O N
■ This system must be installed only by the qualified personnel.
■ The environmental conditions for the place of installation of the SSD-4000
system and the specifications of the power supply must satisfy the requirements
stated in the operator’s manual.
■ See the operator’s manual for the connection of the probe.
■ Do not install optional equipment of other models.
Total Page :24
ALOKA CO.,LTD.
MS5-1034
- 2 -
Rev.01
目次 C O N T E N T S
1. モニタの取り付け方法 1. Mounting of Monitor
2. 付属品の取り付け方法 2. Mounting of Accessories
3. オーバーレイシートの取り付け方法 3. Mounting of Over Lay Sheet
4. 記録装置の取り付け方法 4. Procedure for Installation of Recorder
5. ケーブル固定方法 5. Fixing the power cable
ALOKA CO.,LTD.
MS5-1034
- 3 -
Rev.01
1 . モニタの取り付け方法 1 . M o u n t i n g o f M o n i t o r
モニタの取り付け方法
Mounting of Monitor
① モニタ底面のゴム足をチルト台の穴に合わ
せて塔載し、ねじ 4 本で固定する。
① With match the rubber cushions at the
bottom of the monitor and holes on
the tilt base, then fix the monitor by
use of 4 screws.
② 信号ケーブルをねじ 2 本で取り付ける。
③ 電源ケーブルを取り付ける。
④抜け防止金具をねじ 2 本で取り付ける。
② Connect the signal cable by use of 2
screws.
③ Connect the power cable.
④Attach the AC cable fixing metal by use
of 2 screws.
Signal Cable
信号ケーブル
電源ケーブル
Power Cable
B タイト 3×8 FeNi,2B tight 3×8 FeNi,2
AC cable fixing metalケーブル抜け防止金具
②
③
④
BNK4×10_EC,4
モニタ
チルト台
①
Monitor
Tilt Base
ALOKA CO.,LTD.
MS5-1034
- 4 -
2. 付属品の取り付け方法 2 . M o u n t i n g o f A c c e s s o r i e s
付属品の取付け方法
Mounting of Accessories
① 水平アームを取り付け穴に差し込む。
② ケーブルハンガを水平アームの穴に差し込
み、ロックノブを締め付け固定する。
① Insert horizontal arm into mounting
hole.
② Insert cable hanger into hole on
horizontal arm, then tighten lock knob
to secure them.
③ プローブケーブルを図のように引き出し、ケ
ーブルハンガの角度をラチェットを押しな
がら調節する。
④ パースロックをケーブルハンガの 2 ヶ所に
取り付けケーブルを固定する。
※ パースロックはケーブル 2 本まで装着可能
③ Lay out probe cable as illustrated, and
adjust cable hanger to appropriate
angle while pressing ratchet.
④ Install purse locks at 2 locations as
illustrated on cable hanger, and secure
cable.
※ Up to 2 cables may be loaded on 1
purse lock.
ケーブルハンガ
水平アーム
Lock Knob
ロックノブ
Horizontal Arm ①
②
Probe Sideプローブ側 Connector Side
コネクタ側
Purse Lock
パースロック
Ratchet
ラチェット
Cable Hanger
ケーブルハンガ
③
④
Cable Hanger
ALOKA CO.,LTD.
MS5-1034
- 5 -
3 .オーバーレイシートの取り付け方法 3 .M o u n t i n g o f O v e r L a y S h e e t
オーバーレイシートの取付け方法
Mounting of Over Lay Sheet
※国内向けのみ作業を行う。
※ This operation is only for Japanese
models.
① 両面シール 14 枚の台紙を剥ぎ、オーバーレ
イシートを取り付ける。
① Peel off the backing paper from the 14
double-sided decals and paste the over
lay sheet onto the panel.
オーバーレイシート
Over Lay Sheet
両面シール,14
double-sided decals,14
①
ALOKA CO.,LTD.
MS5-1034
- 6 -
Rev.02
4 . 記録装置の取り付け方法 4 . P r o c e d u r e f o r I n s t a l l a t i o n o f R e c o r d e r
取り付ける記録装置 / The recorder to be adapted
白黒プリンタ / black and white printer : SSZ-307/-309, P91
MO ドライブ /MO Drive : DYNA MO 640SE
カラープリンタ /Color printer : SSZ-707/709, CP-700 /-900
VCR : SVO-9500, AG7350E
4-1.白黒プリンタの取り付け方法 4-1.Procedure for Installation of
black and white printer
右サイドカバーの取り外し方法
Removing of Right Side Cover
① 右サイドカバーを、ねじ3本を緩めて取り外す。
① Loosen the 3 screws and remove
right side cover.
左サイドカバーの取り外し方法
Removing of Left Side Cover
②左サイドカバーを、ねじ3本を緩めて取り外す。
②Loosen the 3 screws and remove left
side cover.
BNK3×8 Fe,Ni,3
右サイドカバー
Right Side Cover
①
左サイドカバー② Left Side Cover
BNK3×8 Fe,Ni,3
ALOKA CO.,LTD.
MS5-1034
- 7 -
フロントカバーの取り外し方法
Removing of Front Cover
③フロントカバーを、ねじ4本を緩めて取り外す。
③Loosen the 4 screws and remove front cover.
④ ねじ 2 本を取り外しブラインド板(下段)を
取り外す。
④ Remove the 2 screws, then remove the
blind cover(lower).
⑤指定の位置に、ストッパーをねじ2本で固定する。
⑤ Fix the stopper on the designated
position of the each printer, then fasten
with 2 screws.
BNK3×8 Fe,Ni,4
③
フロントカバー
Front Cover
BNK3×8 Fe,Ni,2
Blind Cover
(lower)
④
本体
BODYFRONT
SSZ-307SSZ-309
P91
⑤
ブラインド板
ALOKA CO.,LTD.
MS5-1034
- 8 -
SSZ-307/-309 の場合
In case of SSZ-307/-309
⑥SSZ-307/-309 のゴム足を固定している
ねじ 4 本を取り外す。 ゴム足は残す。
⑥Remove the 4 rubber feet mounting
screws on SSZ-307/-309.
Leave the rubber feet.
⑦ SSZ-307/-309 に付属の固定金具を付けねじ
4本で固定する。
⑦ Fasten the fixtures attached to the
SSZ-307/-309 by the 4 screws.
P91 の場合
In case of P91
⑥ P91 のゴム足を固定しているねじ 4本は取
り外さない。
⑦ P91 に付属の固定金具を付け、ねじ4本で
固定する。
⑥ Don’t remove the 4 rubber feet
mounting screws on P91.
⑦ Fasten the fixtures attached to the P91
by the 4 screws.
Rubber feet ,4ねじ ,4
Screws ,4
ゴム足 ,4
⑥
⑦
S3×12 Fe,Ni,4
固定金具
Fixtures
BNK3×6Fe,Ni,4
⑦⑥
固定金具
Fixtures
ALOKA CO.,LTD.
MS5-1034
- 9 -
⑧ 記録装置を本体前方より挿入し、固定金具に
合わせて後方をねじ1本で固定する。
⑧ Put the printer unit from the front of
main body, then fasten with 1 screw.
4-2. MO の取り付け方法 4-2. Installation of MO
① MO と AC アダプタにデュアルロックファスナを貼り
付ける。AC アダプタを MOに接続する。
① Paste the dual-lock fastener on the MO
and AC adapter, connect the AC
adapter to the MO.
デュアルロックファスナ
Dual-lock fastener
ケーブル
Cable
AC アダプタ
AC adapter
MO
①
固定金具
Fixture
プリンタ
PRINTER
BNK3×6 Fe,Ni,1
ALOKA CO.,LTD.
MS5-1034
- 10 -
白黒プリンタと MO を取り付ける場合
In case of Install the
black and white printer and MO
② ブラインド板(上段)を、ねじ 2 本を外して取
り外す。
② Remove the 2 screws, then remove the
blind cover (upper).
③ 2 枚重なっているブラインド板の内側の
ブラインド板をねじ 2 本で取り付ける。
③Install the inside one from a double blind
covers by 2 screws
④ MO を記録装置の上に貼り付ける。
④ Put the MO onto the printer.
BNK3×8 Fe,Ni,2
取り付けるブラインド板
Blind Cover
③
MO
④
BNK3×8 Fe,Ni,2
Blind Cover
(upper)
ブラインド板
②
ALOKA CO.,LTD.
MS5-1034
- 11 -
MO のみを取り付ける場合
In case of Install the MO
② ブラインド板(上段、下段)を、ねじ4 本を外
して取り外す。
② Remove the 4 screws, then remove the
blind covers(upper and lower).
③ 2 枚重なっているブラインド板(上段)の内側
のブラインド板を、ねじ 2本で下段に取り付ける。
ブラインド板(下段)を、上段にねじ 2 本で取
り付ける。
④ Install the inside one from a double blind
covers (upper) to lower part by 2 screws.
Install the blind cover(lower) to upper
part by 2 screws.
④ MO を、図の位置に貼り付ける。
⑤ Put the MO onto the position of picture.
MO ④
BNK3×8 Fe,Ni,4
ブラインド板
②
Blind Covers
BNK3×8 Fe,Ni,4
③
Blind Covers
ブラインド板
ALOKA CO.,LTD.
MS5-1034
- 12 -
Rev.01
ケーブルの接続方法
Cable Connection Procedure
⑤ MO に SCSI ケーブルを接続する。
⑤ Connect the SCSI cable to the MO.
⑥ AC アダプタを図の位置に貼り付け電源ケーブ
ルを接続する。
ケーブル類をクランプする。
⑥Fix an AC adapter onto the position of
picture, then connect power cable.
Clamp the cables.
4-3.中間棚への記録装置の取り付け方法 4-3.Installation of Recorder to the
intermediate rack.
SVO-9500,CP-700/-900 の場合
In case of SVO-9500 and CP-700/-900
① カバーBを、ねじ4本を外して取り外す。
① Remove 4 screws and remove cover B.
SCSI ケーブル
SCSI cable
⑤
AC アダプタ
AC adapter
電源ケーブル
Power cable
⑥
BNK3×8 Fe,Ni,4
A B C①
ALOKA CO.,LTD.
MS5-1034
- 13 -
Rev.02
SVO-9500 の場合
In case of SVO-9500
② 中間棚の指定の位置に固定金具を置く。
②Mount the fixtures on the designated
position of the intermediate rack.
CP-700 の場合
In case of CP-700
②CP-700 のゴム足 4 個を外し中間棚の指定
の位置に固定金具を置く。
②Remove the 4 rubber feet on CP-700
then, mount the fixtures on the
designated position of the intermediate
rack.
