Saj 8000m инструкция на русском

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• Описание
• Технические характеристики
• Цены

ОСНОВНЫЕ ХАРАКТЕРИСТИКИ

• Режим управления V/F
• Превосходные динамические показатели разгона/замедления и быстрого останова
• Широкий диапазон регулирования колебаний нагрузки
• Защита от перегрева, недостаточного напряжения, перенапряжения, перегрузка по току, перегрузка,  от короткого замыкания
• Автоматическое ограничение по току или напряжению
• Встроенный порт RS485 и тормозной ключ

Компания SAJ, имея десятилетний опыт работы на рынке преобразователей частоты, объединила потребности рынка и новый дизайн, и представляет Вам серию экономичных ПЧ нового поколения 8000m, которые просты в настройке, имеют превосходные характеристики и надежность эксплуатации.

КОМПОНЕНТЫ МЕЖДУНАРОДНОГО КАЧЕСТВА, ДВУХЯДЕРНОЕ УПРАВЛЕНИЕ

ГИБКАЯ АРХИТЕКТУРА И КОМПАКТНАЯ КОНСТРУКЦИЯ

ТАБЛИЦА ПАРАМЕТРОВ МОДЕЛИ

Напряжение питания, В	220 | 380
Номинальная мощность двигателя (нормальный режим), кВт	0,4 | 0,75 | 1,5 | 2,2
Наличие векторного режима	Нет
Максимальная выходная частота, Гц	600
Номинальный выходной ток (нормальный режим), A	2,4
Максимальный ток двигателя (в течение 1 мин) в нормальном режиме, А	3,6
Количество дискретных входов/выходов, Шт.	4/2
Количество аналоговых входов, Шт.	1
Количество аналоговых выходов, Шт.	1
Типы аналоговых сигналов входа/выхода	0-10В/0~10В; 4~20мA
Наличие тормоза	Да
Возможность подключения энкодера	Нет
Фильтр ЭМС	Нет

Обозначение	Напряжение питания	Мощность стандартного АД при M-const, 150% перегрузки, кВт	Описание
8000M
8000M-2SR4GH	1х220В	0,4	Экономичная серия, V/F, 150% перегрузки, ПИД-регулятор, работа по циклограмме, съемный пульт, тормозной ключ, RS-485
8000M-2SR75GH	1х220В	0,75
8000M-2S1R5GH	1х220В	1,5
8000M-2S2R2GH	1х220В	2,2
8000M-4TR75GH	3х380В	0,75
8000M-4T1R5GH	3х380В	1,5
8000M-4T2R2GH	3х380В	2,2

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ТЕХНИЧЕСКИЕ ХАРАКТЕРИСТИКИ

Характеристика	Значение
Режим управления	V/F
Пусковой момент	0.5Гц 100%
Диапазон регулирования скорости	1:20, Погрешность регулирования: ±1.0%
Перегрузочная способность	Модели G: 60 сек.: 150% ном. тока; 1 сек.: 180% ном. тока.
Виды V/F кривой	Линейная, квадратичная и пользовательская
Динамич. торможение пост. током	Стартовая частота торможения: 0.00~Верхний предел частоты; Время торможения: 0.1~50.0 сек;
Работа в режиме Jog	Диапазон частоты в режиме Jog: 0.00-Максимальная частота; Время разгона/замедления: 0.1~3600 сек.
Время разгона/ замедления	Линейный режим: диапазон: 0.1~3600 сек
Повышение момента	Пользовательское значение: 0.1~30.0%; Автоматическое: 0.0
Стартовая частота	0.50-10Гц
Напряжение питания	220В/380В±15%
Частота сети питания	50/60Гц, ±5%
Разрешение частоты	Аналоговые сигналы: Макс. частота x 0.1%; Числовое задание: 0.01 Гц
Выходное напряжение	0~ напряжение питания
Диапазон выходной частоты	0.00-600Гц
Источник команд управления	Пульт, управляющие входные клеммы, последовательный коммуникационный порт
Задание частоты	7 способов: потенциометр на пульте, клавиши UP/DOWN на пульте, сигнал по коммуникации, ПИД-регулятор и др.
Дополнительное задание частоты	1 источник задания, комбинирование заданий частоты и переключение между ними
Фиксирование скорости и циклограмма	Возможность задания фиксированных частот и циклограммы работы
Встроенный ПИД-регулятор	Для работы в замкнутом контуре управления с обратной связью
Функция AVR	Поддержание постоянного выходного напряжения при колебаниях входного питания
Предотвращение аварийного останова	Автоматическое управление процессом замедления для предотвращения перенапряжения на шине постоянного тока при высокой инерции нагрузки или быстром замедлении
LED дисплей	16 параметров отображаются на дисплее: рабочая частота, напряжение шины DC, вых. напряжение, выходной ток и т.д.
Автоматическое энергосбережение	Автоматическое снижение выходного напряжения при малых нагрузках экономит электроэнергию
Задание пароля	Пароль может содержать 4 цифры (кроме 0)
Блокировка параметров	Для предотвращения несанкционированного изменения параметров в процессе работы или остановленном состоянии
Защита	Перегрузка по току, перенапряжение, недостаточное напряжение, перегрев, потеря фазы и т.д.
Класс IP	IP20
Окружающая температура	-10°C~+40°C

Цены с НДС:

Обозначение	Напряжение питания	Мощность стандартного АД при M-const, 150% перегрузки, кВт	Описание	Цена, USD, за штуку
8000M
8000M-2SR4GH	1х220В	0,4	Экономичная серия, V/F, 150% перегрузки, ПИД-регулятор, работа по циклограмме, съемный пульт, тормозной ключ, RS-485	$110
8000M-2SR75GH	1х220В	0,75	$115
8000M-2S1R5GH	1х220В	1,5	$125
8000M-2S2R2GH	1х220В	2,2	$160
8000M-4TR75GH	3х380В	0,75	$155
8000M-4T1R5GH	3х380В	1,5	$180
8000M-4T2R2GH	3х380В	2,2	$190

Производитель оставляет за собой право изменять характеристики товара, его внешний вид и комплектность без предварительного уведомления продавца.

8000m Series Compact Inverter
User Manual
Version Code: 8000m-E201216-1MS
8000m Series
PRECAUTION
Never modify the products. Failure to observe this warning
can result in electrical shock or personal injury. SAJ is not
responsible for any modification of the frequency products
made by the user, since that will void your guarantee.
­- I -
8000m Series
Contents
Notes for Safe Operation.....................................................01
Chapter 1 Select the Right Type.........................................09
1.1 Description of Model................................................................09
1.2 Description of Nameplate........................................................09
1.3 Dimensions of Inverter.............................................................10
1.4 Keypad Tray and RS485 Interface (Optional Parts)................11
Chapter 2 Wiring.................................................................13
2.1 Standard Wiring Diagram of 3-phase Inverter, 380V................13
2.2 Descriptions of Terminals........................................................14
Chapter 3 Operation............................................................16
3.1 Keypad Description.................................................................16
3.2 Operation Process...................................................................17
Chapter 4 Function Code Table...........................................20
Chapter 5 Trouble Shooting.................................................48
5.1 Fault and Trouble Shooting......................................................48
5.2 Common Faults and Solutions.................................................52
Chapter 6 Communication Address.....................................54
­- II -
8000m Series
Notes for Safe Operation
Read this instruction manual thoroughly before installation,
operation, maintenance or inspection of the frequency inverters.
In this manual, safe operation are classified as “WARNING” or
“CAUTION”.
WARNING
Indicate a potentially dangerous situation which, if not avoided,
could result in death or serious injury to personnel.
CAUTION
Indicate a potentially dangerous situation which, if not avoided,
could result in minor or moderate injury and damage to equipment.
It may also be used for warning against unsafe practices.
CAUTION) may result in a vital
Even items described as (
accident in some situations. Please follow these important notes:
(
)NOTE
These are steps to be taken to ensure proper operation.
Before Installation
WARNING
Do not install or operate any frequency inverter that is damaged or
has missing parts.
Choose the motor of insulation class B or above. Otherwise it may
cause an electrical shock.
­- 01 -
8000m Series
Installation
WARNING
Install the frequency inverter on nonflammable material like metal.
Otherwise it may cause a fire.
WARNING
Make sure that the mounting environment away from metal dust.
Otherwise it may cause damage to the frequency inverter.
CAUTION
When mount over two inverters in the same cabinet or enclosure,
install a fan or other cooling device to keep the temperature inside