CP-900 の場合
In case of CP-900
②CP-900 のゴム足 6 個を外し,中間棚の指定
の位置に固定金具を置く。
② Remove the 6 rubber feet on CP-900
then, mount the fixtures on the
designated position of the intermediate
rack.
②
②
②
ALOKA CO.,LTD.
MS5-1034
- 14 -
Rev.02
SSZ-707,AG7350E の場合
In case of SSZ-707 and AG7350E
① カバーA,B,C を、ねじ 8 本を外して取り外す。
① Remove the 8 screws and remove
cover A, cover B and cover C.
SSZ-707 の場合
In case of SSZ-707
② 中間棚の指定の位置に固定金具を置く。
②Mount the fixtures on the designated
position of the intermediate rack.
AG-7350E の場合
In case of AG-7350E
② 中間棚の指定の位置に固定金具を置く。
②Mount the fixtures on the designated
position of the intermediate rack.
BNK3×8 Fe,Ni,8
①
A B C
②
②
ALOKA CO.,LTD.
MS5-1034
- 15 -
Rev.00
SSZ-709 の場合
In case of SSZ-709
① カバーA,B,を、ねじ 6 本を外して取り外す。
① Remove both the cover A and cover B
by removing 6 screws.
プリンタケーブル、電源ケーブルを通した
後、カバーB を固定する。
Fix the cover B to original position after
letting both the cables of a printer and a
power pass into an open space.
② 中間棚の指定の位置に固定金具を置く。
② Fix the fixtures at the designated
position of the intermediate rack.
BNK3×8 Fe,Ni,6
①
A B
②
ケーブル
Cable
B
BNK3×8 Fe,Ni,4
ALOKA CO.,LTD.
MS5-1034
- 16 -
Rev.02
③ 固定金具を、ねじ 4 本で固定する。
※S3×6 Fe,Ni のねじ以外は使用不可。
③ Fasten the fixtures with 4 screws.
※Don’t use it except for the screw of
S3×6 Fe,Ni.
④ リアカバー(小)を、ねじ 4 本を外して取り外す。
④ Remove the 4 screws and remove
rear cover(small).
固定金具
Fixtures
※S3×6 Fe,Ni,4
③
④
Rear Cover
(small)
リアカバー
BNK3×8 Fe,Ni,4
ALOKA CO.,LTD.
MS5-1034
- 17 -
Rev.02
⑤ 記録装置のねじ 4 本を取り外す。
※AG7350E は、⑤の作業は不要。
⑤ Remove the 4 screws from the recorder.
※AG7350E doesn’t do the work of ⑤.
⑥ 記録装置にケーブルを接続し、ケーブルを角
穴に通す。
⑥ Connect the cables and pass the cables
through a quadrangle hole.
⑦ 記録装置を、ねじ 4 本で固定する。
※使用するねじについては以下を参照のこと。
SSZ-707/-709, SVO-9500
‥‥BNK3×10 Fe,Ni,4
CP-700/-900,AG7350E‥‥
BNK4×12Fe,Ni,4
⑥ Fix the recorder unit with 4 screws.
※Refer to the following for 4 screw to use.
SSZ-707/-709, SVO-9500
‥‥BNK3×10 Fe,Ni,4
CP-700/-900,AG7350E‥‥
BNK4×12Fe,Ni,4
Screw, 4
ねじ,4⑤
⑥
※BNK3×10 Fe,Ni,4
or BNK4×12Fe,Ni,4
⑦
ALOKA CO.,LTD.
MS5-1034
- 18 -
Rev.02
⑧ ケーブルを、接栓 BOX(JB-263)に接続する。
⑧ Connect the cables to connector
box(JB-263).
⑨ リアカバー小を、ねじ 4 本で取り付ける。
⑨ Install the small rear cover with 4
screws.
Rear Cover
(small)
⑨
BNK3×8 Fe,Ni,4
リアカバー
JB-263⑧
ALOKA CO.,LTD.
MS5-1034
- 19 -
固定金具Fixtures
①
BNK3×6 Fe,Ni,4
Rev.02
4-4.天板への記録装置の取り付け方法 4-4.Installation of Recorder on the top rack
CP-700,SSZ-707/-709 の場合
In case of CP-700 and SSZ-707/-709
① 固定金具を、ねじ 4 本で結合する。
①Join the fixtures with the 4 screws.
CP-700 の場合
In case of CP-700
②CP-700 のゴム足 4 個を取り外し、指定の
位置に固定金具を置く。
②Remove the 4 rubber feet on CP-700 then, mount
the fixtures on the designated position of the
intermediate rack.
SSZ-707 の場合
In case of SSZ-707
② 指定の位置に固定金具を置く。
② Mount the fixtures on the designated
position of the top rack.
②
②
ALOKA CO.,LTD.
MS5-1034
- 20 -
Rev.02
SSZ-709 の場合
In case of SSZ-709
② 指定の位置に固定金具を置く。
② Mount the fixtures on the designated
position of the top rack.
SVO-9500 の場合
In case of SVO-9500
② 指定の位置に固定金具を置く。
② Mount the fixtures on the designated
position of the top rack.
CP-900 の場合
In case of CP-900
②CP-900 のゴム足 6 個を取り外し,指定の位
置に固定金具を置く。
② Remove the 6 rubber feet on CP-900 then, mount
the fixtures on the designated position of the
intermediate rack.
③ 固定金具を、ねじ 4 本で固定する。
③ Fasten the fixtures with the 4 screws.
②
S3×6 Fe,Ni,4
③
ュ
固定金具
Fixtures
②
②
ALOKA CO.,LTD.
MS5-1034
- 21 -
Rev.02
④ リアカバーを、ねじ 4 本を外して取り外す。
④ Remove the 4 screws and remove
rear cover.
⑤ 記録装置のねじ 3 本を取り外す。
⑤ Remove the 3 screws from the recorder.
⑥ 記録装置を、ねじ 3 本で固定する。
※使用するねじについては以下を参照のこと。
SSZ-707/-709, SVO-9500‥‥
BNK3×10 Fe,Ni,3
CP-700/-900,AG7350E‥‥
BNK4×12Fe,Ni,3
⑥ Fix the recorder with 3 screws.
※Refer to the following for 3 screw to use.
SSZ-707/-709, SVO-9500‥‥
BNK3×10 Fe,Ni,3
CP-700/-900,AG7350E‥‥
BNK4×12Fe,Ni,3
Screw ,3
ねじ,3
⑤
※ BNK3 × 10Fe,Ni,3
or BNK4×12Fe,Ni,3
⑥
Rear Cover
リアカバー
BNK3×8 Fe,Ni,4
④
ALOKA CO.,LTD.
MS5-1034
- 22 -
Rev.02
⑦ 記録装置にケーブルを接続し、ケーブルを角
穴に通す。
⑦ Connect the cables to recorder, and
pass the cables through a quadrangle
hole.
⑧ ケーブルをリアカバーの切り欠きに通し、ね
じ 4 本で取り付ける。
⑧Pass the cables through a lack of rear
cover, install the rear cover fasten with
4 screws.
⑨ ケーブルを、接栓 BOX(JB-263)に接続する。
⑨ Connect the cables to connector
box(JB-263)
⑦
JB-263⑨
BNK3×8 Fe,Ni,4
リアカバー
Rear Cover
⑧
ALOKA CO.,LTD.
MS5-1034
- 23 -
Rev.01
4-5. ケーブルの接続方法 4-5. Cable Connection Procedure.
ケーブルの接続方法
Cable Connection Procedure
① 下記の配線表に従い、記録装置に配線を行う。
① Carry out wiring in accordance to recorder with wiring chart given below.
記録装置 Recorder SSD-4000RGB
IN PUT
SYNCREMOTE
J31COLOR PRINTER
接栓板
Connector panelSSZ-707/-709
~ AC IN J854COLOR PRINTER AC outlet [JB-260/261]
RG/G+SYNC
BIN PUT
H+V-SYNCREMOTE
J31COLOR PRINTER
接栓板
Connector panelCP-700/-900
~ AC LINE J854COLOR PRINTER AC outlet [JB-260/261]
VIDEO IN J12B/W VIDEO OUT
REMOTE J32PRINT CONTROL
接栓板
Connector panelSSZ-307/-309
~ AC IN J853PRINTER
AC outlet [JB-260/261]
VIDEO IN J12B/W VIDEO OUT
REMOTE J32PRINT CONTROL
接栓板
Connector panelP91
~ AC LINE J853PRINTER
AC outlet [JB-260/261]
VIDEO IN J10VIDEO IN S VIDEO J13 VIDEO OUT
VIDEO OUT J11VIDEO OUT S VIDEO J14 VIDEO IN
CH-1 CH-1 J21AUDIO IN
CH-2 CH-2 J23AUDIO
OUTCH-1 CH-1 J20
AUDIO OUTCH-2 CH-2 J22
AUDIOIN
REMOTE J30VCR CTRL
接栓板
Connector panelSVO-9500
~ AC IN J855VCR
AC outlet [JB-260/261]
VIDEO IN J10S1 VIDEO IN J13 VIDEO OUT
VIDEO 2 OUT J11S1 VIDEO OUT J14 VIDEO IN
CH-1 CH-1 J21AUDIO IN CH-2 CH-2 J23AUDIO
OUTCH-1 CH-1 J20AUDIO OUT CH-2 CH-2 J22
AUDIOIN
接栓板
Connector panelAG-7350E
~ AC IN J855 AC outlet [JB-260/261]
ALOKA CO.,LTD.
MS5-1034
- 24 -
Rev.02
4-6. カバーの取り付け方法 4-6. Mounting of Covers.
① カバーの取り外し方法と逆の手順で、カバーを取り付ける。
① Install the cover with the reverse of the cover removal method.
5 .ケーブル固定方法 5 .F i x i n g t h e p o w e r c a b l e .
ケーブル固定方法
Fixing the power cable
①電源ケーブル差込後、ストッパでロックする。
① Lock the power cable with lock fittings.
ALOKA CO.,LTD.
MS5-1038
- 1 -
Rev.03
UCW-4000 据付要領書
INSTALLATION PROCEDURES
SSD-4000 用連続波ドプラユニット
Doppler unit for SSD-4000
この据付要領書は、UCW-4000 の納品等の際、据付の資料としてご使用ください。
必要な工具:プラスドライバ、スタビドライバ(あらかじめ用意すること)
※ UCW-4000[EP444200]の作業を行うには、EU-9082[EP444100]が組み込まれ
ている事が必要です。
These installation procedures are provided for reference in installation of UCW-4000.
Tool required : Phillips screw driver , Stabilizing screw driver( Provide it beforehand )
※ It is necessary for installation of UCW-4000[EP444200]
to install EU-9082[EP444100].
注意
■ 装置の据付作業は、有資格者に限られる。
■ 装置を設置する場所の環境条件および電源設備は、取扱説明書の記載条件による。
C A U T I O N
■ This system must be installed only by the qualified personnel.
■ The environmental conditions for the place of installation of the SSD-4000
system and the specifications of the power supply must satisfy the requirements
stated in the operator’s manual.
Total Page :5
ALOKA CO.,LTD.
MS5-1038
- 2 -
Rev.03
付属品リスト L i s t o f A c c e s s o r y P a r t s
下記の付属品が揃っているか確認してください。Check to assure all the below-listed accessory parts to have been included in the shipping
case.
No.品 名
Parts Name
外 観
Appearance
個 数
Quantity
1
UCW-4000
PC 板
EP444200
UCW-4000
PC board
EP444200
1
目次 C O N T E N T S
1. カバーの取り外し方法 1. Removing of Covers
2. PC 板の取り付け方法 2. Mounting of PCB
3. 動作確認 3. Confirmation of the work
4. カバーの取り付け方法 4. Mounting of Covers
ALOKA CO.,LTD.
MS5-1038
- 3 -
Rev.01
1 .カバーの取り外し方法 1 .R e m o v i n g o f C o v e r s
右サイドカバーの取り外し方法
Removing of Right Side Cover
① 右サイドカバーを、ねじ3本を緩めて取り外
す。
① Loosen 3 screws and remove right side
cover.
シールド板の取り外し方法
Removing of Shield Cover
② シールド板を、ねじ 18 本を外して取り外す。
② Remove 18 screws and remove shield
cover.
BNK3×8 Fe,Ni,3
右サイドカバー
Right side cover
BNK3×8 Fe,Ni,18
シールド板
Shield Cover
①
②
ALOKA CO.,LTD.
MS5-1038
- 4 -
Rev.02
2 .P C 板の取付け方法 2 .I n s t a l l t h e P C B
PC 板の取付け方法
Install the PCB
① PC 板[EP443700]または[EP463900]
を抜く。
① Remove the PCB[EP443700] or
[EP463900].
② PC 板[EP444200]を差し込む。
②Insert the PCB[EP444200].
①
EP443700 or EP463900
②
EP444200
ALOKA CO.,LTD.
MS5-1038
- 5 -
Rev.02
3 .動作確認 3 .C o n f i r m a t i o n o f t h e w o r k
①UST-5298 あるいは UST-5299 を接続し, B/D(CW)画像が表示されることを確認する。
① Connect UST-5298 or UST-5299 to the device, Confirm that a B/D (CW) mode image is indicated.
4 .カバーの取り付け方法 4 .M o u n t i n g o f C o v e r s
① PC 板[EP443700]または[EP463900]を取り付ける。
② カバーの取り外し方法と逆の手順で、カバーを取り付ける。
①Mount the PCB [EP443700] or [EP463900].
②Install the cover with the reverse of the Removing of Covers.
ALOKA CO.,LTD.
MS5-1037
- 1 -
Rev.01
EU-9082 据付要領書
INSTALLATION PROCEDURES
SSD-4000 用ハーモニックエコーユニット
Harmonic Echo Unit for SSD-4000
この据付要領書は、EU-9082 の納品等の際、据付の資料としてご使用ください。
必要な工具:プラスドライバ、スタビドライバ(あらかじめ用意すること)
These installation procedures are provided for reference in installation of EU-9082.
Tool required : Phillips screw driver , Stabilizing screw driver( Provide it beforehand )
注意
■ 装置の据付作業は、有資格者に限られる。
■ 装置を設置する場所の環境条件および電源設備は、取扱説明書の記載条件による。
C A U T I O N
■ This system must be installed only by the qualified personnel.
■ The environmental conditions for the place of installation of the SSD-4000
system and the specifications of the power supply must satisfy the requirements
stated in the operator’s manual.
Total Page :6
ALOKA CO.,LTD.
MS5-1037
- 2 -
Rev. 01
付属品リスト L i s t o f A c c e s s o r y P a r t s
下記の付属品が揃っているか確認してください。Check to assure all the below-listed accessory parts to have been included in the shipping
case.
No.品 名
Parts Name
外 観
Appearance
個 数
Quantity
1
EU-9082
PC 板
EP444100
EU-9082
PC board
EP444100
1
2
PHD銘板
PHD label1
ALOKA CO.,LTD.
MS5-1037
- 3 -
Rev.01
目次 C O N T E N T S
1. カバーの取り外し方法 1. Removing of Covers
2. PC 板の取り付け方法 2. Mounting of PCB
3. 動作確認 3. Confirmation of the work
4. カバーの取り付け方法 4. Mounting of Covers
ALOKA CO.,LTD.
MS5-1037
- 4 -
1 .カバーの取り外し方法 1 .R e m o v i n g o f C o v e r s
右サイドカバーの取り外し方法
Removing of Right Side Cover
① 右サイドカバーを、ねじ3本を緩めて取り外
す。
① Loosen 3 screws and remove right side
cover.
シールド板の取り外し方法
Removing of Shield Cover
② シールド板を、ねじ 18 本を外して取り外
す。
② Remove 18 screws and remove shield
cover.
BNK3×8 Fe,Ni,3
右サイドカバー
Right Side Cover
BNK3×8 Fe,Ni,18
シールド板
Shield cover
ALOKA CO.,LTD.
MS5-1037
- 5 -
Rev.01
2 .P C 板の取付け方法 2 .I n s t a l l t h e P C B
PC 板の取付け方法
Install the PCB
① PC 板[EP443700]または[EP463900]
を抜く。
① Remove the PCB[EP443700] or
[EP463900].
② PC 板[EP450000]を抜き、同じスロット
へ PC 板[EP444100]を差し込む。
② Remove the PCB[EP450000], then
insert the PCB[EP444100] into the
same slot.EP450000
EP444100
EP443700 or EP463900
①
②
②
ALOKA CO.,LTD.
MS5-1037
- 6 -
Rev.03
PHD ラベルの貼付け方法
Put PHD Label
③パネルに PHD 銘板を貼り付ける。
③Put a PHD label onto panel.
3 .動作確認 3 .C o n f i r m a t i o n o f t h e w o r k
① UST-9123 あるいは、UST-5299 接続し、“Tissue Harmonic Imaging”の画像が
表示されることを確認する。
① UST-9123 or UST-5299 is connected and
Confirm that the image of “Tissue Harmonic Imaging” is indicated.
4 .カバーの取り付け方法 4 .M o u n t i n g o f C o v e r s
①PC 板[EP443700]または[EP463900]を取り付ける。
②カバーの取り外し方法と逆の手順で、カバーを取り付ける。
①Mount the PCB [EP443700] or [EP463900].
②Install the cover with the reverse of the Removing of Covers .
ラベル
Label
ALOKA CO.,LTD.
MS5-1039
- 1 -
Rev.01
PEU-4000 据付要領書
INSTALLATION PROCEDURES
SSD-4000 用生体信号ユニット
Physiological signal unit for SSD-4000
この据付要領書は、PEU-4000 の納品等の際、据付の資料としてご使用ください。
必要な工具:プラスドライバ、スタビドライバ、ボックスレンチ(あらかじめ用意すること)
These installation procedures are provided for reference in installation of PEU-4000.
Tool required : Phillips screw driver , Stabilizing screw driver, Nut driver with handle
( Provide it beforehand )
注意
■ 装置の据付作業は、有資格者に限られる。
■ 装置を設置する場所の環境条件および電源設備は、取扱説明書の記載条件による。
CAUTION
■ This system must be installed only by the qualified personnel.
■ The environmental conditions for the place of installation of the PEU-4000
system and the specifications of the power supply must satisfy the requirements
stated in the operator’s manual.
Total Page : 16
ALOKA CO.,LTD.
MS5-1039
- 2 -
Rev.01
付属品リスト List of Accessory Parts
下記の付属品が揃っているか確認してください。
Check to assure all the below-listed accessory parts to have been included in the shipping case.
No.品 名
Parts Name
外 観
Appearance
個 数
Quantity
1
生体パネルユニット
(EU-5044)
Physiology unit
(EU-5044)
1
2
PC板
EP446800
PC board
EP446800
1
3ECG誘導コード
ECG signal cord
1
4
心電図クリップ電極
(SEC141)
Electrocardiograph clip electrode
(SEC141)
1
6
コントロールパネル
(EP453600)
Control Panel
(EP453600)
1
7
カバー
cover
1
8BNK3×8 Fe,Ni
2
9BNK4×8 Fe,Ni
2
10
絶縁表示銘板
(P-3223-UL)
Isolated Label
(P-3223-UL)
1
One set of four
L-CABLE-674 L-CABLE-675 L-CABLE-676
ALOKA CO.,LTD.
MS5-1039
- 3 -
Rev.01
目次 CONTENTS
1. カバーの取り外し方法 1. Removing of Covers
2. PEU-4000 の取り付け方法 2. Mounting of PEU-4000
3. カバーの取り付け方法 3. Mounting of Covers
4. 操作パネルの取り外し方法 4. Removing of Operation Panel
5. コントロールパネルの取り付け方法 5. Mounting of Control Panel
6. 動作確認 6. Confirmation of the work
7. カバーの取り付け方法 7. Mounting of Covers
ALOKA CO.,LTD.
MS5-1039
- 4 -
1 .カバーの取り外し方法 1 .Removing of Covers
右サイドカバーの取り外し方法
Removing of Right Side Cover
① 右サイドカバーを、ねじ3本を緩めて取り外す。
① Loosen 3 screws and remove right side
cover.
右上サイドカバーの取り外し方法
Removing of Upper Right Side Cover
② ねじ 2 本を外す。
② Remove 2 screws.
BNK3×8 Fe,Ni,3
右サイドカバー
Right Side Cover
Upper Right Side Cover
BNK3×8 Fe,Ni,2
右上サイドカバー
①
②
ALOKA CO.,LTD.
MS5-1039
- 5 -
③ 右上サイドカバー下部を少し持ち上げて下に
抜き取る。
③ Lift up the lower section of the upper
right side cover a bit and remove it.
④ カバーを、ねじ 4 本を外して取り外す。
④Remove 4 screws and remove cover.