below 50 ℃ .
Do not let the conductor head or screws fall into the inside of the
inverter. Otherwise it may cause damage to the inverter.
Wiring
WARNING
Ensure only qualified personnel to operate. Otherwise it can cause
an electrical shock.
Make sure the inverter is isolated from power supply by the circuit
breaker. Otherwise it may cause a fire.
Verify that the power supply is turned OFF before start wiring.
Otherwise it may cause an electrical shock or fire.
Make sure that the ground terminal is grounded correctly.
Otherwise it may cause an electrical shock.
­- 02 -
8000m Series
CAUTION
Never connect the AC power supply to output terminals U, V and
W. Otherwise the inverter will be damaged and the guarantee is
invalid.
Make sure that wiring conform to EMC requirements and local
power safe standard. Make sure to use right wire according to this
instruction manual. Otherwise it may cause an accident.
Braking resistor or braking unit cannot be directly connected to
DC bus terminals. Otherwise it may cause a fire.
Before Turn on the AC Power Supply
WARNING
Make sure that the voltage of inverter conforms to the local
power supply voltage. Verify that the wiring of input and output is
correct and there is no short-circuit in peripheral circuit. Tighten
the terminal screws. Otherwise these may cause damage to the
inverter.
Turn on the input AC power only after the front cover is put
correctly. Otherwise it may cause an electrical shock.
CAUTION
Never perform a hi-pot or withstand voltage test of the inverter.
Otherwise it may cause damage to the inverter.
Make sure that the optional parts are connected correctly.
Otherwise it may cause damage to the inverter.
­- 03 -
8000m Series
When the Power is On
WARNING
Do not open or remove the front cover when operation. Otherwise
it may cause an electrical shock.
Never touch the inverter and optional parts by wet hands. Never
touch the connection terminals. Otherwise it may cause an
electrical shock.
When the power is on, the inverter will automatically check the
power supply circuit. Do not touch U, V, W terminals and motor
connection terminals. Otherwise it may cause an electrical shock.
CAUTION
It is dangerous for the personnel to approach the motor and load
during rotation of the motor. Do not change the factory parameters
or settings unnecessarily. Otherwise it may cause a damage or
injury.
Operation
WARNING
When select the function of restart, do not approach the
mechanical load. Otherwise it may cause an injury if it restarts
suddenly.
Do not touch the heat sink or discharging resistor. Otherwise it
may cause harmful burns to the body.
Never change or check signals if not a professional or qualified
personnel. Otherwise it may cause damage and injury.
­- 04 -
8000m Series
CAUTION
Make sure nothing fall into the mechanical load or inverter.
Otherwise it may cause damage.
Start or stop inverter by corresponding buttons only. Otherwise it
may cause damage.
Maintenance
WARNING
After the main circuit power supply is OFF, make sure the charge
LED is OFF when maintain or inspect. Never maintain or inspect
the inverter and mechanical load when the power supply is still
ON. Otherwise it may cause damage and injury.
Only qualified or authorized professional personnel can maintain,
replace and inspect the inverter. Otherwise it may cause damage
and injury.
Notes for Other Important Operations
(
)CAUTION
1. Check Insulation of the Motor
Check insulation of the motor and wire when the motor is used
again after long time idle or for the first time. Disconnect the wire
between the motor and the inverter before check insulation. Make
sure the insulation resistor is not below 5MΩ.
­- 05 -
8000m Series
2. Thermal Overload Protection of the Motor
When the rated capacity of inverter is larger than that of the motor,
install thermal overload relay for the motor or regulate the motor
protection parameters of the inverter.
3. Consider the Bearing Capability of the Load
The inverter can provide output frequency from 0 Hz to 600 Hz. If
the motor needs to work at over 50 Hz, user should consider the
bearing capability of the load.
4. Avoid Mechanical Resonance Frequency
Regulate the skip frequency parameter of the inverter to avoid
mechanical resonance frequency of the load.
5. Prohibition of Installation of Phase Advancing Capacitor
If a phase advancing capacitor or surge suppressor is connected in
order to improve the power factor, it may become overheated and
damaged by inverter high harmonic components. Also, the inverter
may malfunction because of over current.
6. Installation of Magnetic Contactor
If a magnetic contactor is installed at the power supply side, do not
use it to control the start of the inverter. If necessary, the time span
should be one hour or above. Otherwise frequent switching may
cause the inverter to malfunction.
If a magnetic contactor is installed between the output terminals and
motor (output side of the inverter), make sure there is no output of
­- 06 -
8000m Series
inverter before switch on and off. Otherwise it may cause damage to
the inverter.
7. Allowable Voltage Range and Power Supply Phase
Make sure the inverter works under allowable voltage range. If
necessary, use boosting transformer or step-down transformer to
change the voltage of power supply. Never change the 3-phase of
inverter into 2-phase. Otherwise it will cause damage to the inverter.
8. Thunder Stroke Protection
Even there is protection device to protect the inverter from induction
thunder stroke, it’s necessary for users in frequent thunder stroke
area to install other protective device.
9. Altitude and Degradation Use
At an altitude of 1000m or above, it could be better that use the
motor with lower rated capacity. Otherwise the inverter may become
overheated because of rare air. For example, in order to control
the motor of 4kW rated capacity, it could be better to use 5.5kW
inverter.
10. Dispose of Scrap Inverter
The scrap capacitor of main circuit and PCB (printed-circuit board)
may explode when it is burned. In order to protect the environment,
do not burn waste plastic parts and scrap capacitor.
­- 07 -
8000m Series
11. Choose the Right Matching Inverter for the Motor
The standard matching motor is 4-pole inductive motor. If not,
choose the right matching inverter according to the rated current of
the motor.
According to the actual working situation of the motor, the factory
setting of motor standard parameter can be revised. Otherwise it
may cause low efficiency to the unit.
­- 08 -
8000m Series
Chapter 1 Select the Right Type
1.1 Description of Model
1.2 Description of Nameplate
­- 09 -
8000m Series
1.3 Dimensions of Inverter
single phase 220V 1.5-2.2kW and 3-phase380V 0.75kW-2.2kW
single phase 220V 0.4-0.75kW
­- 10 -
8000m Series
Voltage
Class
Model
8000m2SR4GH
Single 8000m2SR75GH
Phase
8000m220V 2S1R5GH
3phase
380V
Rated Rated Rated
Output Input Output
Power Current Current
W
(A)
(A)
(kW)
0.4
4.5
Dimensions
(mm)
W1
H
H1
D
Diameter
of
Installation
Hole
(mm)
2.4
81.3 67.4 151.3
0.75
8.2
4.5
1.5
14.2
7
8000m2S2R2GH
2.2
23
10
8000m4TR75GH
0.75
3.4
2.5
8000m4T1R5GH
1.5
5
3.7
8000m4T2R2GH
2.2
5.8
5
133 132.8
Φ5
99.3 86.8 164.7 147.4 152
1.4 Keypad Tray and RS485 Socket (Optional Parts)
­- 11 -
8000m Series
Terminal Symbol
Function
S+
Positive pole of differential signal
S-
Negative pole of differential signal
+5V
Positive pole of extension power (+5V)
GND
Negative pole of extension power
­- 12 -
Specifications
Standard