BNK3×8 Fe,Ni,4
③
④
ALOKA CO.,LTD.
MS5-1039
- 6 -
シールド板の取り外し方法
Removing of Shield Cover
⑤ シールド板を、ねじ 18 本を外して取り外す。
⑤ Remove 18 screws and remove shield
cover.
リアカバー小の取り外し方法
Removing of Small Rear Cover
⑥ リアカバー小を、ねじ4本を外して取り外す。
⑥ Remove 4 screws and remove small
rear cover.
BNK3×8 Fe,Ni,18
Shield Cover
シールド板
BNK3×8 Fe,Ni,4
⑤
⑥
ALOKA CO.,LTD.
MS5-1039
- 7 -
左サイドカバーの取り外し方法
Removing of Left Side Cover
⑦ 左サイドカバーを、ねじ3本を緩めて取り外
す。
⑦Loosen 3 screws and remove left side
cover.
BNK3×8 Fe,Ni,3⑦
ALOKA CO.,LTD.
MS5-1039
- 8 -
2 .PEU-4000 の取付け方法 2 .Mounting of PEU-4000
PEU-4000 の取付け方法
Mounting of PEU-4000
① PC 板[EP446800] 1 枚を USM-25 ユニット
に差し込む。
① Insert the PCB[EP446800] for the
USM-25 unit.
② ケーブル 2 本を、本体内部のケーブル穴に通
す。
② Install the unit and pass 2 cables
through the hole of this inside of main
body.
生体ユニット
Physio unit
USM-25 unit
USM-25 ユニット
ラベル
[EP-4468]
Label
[EP-4468]
ケーブル
Cables
①
②
ALOKA CO.,LTD.
MS5-1039
- 9 -
③ さらに、ケーブル 2 本を、本体内部のケーブ
ル通し穴に通す。
③ Pass 2 cables through a hole of this
inside of the main body.
④ 信号ケーブル[CO-EU-4000-B-04C5]を
接栓部の J821 に接続する。
⑤ 電源ケーブル[CO-EU-4000-A-04C5]を
接栓部の J70 に接続する。
④ Connect a signal cable [CO-EU-4000-
B-04C5] to J821.
⑤ Connect a power cable [CO-EU-
4000-A-04C5] to J70.
J821
J70
③
④
⑤
ALOKA CO.,LTD.
MS5-1039
- 10 -
⑥ 生体ユニットは、①項で外したねじ2本で
取り付ける。
⑥Fix the unit with 2 screws
removed in Step ①.
⑦右上サイドカバーに絶縁表示銘板
(P-3223-UL)を貼り付ける。
⑦ Put an label for isolated matter(P-
3223-UL) at upper right side cover.
BNK3×8 Fe,Ni,2
P-3223-UL
右上サイドカバー
Upper Right Side Cover
⑥
⑦
ALOKA CO.,LTD.
MS5-1039
- 11 -
3 .カバーの取り付け方法 3 .Mounting of Covers
①カバーの取り外し方法と逆の手順で、カバーを取り付ける。
①Install the cover with the reverse of Removing of covers.
ALOKA CO.,LTD.
MS5-1039
- 12 -
4 .操作パネルの取り外し方法 4 .Removing of Operation Panel
操作パネルの取り外し方法
Removing of Operation Panel
① ねじ 1 本を外す。
① Remove 1 screw.
② 操作パネルの前部を持ち上げる。
ステーをクランプから外し、ステーを立てて
固定する。
② Lift up the front section of the
operation panel.
Remove the clamp, stand up the stay,
and fasten.
Operation Panel
BNK3×12 Fe,Ni,1
操作パネル
ステー
Stay
①
②
ALOKA CO.,LTD.
MS5-1039
- 13 -
Rev.01
③ 操作パネル左側のカバーを、ナット 2 本を
外して取り外す。
③Remove 2 nut and remove left side
cover of operation panel.
カバー
Cover
N3 Fe,Ni,2③
ALOKA CO.,LTD.
MS5-1039
- 14 -
5 .コントロールパネルの取付け方法 5 .Mounting of Control Panel
コントロールパネルの取付け方法
Mounting of Control Panel
① コントロールパネル[EP453600]を、ねじ
2本で取り付ける。
① Fix the control panel [EP453600]
with 2 screws.
②カバーを、ねじ2本で取り付ける。
② Fix the cover with 2 screws.
注.ツマミが当たらぬ様に、カバーの位置を調
整すること。
NOTE:Adjust the position of the cover so
that a knob may not hit it.
カバー
Cover
BNK3×8 Fe,Ni,2
BNK4×8 Fe,Ni,2
①
②
ALOKA CO.,LTD.
MS5-1039
- 15 -
③信号ケーブルをパネル部の J413 に取り付ける。
③ Connect a signal cable to J413 of
operation panel.
③
J413
ALOKA CO.,LTD.
MS5-1039
- 16 -
Rev.01
6 .動作確認 6 .Confirmation of the work
① ECG 電極コード、心音マイク、脈波トランスデューサを接続し
ECG, PCG, PLUSE 波形が表示されることを確認する。
① Connect the ECG electrode code, heart sound microphone and pulse wave
transducer and confirm that ECG, PCG and PLUSE wave form are indicated.
7 .カバーの取り付け方法 7 .Mounting of Covers
①カバーの取り外し方法と逆の手順で、カバーを取り付ける。
①Install the cover with the reverse of Removing of covers.
ALOKA CO.,LTD.
MS5-1047
- 1 -
EU-9083 据付要領書
INSTALLATION PROCEDURES
SSD-4000 用データ管理ユニット [VCM]
本ユニットを接続すると、下記の機能が使用可能になります。
・ループ画像の取り込み
・ループ画像のシネサーチ及びループ再生
・Store on disk(Multi frame)
・Send to storage(Multi frame)
・2 画面/4 画面分割表示
Data Management Unit [VCM] for SSD-4000.
By using this unit, the following functions are available.
・Acquirement of loop image.
・Image search and Loop play back function.
・Store on disk(Multi frame)
・Send to storage(Multi frame)
・Split and Quad windows display.
この据付要領書は、EU-9083 の納品等の際、据付の資料としてご使用ください。
必要な工具:プラスドライバー、スタビドライバー(あらかじめ用意すること)
These installation procedures are provided for reference in installation of EU-9083.
Tool required : Phillips screw driver , Stabilizing screw driver( Provide it beforehand )
注意
■ 装置の据付作業は、有資格者に限られる。
■ 装置を設置する場所の環境条件および電源設備は、取扱説明書の記載条件による。
■ 探触子の接続は、取扱説明書を参照すること。
■ 指定された機種以外のオプション機器は、取り付けしないこと。
C A U T I O N
■ This system must be installed only by the qualified personnel.
■ The environmental conditions for the place of installation of the SSD-4000
system and the specifications of the power supply must satisfy the requirements
stated in the operator’s manual.
■ See the operator’s manual for the connection of the probe.
■ Do not install optional equipment of other models.
Total Page :5
ALOKA CO.,LTD.
MS5-1047
- 2 -
付属品リスト L i s t o f A c c e s s o r y P a r t s
下記の付属品が揃っているか確認してください。Check to assure all the below-listed accessory parts to have been included in the shipping
case.
No.品 名
Parts Name
外 観
Appearance
個 数
Quantity
1
PC 板
EP447000
PC board
EP447000
1
目次 C O N T E N T S
1. カバーの取り外し方法 1. Removing of Covers
2. PCB の取り付け方法 2. Installation of PCB
3. 動作確認 3. Confirmation of the work
4. カバーの取り付け方法 4. Mounting of Covers
ALOKA CO.,LTD.
MS5-1047
- 3 -
1 .カバーの取り外し方法 1 .R e m o v i n g o f C o v e r s
右サイドカバーの取り外し方法
Removing of Right Side Cover
① 右サイドカバーを、ねじ3本を緩めて取り外す。
① Loosen 3 screws and remove right side
cover.
シールド板の取り外し方法
Removing of Shield Cover
① シールド板を、ねじ 18 本を外して取り外す。
① Remove 18 screws and remove shield cover.
BNK3×8 Fe,Ni,3
右サイドカバー
Right Side Cover
BNK3×8 Fe,Ni,18
シールド板
Shield cover
①
①
ALOKA CO.,LTD.
MS5-1047
- 4 -
2 .P C B の取り付け方法 2 .I n s t a l l a t i o n o f P C B
PCB の取付け方法
Installation of PCB
① 左隣 PC 板[EP446700]を半分引き出す。
(PC 板[EP447000]のメモリカードがぶつかる為)
② PC 板[EP447000]を差し込む。
③ EP446700 を差し込む
① Draw half of the left neighbor PC
boards [EP446700].
② Insert PC board [EP447000] in the
image memory unit.
③ Insert the EP446700.
3 .動作確認 3 .C o n f i r m a t i o n o f t h e w o r k
①VCM機能が正常に動作することを確認する。
①Confirm the VCM function works normally.
EP446700
EP447000
映像記憶ユニット
Image memory unit
①
②
③
ALOKA CO.,LTD.
MS5-1047
- 5 -
4 .カバーの取り付け方法 4 .M o u n t i n g o f C o v e r s
①カバーの取り外し方法と逆の手順で、カバーを取り付ける。
①Install the cover with the reverse of the Removing of Covers .
ALOKA CO.,LTD.
MS5-1048
- 1 -
EU-9084 据付要領書
INSTALLATION PROCEDURES
SSD-4000 用 VOL モード対応ユニット
Volume mode unit for SSD-4000.
この据付要領書は、EU-9084 の納品等の際、据付の資料としてご使用ください。
必要な工具:プラスドライバー、スタビドライバー(あらかじめ用意すること。)
These installation procedures are provided for reference in installation of EU-9084.
Tool required : Phillips screw driver , Stabilizing screw driver( Provide it beforehand )
注意
■ 装置の据付作業は、有資格者に限られる。
■ 装置を設置する場所の環境条件および電源設備は、取扱説明書の記載条件による。
■ 探触子の接続は、取扱説明書を参照すること。
■ 指定された機種以外のオプション機器は、取り付けしないこと。
C A U T I O N
■ This system must be installed only by the qualified personnel.
■ The environmental conditions for the place of installation of the SSD-4000
system and the specifications of the power supply must satisfy the requirements
stated in the operator’s manual.
■ See the operator’s manual for the connection of the probe.
■ Do not install optional equipment of other models.
Total Page :8
ALOKA CO.,LTD.
MS5-1048
- 2 -
付属品リスト L i s t o f A c c e s s o r y P a r t s
下記の付属品が揃っているか確認してください。Check to assure all the below-listed accessory parts to have been included in the shipping
case.