RS485
interface
8000m Series
Chapter 2 Wiring
2.1 Standard Wiring Diagram
Note:
1. ◎ refers to main circuit terminals. ○ refers to control-circuit terminals.
2. For 220V single phase inverter, the terminals of main circuit are R and S.
­- 13 -
8000m Series
2.2 Descriptions of Terminals
2.2.1 Main Circuit Terminals
2.2.1 functions of jumper
Terminals
Descriptions
FM
R, S and T
AC power input
terminals.
3-phase: R, S and T
Single phase: R and S
0-10VDC
U, V and
W
AC power output
terminals (used to
connect motor)
AVI
(+)
DC bus terminal of
positive pole
PB
Spare terminal for
connecting brake resistor
outside
Jumper J2
Note
Default
4-20mA
Jumper J10
0-10VDC
Note
Default
4-20mA
Grounding terminal
2.2.2 Control Circuit Terminals
Terminals
Functions
Descriptions
TA/ TB/ TC
Programmable relay
output
TA-TB: Normally open. TB-TC: Normally
closed Contact capacity: AC 250V/3A/
normal open AC 250V/3A/normal close
M1~M4
Digital input
terminals
Do not connect additional power source
directly.
A digital input is ON when it is connected
to GND, and will be OFF when it is
opened. Action current is 10mA.
GND
Analog grounding
terminal
AVI
Zero potential of +10V and +24V
Default: DC voltage 0-10V (Impedance
Analog input terminal 20kΩ)
Option: DC current 4-20mA (Jumper J10)
10V
Analog reference
voltage
FM
Analog output
terminal
10V±5%, maxi. Load limit: 20mA.
Default: DC voltage 0-10V
Option: DC current 4-20mA (Jumper J2)
­- 14 -
8000m Series
MO1
+24V
Programmable open
Load limit: 50mA
collector terminal
+24V power supply
terminal
Voltage limit: 48V
For digital input terminal and sensor.
Load limit: 200mA. Generally used as
power supply of digital
terminals and outside sensor.
­- 15 -
8000m Series
Chapter 3 Operation
3.1 Keypad Description
3.1.1 Keypad Schematic Diagram
3.1.2 Key Function Description
Symbol
PRGM
Key Name
Function Description
Program/ Exit key Enter or exit of menu, parameter modification
Progressively enter menu and confirm
parameter.
ENT
Data enter key
▲
Increase key
Progressively increase data or function codes.
▼
Decrease key
Progressively decrease data or function codes.
≤
Shift key
Use it to select displayed parameters cyclically
during running or stop status. In parameter
setting mode, press this key to select the bit to
be modified.
RUN/
STOP
Run/ Stop Reset
Key
For start, stop and reset operation, depends on
control mode setting.
­- 16 -
8000m Series
3.1.3 Indicator Light Description
Indicator Light Name
Description
RUN
Light on: inverter running status.
Hz
Light of frequency
V
Light of voltage
A
Light of current
3.2 Operation Process
3.2.1 Parameter Setting
Three levels of menu are as following:
·Function code group (first-class)
·Function code (second-class)
·Setting parameter of function code (third-class)
Remarks:
Pressing PRGM or ENT can return to the second-class menu from
the third-class menu. The difference is: Pressing ENT will save the
setting parameters into control board, and return to the secondclass menu with shifting to the next function code automatically.
While pressing PRGM will directly return to the second-class menu
without saving the parameters, and keep staying at the current
function code.
­- 17 -
8000m Series
For example:
change the parameter 00.50Hz of function code F1.01 into 05.00Hz
as the following flow chart shows:
Flow Chart of Parameter Setting
Under the third-class menu, if the parameter has no flickering bit,
it means that the function code cannot be modified. The possible
reasons include:
1. The parameter of this function code can’t be modified, such as
actually detected parameter, operation records and so on.
2. This function code can’t be modified during running status, but
can be modified during stop status.
­- 18 -
8000m Series