No.品 名
Parts Name
外 観
Appearance
個 数
Quantity
1
PC 板
EP446900
PC board
EP446900
1
2
補強板
Reinforcement board 1
3
付属ねじ
(BNK3×8Fe,Ni)
Accessory screws
(BNK3×8Fe,Ni)
2
4
銘板
P-32-SSD1700-6
Label
P-32-SSD1700-6
1
5
ケーブル
L-CABLE-584-60
Cable
L-CABLE-584-60
1
6
コア
SFT-72S
Core
SFT-72S
1
ALOKA CO.,LTD.
MS5-1048
- 3 -
目次 C O N T E N T S
1. カバーの取り外し方法 1. Removing of Covers
2. PCB の取り付け方法 2. Installation of PCB
3. 動作確認 3. Confirmation of the work
4. カバーの取り付け方法 4. Mounting of Covers
5. 付属品の貼り付け方法 5. Installation of accessories
EU-9084 組み込む前に、SSD-4000 の SN を確認して下さい。
本ユニットは SSD-4000 本体 SN M00201 以降について有効です。
Before installing EU-9084, please confirm serial numbers of SSD-4000.
This unit is applicable to the serial number of M00201 onward.
ALOKA CO.,LTD.
MS5-1048
- 4 -
1 .カバーの取り外し方法 1 .R e m o v i n g o f C o v e r s
右サイドカバーの取り外し方法
Removing of Right Side Cover
① 右サイドカバーを、ねじ3本を緩めて取り外す。
① Loosen 3 screws and remove right side
cover.
左サイドカバーの取り外し方法
Removing of Left Side Cover
① 左サイドカバーを、ねじ3本を緩めて取り外す。
① Loosen 3 screws and remove left side cover.
BNK3×8 Fe,Ni,3
右サイドカバー
Right Side Cover
BNK3×8 Fe,Ni,3
左サイドカバー
Left Side Cover
①
①
ALOKA CO.,LTD.
MS5-1048
- 5 -
フロントカバーの取り外し方法
Removing of Front Cover
① フロントカバーをねじ4本緩めて取り外す。
① Loosen 4 screws and remove front cover.
シールド板の取り外し方法
Removing of Shield Cover
① シールド板を、ねじ 18 本を外して取り外す。
① Remove 18 screws and remove shield cover.
BNK3×8 Fe,Ni,18
シールド板
Shield cover
フロントカバー
BNK3×8 Fe,Ni,4
Front Cover
①
①
ALOKA CO.,LTD.
MS5-1048
- 6 -
2 .P C B の取付け方法 2 .I n s t a l l a t i o n o f P C B
映像記憶ユニット
PCB の取付け方法
Installation of PCB
① PC 板[EP446900]を映像記憶ユニットに
差し込む。
① Insert the PC board [EP446900] in the
image memory unit.
補強板の取り付け方法
Installation of the reinforcement board
①ねじ 2 本外して目隠し板を取り外す。
②ねじ 2 本外す。
(ねじ 4 本、目隠し板は今後不要)
① Remove 2 screws, and remove the
blindfold board.
② Remove 2 screws.
(4 screw and the blindfold board will be
unnecessary from now on.)
EP446900
①
目隠し板Blindfold board
①
②
ALOKA CO.,LTD.
MS5-1048
- 7 -
③ 補強板をねじ 2 本で取り付ける。
※補強板取り付け注意
六角支柱にコネクタのねじを締めるため
補強板の穴が六角支柱に合うように取付ける。
③ Fix the reinforcement board with 2 screws.
※Reinforcement board installation attention
Install it so that the hole of the reinforcement board
may be suitable for the hexagon support. Because the
screw of the connector is tightened in the hexagon
support.
3 .動作確認 3 .C o n f i r m a t i o n o f t h e w o r k
①プローブとケーブル[L-CABLE-584-60]を接続する。
②VOL機能が正常に動作することを確認する。
③プローブとケーブル[L-CABLE-584-60]を外す。
① Connect the cable “L-CABLE-584-60” with the probe.
② Confirm the Volume mode function works normally.
③ Disconnect the cable “L-CABLE-584-60” from the probe.
補強板
Reinforcement
board
BNK3×8Fe,Ni,2
六角支柱
Hexagon support
補強板の穴
Hole of reinforcement
board
③※注意 Attention
ALOKA CO.,LTD.
MS5-1048
- 8 -
4 .カバーの取り付け方法 4 .M o u n t i n g o f C o v e r s
①カバーの取り外し方法と逆の手順で、カバーを取り付ける。
①Install the cover with the reverse of the Removing of Covers .
5 .付属品の取り付け方法 5 .I n s t a l l a t i o n o f a c c e s s o r i e s
前カバー /front cover ラベルの貼り付け方法
Paste the label
① 図を参考にラベルを貼る。
① Put the label referring to the figure.
拡大図 /Expansion figure
コアの取付け方法
Installation of core
① ケーブルをプローブに取り付け、コネクタに
差し込む。
② 図のようにケーブルにコアを取り付ける。
① Fix a cable on probe, and insert it in the
connector.
② Install the core on the cable as the figure.
①
P-32-SSD1700-6
コア
Core
ケーブル/Cable
L-CABLE-584-60
コアの取り付け方向
Installation direction
of the core
①
②
ALOKA CO.,LTD.
MS5-1053
- 1 -
Rev.01
SCU-4000 据付要領書
INSTALLATION PROCEDURES
SSD-4000 用メカニカルラジアル接続ユニット
Mechanical radial probe connecting unit
この据付要領書は、SCU-4000 の納品等の際、据付の資料としてご使用ください。
必要な工具:プラスドライバ、スタビドライバ、マイナスドライバ
(あらかじめ用意すること)
These installation procedures are provided for reference in installation of SCU-4000.
Tool required : Phillips screw driver , Stabilizing screw driver,
Flat-bladed screw driver (Provide it beforehand )
注意
■ 装置の据付作業は、有資格者に限られる。
■ 装置を設置する場所の環境条件および電源設備は、取扱説明書の記載条件による。
■ 探触子の接続は、取扱説明書を参照すること。
C A U T I O N
■ This system must be installed only by the qualified personnel.
■ The environmental conditions for the place of installation of the SSD-4000
system and the specifications of the power supply must satisfy the requirements
stated in the operator’s manual.
■ See the operator’s manual for the connection of the probe.
Total Page :10
ALOKA CO.,LTD.
MS5-1053
- 2 -
Rev.01
付属品リスト L i s t o f A c c e s s o r y P a r t s
下記の付属品が揃っているか確認してください。Check to assure all the below-listed accessory parts to have been included in the shipping
case.
No.品 名
Parts Name
外 観
Appearance
個 数
Quantity
1
PC 板
EP444301
PC board
EP444301
1
2
コネクタ
Connector unit
1
3
銘板
P-32-SSD1100-3B
Label
P-32-SSD1100-3B
1
4
付属ねじ
(BNK3×8Fe,Ni)
Accessory screw
(BNK3×8Fe,Ni)
4
※5
ROM
44807C 1
※6
リビジョンシール
Revision label1
※ SSD-4000 本体の S/N:M00501 以降は不要。
※ It is unnecessary after S/N : M00501 of SSD-4000.
H
ALOKA CO.,LTD.
MS5-1053
- 3 -
Rev.01
目次 C O N T E N T S
1. カバーの取り外し方法 1. Removing of Covers
2. PC 板の取り付け方法 2. Installation of PCB
3. ROM の交換方法 3. Exchange of the ROM
4.コネクタの取り付け方法 4. Installation of Connector
5. 動作確認 5. Confirmation of the work
6. カバーの取り付け方法 6. Mounting of Covers
7. 付属品の貼り付け方法 7. Installation of accessories
ALOKA CO.,LTD.
MS5-1053
- 4 -
1 .カバーの取り外し方法 1 .R e m o v i n g o f C o v e r s
右サイドカバーの取り外し方法
Removing of Right Side Cover
① ねじ3本緩めて右サイドカバーを取り外す。
① Loosen 3 screws and remove right side
cover.
左サイドカバーの取り外し方法
Removing of Left Side Cover
① ねじ3本を緩め左サイドカバーを取り外す。
① Loosen 3 screws and remove left side
cover.
BNK3×8 Fe,Ni,3
右サイドカバー
Right Side Cover
BNK3×8 Fe,Ni,3
左サイドカバー
Left Side Cover
①
①
ALOKA CO.,LTD.
MS5-1053
- 5 -
フロントカバーの取り外し方法
Removing of Front Cover
①ねじ4本を緩めフロントカバーを取り外す。
①Loosen 4 screws and remove front cover.
シールド板の取り外し方法
Removing of Shield Cover
① ねじ 18 本を外しシールド板を取り外す。
①Remove 18 screws and remove shield cover.
BNK3×8 Fe,Ni,18
シールド板
Shield cover
フロントカバー
BNK3×8 Fe,Ni,4
Front Cover
①
①
ALOKA CO.,LTD.
MS5-1053
- 6 -
2 .P C B の取り付け方法 2 .I n s t a l l a t i o n o f P C B
PCB の取り付け方法
Installation of PCB
① PC 板[EP443700]または[EP463900]
を抜く。
① Remove the PCB[EP443700] or
[EP463900].
② PC 板[EP444300]を抜き、同じスロットへ
PC 板[EP444301]を差し込む。
③PC 板[EP443700] または[EP463900]
を取り付ける。
② Remove the PCB[EP444300], then
insert the PCB[EP444301] into the
same slot.
③ Mount the PCB [EP443700] or
[EP463900].
EP443700 or EP463900
EP444300
EP444301
①
②
②
ALOKA CO.,LTD.
MS5-1053
- 7 -
Rev.01
3 .R O M の交換方法 3 .E x c h a n g e o f t h e R O M
ROMの交換は SSD-4000 本体のシリアルを確認の上作業を行うこと。
Do work after you confirm SSD-4000’s serial number as for the exchange of the ROM.
※ S/N : M00501 以降の装置は作業不要 ※ S/N : device after M00501 is unnecessary.
ROM の交換方法
Exchange of the ROM
①PC 板[EP444400]を抜く。
①Remove the PCB[EP444400].
② マイナスドライバーを使用し
ROM[44807B]を取り外す。
※図の様に左右交互に押し上げ ROM を平行に
PC 板[EP444400]から抜く。
② Remove the ROM [44807B] by using
the flat-bladed screw driver.