3.2.2 Fault Reset
When inverter malfunction occurs, it will display the relative fault
information. Use the STOP/ RESET key or terminals (determined
by F5 group) to reset the fault. After fault reset, inverter is at standby status. If not reset when inverter is at fault status, it will keep
operation protection status and cannot run.
3.2.3 Password Setting
When F7.00 is set to be non-zero, the parameter will be the user’s
password. After exit the function code editing status, the password
will be effective after one minute. And then press the PRGM key
again to try to access the function code editing mode, the inverter
panel will display “0.0.0.0”. The password must be input correctly
to access it. If it is necessary to cancel the password function, set
F7.00 to zero.
Notice:
When the inverter is powered on, system will execute initialization
first and inverter panel displays “8000” with four lights on. After
initialization, inverter accesses into stand-by status.
­- 19 -
8000m Series
Chapter 4 Function Code Table
Notice:
“ ○ ”: The parameters can be modified at stop or running status.
“ ● ”: The parameters cannot be modified at running status.
“ ◎ ”: The parameters which are actual-detecting record value cannot be
modified.
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
F0 Group: Basic Parameters
0: Sensorless vector
control
1:V/F control
1
●
0:Keypad
1:Terminals
2: Communication
(RS485)
0
●
0: Valid and saved when
power-off
1:Valid and not saved
when power-off
2: Invalid
3. Control is valid while
running, and is invalid
while stop. When stopped
or power off, the VFD will
not save data
0
○
0: Up/down key
1: Potentiometer of panel
Master
2: AVI terminal
frequency
3: Reserved
setting source X
4: Reserved
5: Reserved
1
●
F0.00
Control mode
selection
F0.01
Control
command
source
F0.02
F0.03
Keypad &
terminal
frequency up/
down control
­- 20 -
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
F0.03
Master
frequency
source X
6: Multi-step speed
terminals
7: Simple PLC
8: PID
9: RS485 Communication
interface
1
●
F0.04
Auxiliary
frequency
source Y
0: AVI terminal
1: ACI terminal
2: Reserved
1
●
F0.05
Range of
auxiliary
frequency
setting source Y
0: Relative to the maxi.
frequency
1: Relative to master
frequency setting source X
0
●
0
○
50.00 Hz
○
0
●
50.00Hz
●
F0.06
Reserved
0:X
1: Y
2: X and Y
3: Maximum value of (X,
Y)
F0.07
Frequency
setting source
selection
F0.08
Keypad setting
0.00Hz~ F0.10
frequency
F0.09
Running
direction
selection
0: Forward
1: Reverse
2: Reverse running
prohibited
F0.10
Maximum
output
frequency
10.00~600.00Hz
­- 21 -
0.01Hz
0.01Hz
8000m Series
Function
Code
F0.11
F0.12
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
0:Keypad setting (F0.12)
1:AVI terminal
Upper limit
2: Reserved
frequency
3: Multi-step speed
source selection terminals
4: Communication
interface
Upper limit
frequency
F0.14~ F0.10
F0.13
0
○
0.01Hz
50.00Hz
○
0.01Hz
0.00Hz
○
0
○
According
to model
○
0
●
Reserved
F0.14
Lower limit
frequency
0.00Hz~ Upper limit
frequency F0.12
F0.15
The function
of lower limit
frequency
F0.16
Carrier
frequency
setting
F0.17
PWM mode
selection
0:PWM mode 1
1:PWM mode 2
2:PWM mode 3
F0.18
Acceleration
time 1
0.1~3600.0s
0.1s
According
to model
○
F0.19
Deceleration
time 1
0.1~3600.0s
0.1s
According
to model
○
0: Running at lower limit
frequency
1: Stop frequency point
2: Sleep frequency point
1.0~15.0kHz
­- 22 -
1kHz
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
F0.20
0: No operation
1: Restore to factory
Default setting
setting
2:Fault record clearing
0
●
F0.21
Parameter lock 0: Unlock parameter
setting
1: Lock parameter
0
○
0
●
1
○
0
●
0.01Hz
1.50Hz
○
F0.22
Acceleration/
deceleration
method
0: Linear method
1: Reserved
F0.23
Reserved
F0.24
Reserved
F0.25
Cooling fan
running method 0: Keep running when
(only for 4kW power on
and above
1: Automatic running
inverter)
F1 Group: Start and Stop Parameters
F1.00
Start mode
0:Start directly
1:DC braking first and
then start
2:Speed tracing first and
then start
F1.01
Start frequency 0.00~10.00Hz
F1.02
Hold time of
0.0~50.0s
start frequency
0.1s
0.0s
○
F1.03
DC braking
current before
start
0.1%
0.0%
○
0.1s
0.0s
○
F1.04
0.0~150.0%
DC braking time
0.0~50.0s
before start
­- 23 -
8000m Series
Function
Code
Function
F1.05
Stop mode
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
0: Deceleration to stop
1: Coast to stop
0
○
0.01Hz
0.00Hz
○
F1.07
Waiting time
before DC
0.0~50.0s
braking at stop
0.1s
0.0s
○
F1.08
DC braking
0.0~150.0%
current at stop
0.1%
0.0%
○
Trigging
F1.06 frequency of DC 0.00~ F0.10
braking at stop
F1.09
DC braking time
0.0~50.0s
at stop
0.1s
0.0s
○
F1.10
Dead-zone time
between FWD 0.0~3600.0s
and REV
0.1s
0.0s
○
F1.11
Terminals
0: Disabled
control option
1: Enabled
when power on
1
○
0.0s
○
0
○
0.0s
○
0
○
F1.12
~
F1.17
Reserved
F1.18
Wake-up time
delay
F1.19
Restart option 0: Disabled
after power-off 1:Enabled
F1.20
Waiting time
of restart after
power-off
F1.21
0.0~3600s
0.0~3600s
Over modulation 0: Disabled
option
1:Enabled
­- 24 -
0.1s
0.1s
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
F2 Group: Motor Parameters
F2.00
Inverter model
F2.01
Motor rated
power
F2.02
Motor rated
frequency
F2.03
0:General model (G)
1:Pump model (P)
0
●
0.4~7.5kW
Defined
0.1kW by inverter
model
●
10.00Hz~ F0.10
0.01Hz
●
Motor rated
0~36000rpm
rotation speed
50.00Hz
1rpm
●
F2.04
Motor rated
voltage
0~480V
1V
●
F2.05
Motor rated
current
0.8~30A
0.1A
●
F2.06
Motor stator
resistance
0.001~65.53Ω
0.001Ω
○
F2.07
Motor rotator
resistance
0.001~65.53Ω
F2.08
Motor stator
inductance
0.1~6553mH
0.1mH
○
F2.09
Motor rotator
mutual
inductance
0.1~6553mH
0.1mH
○
F2.10
Motor no-load
current
0.1~9.0A
A
○
F2.11
Motor
parameters
autotuning
0:No autotuning
1: Autotuning completely
(without load)
2:Static autotuning (with
load)
­- 25 -
Defined
by inverter
0.001Ω
model
0
○
●
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
F2.12 Reserved
F3 Group: Vector Control Parameters
F3.00
Proportional
gain 1 of speed 0~100
loop
F3.01
Integral time 1
0.01~10.00s
of speed loop
F3.02
Low frequency
0.00Hz~F3.05
point of switch
F3.03
Proportional
gain 2 of speed 0~100
loop
F3.04
F3.05
20
○
0.01s
0.50s
○
0.01Hz
5.00Hz
○
1
25
○
Integral time 2
0.01~10.00s
of speed loop
0.01s
1.00s
○
High frequency
F3.02~F0.10
point of switch
1Hz
10.00Hz
○
1%
100%
○
0.1%
150.0%
○
1
○
Coefficient
of slip
F3.06
50~200%
compensation at
VC control mode
F3.07
Upper limit
torque
0.0~200.0% (inverter
rated current)
F3.08
Reserved
F3.09
Reserved
0: Not detect
1: Effective during running
and keep running after
Pre-alarm option
F3.10
alarm
when overload
2: Effective during running
and stop after alarm (fault
code:E023)
­- 26 -
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
3: Effective during
constant running and
Pre-alarm option keep running after alarm
F3.10
when overload 4: Effective during
constant running and stop
after alarm
F3.11
Detecting level
1.0~200.0% (referred to
of pre-alarm
inverter rated current)
when overload
F3.12
Detecting time
of pre-alarm 0~600s
when overload
1
○
0.1%
150.0%
○
1s
1s
○
0
●
0.1%
1.0%
○
0.1%
20.0%
●
0.01Hz
0.00Hz
●
0.1%
0.0%
●
0.01Hz
25.00Hz
●
0.1%
50.0%
●
0.01Hz
50.00Hz
●
F4 Group: V/F Control Parameters
F4.00
V/F curve
selection
F4.01
Torque boost
F4.02
0: Linear curve
1: User-defined curve
2: 1.3 square torque-stepdown curve
3: 1.7 square torque-stepdown curve
4: 2 square torque-stepdown curve
0.0 %(auto)
0.1%~30.0%
Torque boost 0.0~50.0% (relative to
cut-off frequency motor rated frequency)