※Push it up as the figure in the left-right
alternation, and select a ROM from
PCB[EP444400] in parallel.
①
EP444400**
②ROM[44807B]
EP444400
ALOKA CO.,LTD.
MS5-1053
- 8 -
Rev.01
③ ROM[44807C]を取り付ける。
③Install a ROM [44807C] on PCB.
HEP444400** ④ PC 板[EP444400]にリビジョンシールを
貼り付ける。
※PC 板[EP444400]形名の上方に貼る。
④ Paste the revision label on
PCB[EP444400].
※Put it in the top of the PCB[EP444400]
name.
⑤ PC 板[EP444400]を元のスロットに差し
込む。
⑥ PC 板[EP443700]または[EP463900]
を取り付ける。
⑤ Insert PCB[EP444400]in the slot of the
cause.
⑥ Remove the PCB[EP443700] or
[EP463900].
③ 44807C
リビジョンシール
Revision label
A L O K A
E P 4 4 4 4 0 0 **H
④
⑤
⑥
ALOKA CO.,LTD.
MS5-1053
- 9 -
4 .コネクタの取り付け方法 4 .I n s t a l l a t i o n o f C o n n e c t o r
① ねじ 4 本外し、目隠し板を取り外す。
(以後不要)
① Remove 4 screws, and remove the
blindfold board. (It is unnecessary from
now on.)
②ねじ 4 本外し、コネクタカバーを取り外す。
(以後不要)
② Remove 4 screws, and remove the
connector cover. (It is unnecessary from
now on.)
③コネクタをねじ4本で取付ける。
③Use 4 screws to install Connector unit.
①
②
目隠し板
Blindfold board
コネクタカバー
Connector cover
BNK3×8 Fe,Ni,4
コネクタ
Connector unit
③
ALOKA CO.,LTD.
MS5-1053
- 10 -
5 .動作確認 5 .C o n f i r m a t i o n o f t h e w o r k
①プローブを接続する。
②SCU機能が正常に動作することを確認する。
③プローブを外す。
①Connect the mechanical radial probe to probe connector.
②Confirm the SCU function works normally.
③Disconnect the probe from the probe connector.
6 .カバーの取り付け方法 6 .M o u n t i n g o f C o v e r s
①カバーの取り外し方法と逆の手順で、カバーを取り付ける。
①Install the cover with the reverse of the Removing of Covers .
7 .付属品の取り付け方法 7 .I n s t a l l a t i o n o f a c c e s s o r i e s
前カバー /front cover
ラベルの貼り付け方法
Paste the label
① 図を参考にラベルを貼る。
① Put the label referring to the figure.
①
P-32-SSD1100-3B
SECTION 10
SECTION 10
PARTS LIST
MN2-0233 Rev.1
SECTION 10 PARTS LIST
10 — 1
10-1 Contents of Parts List
Parts are separately shown as each portion of equipment. When you find the part, firstly
choose the portion the part belonged, then open the page suggested with “INDEX”.
MONITORSEE INDEX 08
CABLE HANGERSEE INDEX 03
PHYSIOLOGICALSIGNAL UNITSEE INDEX 07
OPERATION PANELSEE INDEX 02
USM-25 UNITSEE INDEX 06
MAIN BODYSEE INDEX 01
POWER SUPPLY UNITSEE INDEX 04
JUNCTION BOXSEE INDEX 05
MONITOR ARMSEE INDEX 09
SCREW / SMALLPARTS/ LABELSEE INDEX 10
MN2-0233
SECTION 10 PARTS LIST
10 — 2
10-2 Appliance of Parts List
This Parts List consists of the parts for technical service and maintenance. Therefore, the
parts model name (PARTS No.) is only valid to the technical support. When you order the parts
shown in the List, please apply to our technical support section.
Before you find the parts with this Parts List, please note that nobody can use any description in
this List for the other purpose.
10-3 Outline of Parts List
This Parts List shows many parts which are selected for the technical support and maintenance,
and made with the illustrations and Lists. These parts are selected with one of the basis as below,
◆ For the surface of the equipment such as Cover and Connector
◆ Machinery and things to be broken without difficulty
◆ Operation panel including the Knob and Switch
◆ Cables
Excluding one soldered to the other part directly
◆ PCB
Please refer to the History which has been issued separately, because almost of the PCBs have
the revisions.
◆ The things to be replaced frequently such as the variable resistor for the panel
◆ General small parts such as screws and cable clamps
The location are not shown in the illustration.
◆ Things to be needed additionally for the technical support.
MN2-0233
SECTION 10 PARTS LIST
10 — 3
10-4 Explanation of Parts List
This Parts List is divided by some blocks (INDEX), and each block consists of the illustration
and list.
INDEX The number of the division for each Parts List (illustrations and Lists). This is
indicated in the illustration for whole equipment at the beginning.
UNIT The name of this block (or unit) indicated by INDEX.
If the same block or unit will be revised, it will be distinguished with this and
next S/N
INDEX MAIN BODY UNIT S/N
01 USI-148
ITEM CODE No Part Number Description Serial Number Specification
1 A200876 SAP-1700-01-01 COVER:TOP
2 A120026 PSC-116#7 INTERMEDIATE DECK COVER ~6200030
2 A120027 PSC-116#7B INTERMEDIATE DECK COVER 6200031~
3 A800041 L-CABLE-216 CABLE:J705-J607 OPTION
21 A120033 PSC-116#8 PROBE HOLDER
Description of Index
Index number linked to
Model name of Index
Range of serial numbers to apply
Item number linked to drawing
Part Code (currently not used)
Part number for each item
Part description for each item
Range of serial numbers to apply
MN2-0233
SECTION 10 PARTS LIST
10 — 4
S/N If the same block or unit will be revised, it will be distinguished with UNIT, and
this shows the beginning of production change.
ITEM Relation numbers between illustration and List.
CODE No Code number applied one by one to each parts. However, at this time (May ’98),
it is not acceptable to order.
Parts No Parts number
SERIAL No Applied serial number.
If it shows “×××××~”、the part is available to serial number or after. On
the other side, “~×××××” means valid to the serial number and before. If
the blank, If the blank, it is not depended on the serial number.
SPEC The specification, some differences on shipment, and the other remarks are
shown.
10-5 Attention
● Prohibition to use both previous and current format of Parts List.
In the current one, the model names of some parts are deferent from previous.
● Reference with “History” for the order of PCBs.
This Parts List does not show the PCB version (or not follow the each revision).
Therefore, when you order the PCBs, please see the “History” issued separately.
MN2-0233
SECTION 10 PARTS LIST
10 — 5
10-6 Parts List
The parts List is shown from next page. It consists of “INDEX”. For the portion of
equipment suggested with “INDEX”, refer to the figure described in page 10-1.
MN2-0233
SECTION 10 PARTS LIST
10 — 6
01 MAIN BODY USI-150S/N
12
13
16
17
15
14
9
39
8
1
21
31
219
22
4140
184
24
27
43
28
13
10
42 47
MN2-0233
SECTION 10 PARTS LIST
10 — 7
01 MAIN BODY USI-150S/N
35
37
36
25
11
29
67
5
20
23 3
MN2-0233
SECTION 10 PARTS LIST
10 — 8
01 MAIN BODY USI-150S/N
44
46
32
38
45
MN2-0233
SECTION 10 PARTS LIST
10 — 9
01 MAIN BODY USI-150S/N
2630
34
33
MN2-0233 Rev.1
SECTION 10 PART LIST
10 — 10
01 MAIN BODY USI-150S/N
48
50
49PCB
MN2-0233 Rev.1
SECTION 10 PARTS LIST
10 — 11 — 2
(Blank page)
MN2-0233
SECTION 10 PARTS LIST
10 — 12
02 OPERATION PANEL L-KEY-75*S/N
6 7
1 2
4
3 X 8
X 4
5
PANEL ASSY
PCB
MN2-0233
SECTION 10 PARTS LIST
10 — 13
02 OPERATION PANEL L-KEY-75*S/N
10 8
9
14
14
12
13 X 3
14
11
PCB
PCB
PCB
MN2-0233
SECTION 10 PARTS LIST
10 — 14
02 OPERATION PANEL L-KEY-75*S/N
16
16
15
1515
15
15
17
15
18
19 20X 37 X 39 X 8
×8×2
×1
×8
×16
×6
×17
19 ×94
20 ×94
×1
×3
21 x4
21 ×3
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 15
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 19 — 2
(Blank page)
MN2-0233 Rev.3SECTION 10 PARTS LIST
10 — 20
3
1
4
MN2-0233 Rev.1
SECTION 10 PARTS LIST
10 — 22
04 POWER SUPPLY UNIT PSU-S4000-1 S/N
M00101~M00300
1
2
4
7
3
6
5
8 9
1110
21
20
MN2-0233 Rev.1
SECTION 10 PARTS LIST
10 — 23
04 POWER SUPPLY UNIT PSU-S4000*-1 S/N
M00301~
1
2
4
35
76
8 9
1110
23
20
22
27
26
MN2-0233 Rev.1
SECTION 10 PARTS LIST
10 — 24
04 POWER SUPPLY UNIT PSU-S4000-2 S/N
M00101~M00300
13
12
14
151617
24
MN2-0233 Rev.1
SECTION 10 PARTS LIST
10 — 25
04 POWER SUPPLY UNIT PSU-S4000*-2 S/N
M00301~
13
12
14
151617
25
MN2-0233 Rev.1
SECTION 10 PARTS LIST
10 — 25 — 1
04 POWER SUPPLY UNIT JB-260/261S/N
18
19
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 25 — 2
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 25 — 3
MN2-0233 Rev.1
SECTION 10 PARTS LIST
10 — 25 — 4
(Blank page)
MN2-0233
SECTION 10 PARTS LIST
10 — 26
05 JUNCTION BOX JB-263 S/N
1
2
35
4
MN2-0233
SECTION 10 PARTS LIST
10 — 27
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 28
06 USM-25* UNITS/N
M00101~M01100
2511109876543 1312
2221201918171615 2423
1
2 14
TOP VIEW
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 29
06 USM-25* UNITS/N
M01101~
251110876543 1312
2120181716 2423
1
2 14
TOP VIEW
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 29 — 1
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 29 — 2
MN2-0233
SECTION 10 PARTS LIST
10 — 30
MN2-0233
SECTION 10 PARTS LIST
10 — 31
MN2-0233
SECTION 10 PARTS LIST
10 — 32
MN2-0233
SECTION 10 PARTS LIST
10 — 33
(Blank page)
MN2-0233
SECTION 10 PARTS LIST
10 — 34
08 MONITOR IPC-1530Q
①③
④
②
⑥
⑦
⑤
A
⑮
⑧ ⑨
⑪⑬
⑭
⑩
⑫
MN2-0233
SECTION 10 PARTS LIST
10 — 35
08 MONITOR IPC-1530Q
AVIEW
22
25
23
20
21
24
19
17
18
16
MN2-0233
SECTION 10 PARTS LIST
10 — 36
MN2-0233
SECTION 10 PARTS LIST
10 — 37
(Blank page)
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 37 — 1
08 MONITOR IPC-1530(U)
①③
④
②
⑥
⑦
⑤
A
⑫
⑧
⑪
⑨⑩
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 37 — 2
08 MONITOR IPC-1530(U)
AVIEW
15
18
1617
⑬⑭ ×2
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 37 — 3
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 37 — 4
(Blank page)
MN2-0233
SECTION 10 PARTS LIST
10 — 38
09 MONITOR ARM L-Ki-690 S/N
1
MN2-0233
SECTION 10 PARTS LIST
10 — 39
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 40
MN2-0233 Rev.2
SECTION 10 PARTS LIST
10 — 41
MN2-0233
SECTION 10 PARTS LIST
10 — 42
(Blank page)
SECTION 11
SECTION 11
SERVICE INFORMATION
MN2-0233SECTION 11 SERVICE INFORMATION
11 — 1
11-1 Introduction
This section provides information which the service engineer must know and information useful if heknows, when repairing.
11-2 Maintenance Menu
The maintenance menu offers a function to help the service personnel only repair or inspect the equipmentand upgrade the software. This function is not open to the user.
●CAUTION● To make the maintenance function invalid, it is necessary to once turn off the power.
After performing operation using the maintenance function, be sure to turn on the
power again.
11-2-1 Starting the maintenance menu
1) Press the Preset switch to display the Preset List.2) Press CTRL + S. (The Set-Up screen of maintenance menu will be active.)
Set-Up Screen
MN2-0233
SECTION 11 SERVICE INFORMATION
11 — 2
11-2-2 The function of maintenance menu
1)UP GRADE Screen
1)–1 Back-Up Data Save
The following data can be stored in to the MO disk in one lump.・ All PRESET data・ All patient data・ All examination data・ All memorized data in the system
1)-2 Back-Up Data Restore
By using this function, the saved data in the MO disk can be restored into the system.
1)-3 Version Up
By using the MO disk or floppy disk, the software can be upgraded.
The setting of PRESET before upgrading and the setting of package software are kept after
upgrading.
1)-4 Package Software
By using the key disk (Floppy disk), the some package software can be masked or lifted.
But, all of the application cannot be masked by the key disk.
MN2-0233 Rev.3SECTION 11 SERVICE INFORMATION
11 — 3
2) MAINTENANCE 2)-1 SYSTEM1 Screen
This screen shows the system information and probe connection.
〇System Information
・ The software version
・ The connected optional unit
〇 ROBE CODE
・ Probe connector number
・ Probe model
・ Probe code
When changing the probe, the information of probe connection cannot up-date
automatically. However, the probe connection can be updated by panel operation.
Ver. 1.* ~ 2.* Ver. 3.* ~
MN2-0233 Rev.3
SECTION 11 SERVICE INFORMATION
11 — 4
2)-2 SYSTEM2 Screen
This screen shows the hardware level in the system.
Ver. 1.* ~ 2.* Ver. 3.* ~
MN2-0233
SECTION 11 SERVICE INFORMATION
11 — 5
2)-3 CHECK Screen
〇PANEL TEST
This function can check the LED on the operation panel.
〇Go to Self Checker (Not available on Ver.1.0.*)
This function checks whether a part of hardware has a problem or not, and its result is displayed on
the screen.
MN2-0233
SECTION 11 SERVICE INFORMATION
11 — 6
2)-4 OTHER Screen
〇 Information 1
The internal setting of the system is displayed on the screen at each display mode.
〇 Information 2
The data of power control is displayed on the screen.
〇 Test Pattern
Gray Scale Display On: The gray scale is displayed on the screen for adjustment of the monitor.
Color Scale Display On: The Color scale is displayed on the screen for adjustment of the monitor.
MN2-0233
SECTION 11 SERVICE INFORMATION
11 — 7
11-3 SYSTEM PRESET
The system preset menu offers a function to help the service personnel only for system setting. Thisfunction is not open to the user.
11-3-1 Starting the system preset menu
1) Press the Preset switch to display the Preset List.2) Select the “Set-up of Preset” to display the Preset setting selection screen.3) Select the “Common Preset to display the “Common Preset”.4) Press CTRL + O (ou), the “System” in the system tree will be active.
1) Focus MarkSet the Focus Mark display on the screen. (ON/OFF)
2) ALOKA LogoSet the Aloka Logo mark display on the screen. (ON/OFF)
3) Power Flow N ValueSet the n value display of PRF on the screen when the Power Flow mode is activated. (ON/OFF)
4) Display ProbeSelect the probe frequency displaying format on the screen.
5) Beam Processing (Flow)Select the beam processing method (Single/Multi) in the Color Flow mode.
MN2-0233 Rev.2
SECTION 11 SERVICE INFORMATION
11 — 8
11-4 Flash Memory Data Rewriting procedure
11-4-1 PURPOSE
The flash memory data rewriting floppy disk (FD) uses when the following problem happens.
① In case where the system cannot boot up caused by a failure of updating the flash memory data after
carrying out the software upgrade work.
② The system cannot boot up due to the incompatible flash memory data on PC board which replaced by
repair.
NOTE: On Ver. 2.0 onwards, the system automatically rewrites the flash memory data when the
data is different from the hard disk data.
11-4-2 PROCEDURE:
① Turn the system off.
② Insert a flash memory data rewriting floppy disk into a floppy disk drive on the system, then turn the
system on.
③ A few minutes later, the following window appears on the screen after displaying the “Aloka logo” and
character of “Shutdown in progress”. Move a cursor to an affecting item in the window, and select it
with pressing the «SET» switch on the operation panel.
Fig. 1
④ Carrying out the update of flash memory automatically. After completing, a screen returns to the
Fig.1 again.
MGR or CMB board
TX RX CONTROL board
TX & TX FOCUS board
SDP board
MN2-0233 Rev.2
SECTION 11 SERVICE INFORMATION
11 — 9
⑤ To finish the work, click “Exit” at bottom of screen and take out a floppy disk from drive while an LED
of the floppy disk drive is not lighted. And then, turn the power switch off.
⑥ Confirm that the system boot up completely by turning the power switch on again.
11-5 Probe Focus Data Erasing procedure
11-5-1 PURPOSE:
The probe focus data erasing floppy disk (FD) uses when the following problem happens on the SSD-4000
Ver 1.1.* .
① In case of the bad image quality caused by a failure of focus data.
NOTE: This FD cannot use on SSD-4000 Ver. 2.0 and higher system, because the focus
data are not stored into the hard disk.
11-5-2 PROCEDURE:
① Turn the system off.
② Insert a probe focus data erasing floppy disk into a floppy disk drive on the system, and then turn the
system on.
Click here
MN2-0233 Rev.2
SECTION 11 SERVICE INFORMATION
11 — 10
③ A few minutes later, the following window appears on the screen after displaying the “Aloka logo” and
character of “Shutdown in progress”. Move a cursor to an affecting item in the window, and press
“SET” switch.
Fig. 1
④ Click a «Delete» when a star mark is displayed in the «deletion Obj.»
Fig. 2⑤ Click “Yes” when the following message appears.
MN2-0233 Rev.2
SECTION 11 SERVICE INFORMATION
11 — 11
Fig. 3⑥ After completing, a screen returns to the Fig.1 again.
⑦ To finish the work, click “Exit” at bottom of screen and take out a floppy disk from drive while an LED
of the floppy disk drive is not lighted. And then, turn the power switch off.
Fig 4⑧ Turn the power switch on again and confirm whether the system starts completely. After the system
start up completely, select the probe erased in step 4 to overwrite the focus data into the HDD.
⑨ After overwriting the focus data immediately, an abnormal image is displayed, and it solved by changing
the display mode or freeze/unfreeze.
After overwriting the focus data after unfreezing
MN2-0233 Rev.3
SECTION 11 SERVICE INFORMATION
11 — 12
11-6 Assignment of CTRL key and those usage
In order to use special functions, press “CTRL” and the following key in keyboard at the same time.
Operation 1)Control &Measurementfunction
2) PRESET data (Body mark,
position, etc.)
1)Patient Databasedata
2)Position ofmeasurementmenu
1)Stored imagein HD
1)System rebooting
2)Initial Configurationsetting windowdisplay
CTRL + R DELETE DELETE DELETE Rebooting anddisplaying
CTRL + E DELETE REMAIN REMAIN Rebooting anddisplaying
CTRL + Q REMAIN DELETE REMAIN Rebooting only
CTRL + W REMAIN REMAIN DELETE Rebooting only
SECTION 12
APPENDIX
MN2-0233 Rev.1
SSD-4000 SERVICE MANUAL Appendix
Apndx — 1
Appendix-1 Introduction
This appendix is described the revised history of this service manual as Manual Change
Information.
Appendix-2 Manual Change Information
RevisionsRev. Date Contents Pages Note
0 19-Sep.-’00 1st. issue
1 19-Sep.-‘01 Cover (1/2, 2/2) Replaced
Back cover (1/2, 2/2) Replaced
CONTENTS (1/2) Replaced
Added
CONTENTS (2/2) Replaced
1/2, 2/2
1/2, 2/2
1/6~4/6
5/6, 6/6
1/4~4/4
SECTION 2
2-10 Handling of S.M.D. PCBs Replaced 2-4
SECTION 4
4-1 System Specifications Replaced
4-2 System Configuration Replaced
4-3 System Block Diagram Replaced
Added
4-4-1 System Control Replaced
4-4-2 Transmission and
Reception block Replaced
4-4-3 Digital Imaging Unit Replaced
4-5 Principle of PCB operation Replaced
Added
4-1, 4-2, 4-5,
4-6, 4-8
4-9
4-10, 4-11, 4-13
4-14-1~4-14-4
4-17
4-21, 4-22
4-27
4-31, 4-32,
4-35, 4-37,
4-39, 4-43,
4-70
4-43-1, 4-43-2,
4-87~4-96
SECTION 5
CABLE 301 Replaced
MOTHER BOARD EP4445 Replaced
DISTRIBUTOR EP4472 Replaced
CABLE 711 CO-EU5044-B Replaced
Power supply unit PSU-S4000B Added
Transformer unit circuit
PSU-S4000B-1 Added
5-10
5-15, 5-16,
5-21, 5-23
5-41~5-45
5-49
5-81, 5-82
5-83, 5-84
MN2-0233 Rev.1
SSD-4000 SERVICE MANUAL Appendix
Apndx — 2
RevisionsRev. Date Contents Pages Note
1 19-Sep.-’01 Power supply unit (2)
PSU-S4000B-2 Added
Hi-Voltage circuit EP440701 Added
Rectification circuit EP4622 Added
Power supply circuit EP4631 Added
Power supply circuit EP4632 Added
Mother board for PSU-S4000B-2
EP4633 Added
Output connector circuit
EP4634 Added
5-85, 5-86
5-87
5-88
5-89
5-90~5-92
5-93
5-94
SECTION 6
6-4-3 Attention of connecting
optional units Replaced
6-4-4-3 Preset table constitution Replaced
6-4-8 Location of unit Replaced
Added
6-4-10 Action to be taken if the
equipment fails to be started or
the panel operation is locked up Replaced
6-4-11 Minimum Start-up Replaced
6-5-2 Phenomenon Code Table Replaced
6-5-3 MAP Replaced
6-5-4 PCB Check Procedure Replaced
Added
6-7
6-9
6-14, 6-15
6-17-1, 6-17-2
6-24
6-26~6-28
6-37, 6-39,
6-40, 6-41
6-46~6-54
6-58, 6-60,
6-85~6-87,
6-91, 6-95,
6-119,
6-62-1,6-62-2,
6-121-1~6-121-4
SECTION 7
7-4 Adjustment Procedure Replaced 7-2~7-5
SECTION 9
SSD-4000 Disassembling Instruction Replaced
Added
SSD-4000 InstallationProcedures Replaced
EU-9082 Installation Procedures Replaced
EU-9083 Installation Procedures Added
EU-9084 Installation Procedures Added
SCU-4000 Installation Procedures Added
9-1~9-64
9-64-1~9-64-14
9-65~9-76
9-81~9-84
9-93~9-96
9-97~9-100
9-101~9-104
MN2-0233 Rev.2
SSD-4000 SERVICE MANUAL Appendix
Apndx — 3
RevisionsRev. Date Contents Pages Note
1 19-Sep.-’01 SECTION 10
10-1 Contents of Parts List Replaced
10-6 Parts List Replaced
Added
10-1
10-10, 10-11,
10-16,
10-22~10-25,
10-29, 10-41
10-11-1, 10-11-2,
10-25-1~10-25-4,
10-29-1, 10-29-2
APPENDIX
Appendix-2 Manual Change
Information Replaced
Added
Apndx-1, Apndx-2
Apndx-3, Apndx-4
2 17-May-‘02 Cover (1/2, 2/2) Replaced
Back cover (1/2, 2/2) Replaced
CONTENTS (1/2) Replaced
CONTENTS (2/2) Replaced
1/2, 2/2
1/2, 2/2
1/6~6/6
1/4~4/4
SECTION 1
1-2 Contents of this Service Manual Replaced 1-1
SECTION 4
4-1 System Specifications Replaced
4-2 System Configuration Replaced
4-3 System Block Diagram Added
4-4-1 System Control Replaced
Added
4-4-2 Transmission and
Reception block Replaced
4-4-3 Digital Imaging Unit Replaced
4-4-4 Physio. signal display unit
PEU-4000 (Option) Replaced
4-5 Principle of PCB operation Replaced
Added
4-8
4-9
4-14-5~4-14-8
4-15, 4-16
4-17-1, 4-17-2
4-21, 4-22
4-24, 4-26,
4-27, 4-28
4-29
4-31, 4-33,
4-35, 4-57,
4-60~4-67,
4-70, 4-89
4-96~4-102
MN2-0233 Rev.2
SSD-4000 SERVICE MANUAL Appendix
Apndx — 4
RevisionsRev. Date Contents Pages Note
2 17-May-’02 SECTION 5
PSU-S4000B block diagram Added
PSU-S4000B Wiring diagram Added
PSU-S4000B-2B
Secondary power unit Added
PSU-S4000B-2B Wiring diagram
Secondary power unit Added
EP4632** Hi-voltage circuit Added
EP4633** MOTHER BOARD Added
EP4732** Foot SW PCB Added
EP4812** Mother board Added
IPC-1530(U) DWU-135B Added
IPC-1530(U) TB-0047A Added
IPC-1530(U) TA-0040A Added
IPC-1530(U) TE-0037 Added
IPC-1530(U) TD-0108A Added
IPC-1530(U) TM-0230A Added
IPC-1530(U) TC-0130B Added
IPC-1530(U) DWU-141 Added
IPC-1530(U) TD-0121 Added
IPC-1530(U) TE-0035 Added
IPC-1530(U) TB-0055 Added
IPC-1530(U) TC-0143 Added
IPC-1530(U) TM-0280 Added
IPC-1530(U) TA-0040 Added
5-95
5-96
5-97
5-98
5-99~5-102
5-103
5-104
5-105~5-111
5-112
5-113
5-114~5-116
5-117
5-118
5-119~5-121
5-122~5-128
5-129
5-130
5-131
5-132
5-133~5-139
5-140~5-142
5-143~5-146
SECTION 6
6-4-4-3 Preset table constitution Replaced
6-4-7 How to reset the backup data Replaced
6-4-8 Location of unit Repalced
6-4-9 Location of ROMs Added
6-4-10 Action to be taken if the equipment
fails to be started or ….. Replaced
6-4-11 Minimum Start-up Replaced
6-5-3 MAP Replaced
6-5-4 PCB Check Procedure Replaced
6-9
6-13
6-15, 6-17,
6-17-2
6-22-1, 6-22-2
6-23, 6-24
6-26, 6-28,
6-29, 6-30
6-46~6-54
6-62-1, 6-62-2,
6-98~6-102,
6-110~6-113,
6-115~6-117
6-119, 6-121,
6-121-1, 6-122,
MN2-0233 Rev.2
SSD-4000 SERVICE MANUAL Appendix
Apndx — 5
RevisionsRev. Date Contents Pages Note
2 17-May-’02 SECTION 6
6-5-4 PCB Check Procedure Replaced
Added
6-123
6-87-1~6-87-
16,
6-117-1~6-117-SECTION 8
8-4-1 Function check Replaced
8-4-2 Image Quality Check Replaced
SSD-4000 Check Sheet Replaced
8-4, 8-5
8-12
8-15, 8-16
SECTION 9
SSD-4000 Disassembling Instruction Replaced
Added
9-1~9-4,
9-10, 9-20,
9-22~9-31,
9-36, 9-37,
9-40, 9-42,
9-46, 9-54,
9-55,
9-58~9-61,
9-64,
9-64-2~9-64-14
9-64-15~9-64-
22SECTION 10
10-6 Parts List Replaced
Added
10-11, 10-
11-1,
10-15~10-19,
10-21,
10-25-2,
10-25-3,
10-28, 10-29,
10-29-1,
10-29-2,
10-40, 10-41
10-19-1,
10-19-2,
10-37-1~10-37-
4SECTION 11
11-4 Flash Memory Data
Rewriting procedure Replaced
11-5 Probe Focus Data Erasing
procedure Added
11-8
11-9~11-12
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL Appendix
Apndx — 6
RevisionsRev. Date Contents Pages Note
2 17-May-’02 APPENDIX
Appendix-2 Manual Change
Information Replaced
Added
Apndx-3,
Apndx-4
Apndx-5,
Apndx-6
3 15-Oct.-‘03 Cover (1/2, 2/2) Replaced
Back cover (1/2, 2/2) Replaced
CONTENTS (1/2) Replaced
CONTENTS (2/2) Replaced
1/2, 2/2
1/2, 2/2
1/6~6/6
1/4~4/4
SECTION 2
2-12 A combination of UCW-4000B and software version
2-13 A combination of SCU-4000/4000B andAD_DA “EP444400”/DBP “EP478400”board Replaced
2-6
SECTION 4
4-1 System Specifications Replaced
Added
4-2 System Configuration Replaced
4-4-2 Transmission and
Reception block Added
4-4-3 Digital Imaging Unit Replaced
4-5 Principle of PCB operation Replaced
4-5-25 DBP Added
4-1, 4-2,
4-6~4-8
4-8-1, 4-8-2
4-9
4-22-1,4-22-
2
4-23
4-31, 4-43-2
4-102~4-104SECTION 5
PSU-S4000B-2B Added
EP4633 Added
L-KEY-75C Added
5-147
5-148
5-149~5-162
SECTION 6
This section was transferred into VOL 2/2.6-4-3 Attention of connecting
optional units Replaced6-4-8 Location of unit Replaced
6-7
6-15
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL Appendix
Apndx — 7
RevisionsRev. Date Contents Pages Note
3 15-Oct.-‘03 SECTION 6
6-4-10 Action to be taken if the equipment failsto be started or the panel operation islocked up
4) Problem relating to various type of bussesReplaced
6-4-11 Minimum Start-up2) Combination that enables minimumstart-up Replaced
6-5-3 MAP Replaced
6-5-4 PCB Check Procedure Replaced
6-24
6-26, 6-28
6-46~6-54
6-58, 6-60,
6-62-1, 6-95,
6-99, 6-118
SECTION 7
7-4-2 EP444400** AD_DA Replaced
7-4-3 EP444400** AD_DA Replaced
7-3
7-4
SECTION 10
10-6 Parts List Replaced 10-16
~10-19-1,
10-20, 10-21,
10-29-1,
10-29-2
SECTION 11
11-2-2 The function of maintenance
menu
2)MAINTENANCE Replaced
11-6 Assignment of CTRL key
and those usage Replaced
11-3, 11-4
11-12
APPENDIX
Appendix-2 Manual Change
Information Replaced
Added
Apndx-6
Apndx-7,
Apndx-8
MN2-0233 Rev.3
SSD-4000 SERVICE MANUAL Appendix
Apndx — 8
(Blank page)
FILE 2
Head Quater : 6-22-1 Mure, Mitaka-Shi, Tokyo, Japan.
Issued by : TOKYO WORKS, Medical System Engineering DepartmentPrinted by : Aloka Technical Service Co., Ltd. Service Engineering Section Ⅰ
6-22-1 Mure, Mitaka-Shi, Tokyo, Japan.Telephone : +81-422-45-6947Facsimile : +81-422-45-5227
SSD-4000 SERVICE MANUAL
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