F4.03 V/F frequency 1 0.00Hz~F4.05
F4.04
V/F voltage 1
0.0%~100.0%
F4.05 V/F frequency 2 F4.03~F4.07
F4.06
V/F voltage 2
F4.07 V/F frequency 3
0.0%~100.0%
F4.05~motor rated
frequency
­- 27 -
8000m Series
Function
Code
Function
F4.08
V/F voltage 3
0.0%~100.0%
0.1%
100.0%
●
F4.09
Coefficient
of V/F Slip
compensation
0.0%~200.0%
0.1%
0.0%
○
F4.10
Energy-saving 0:Disabled
selection
1:Enabled automatically
0
○
F4.12
Low-frequency
threshold of
0~10
restraining
oscillation
2
○
F4.13
High-frequency
threshold of
0~10
restraining
oscillation
0
○
30.00Hz
○
1
○
1
●
2
●
Descriptions
F4.11
Reserved
F4.14
F4.15
Reserved
Boundary
frequency of
restraining
oscillation
F4.16
F4.17
Minimum Factory ModificaUnit
Setting tion Type
0.00Hz~F0.10 (Maxi.
frequency)
0.01Hz
Reserved
AVR function
selection
0:Invalid
1:Valid all the time
2: Only invalid during
deceleration
F5 Group: Input Terminals Parameters
F5.00
M1 terminal
function
F5.01
M2 terminal
function
0:Invalid
1:Forward run (FWD)
2:Reverse run (REV)
3:3-wire control
4:Forward jog run (FJOG)
­- 28 -
8000m Series
Function
Code
F5.02
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
M3 terminal
function
5:Reverse jog run (RJOG)
6: Coast to stop
7: Fault reset (RESET)
8: Pause running
9: External fault input
N. O.
10: UP Key command
11: DOWN Key command
12: Clear UP/DOWN
setting
13: Frequency setting
source switch between X
and Y
14: Frequency setting
source switch between X
and (X+ Y)
15: Frequency setting
source switch between Y
and (X+ Y)
16: Multi-step speed
terminal 1
17: Multi-step speed
terminal 2
18: Multi-step speed
terminal 3
19: Multi-step speed
terminal 4
20: Multi-step speed
pause
21: Acceleration/
deceleration time
selection terminal 1
22: Acceleration/
deceleration time
selection terminal 2
7
­- 29 -
●
8000m Series
Function
Code
F5.03
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
M4 terminal
function
23: Reset simple PLC
after pause
24: Simple PLC pause
25: PID pause
26: Swing frequency
pause (stop at current
frequency)
27: Reset after swing
frequency pause (reset to
central frequency)
28: Counter reset
29:Reserved
30:Acceleration/
deceleration prohibited
31:Counter triggering
32:Clear UP/DOWN
setting temporarily
33: Reserved
34: Counting meter input
35: Counting meter clear
up
36: Command source
switch
37: Terminal input delay
output
38: Reserved
0
●
1~10
5
○
0:2-wire control mode 1
2:2-wire control mode 2
3:3- wire control mode 1
4:3- wire control mode 2
0
●
F5.04
~
F5.09
F5.10
F5.11
Reserved
On/off filter
times
FWD/ REV
control mode
­- 30 -
8000m Series
Function
Code
Function
Descriptions
F5.12
Frequency
change rate
0.01~50.00Hz/s
when UP/
DOWN setting
F5.13
AVI lower limit
0.01Hz/
0.50Hz/s
s
○
0.01V
0.00V
○
F5.14
AVI lower limit
corresponding -100.0%~100.0%
to setting value
0.1%
0.0%
○
F5.15
AVI upper limit 0.00V~10.00V
0.01V
10.00V
○
F5.16
AVI upper limit
corresponding -100.0%~100.0%
to setting value
0.1%
100.0%
○
F5.17
AVI input filter
time
0.01s
0.10s
○
1
○
F5.18
~
F5.32
0.00V~10.00V
Minimum Factory ModificaUnit
Setting tion Type
0.00s~10.00s
Reserved
F6 Group: Output Terminals Parameters
F6.00
MO1 output
selection
0:No output
1:Motor forward running
2:Motor reverse running
3:Fault output
4: Frequency detecting
level FDT output
5:Frequency reached
6:Running at zero speed
7:Upper limit frequency
reached
8:Lower limit frequency
reached
9:Frequency setting
value less than lower limit
frequency
­- 31 -
8000m Series
Function
Code
Function
F6.00
MO1 output
selection
F6.01
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
10:FDT reached
11:Accumulative running
time reached
12:PLC cycle completed
13:Pre-alarm when
overload
14:User define output
15:Running frequency
detection
16:Terminal input delay
17:Inverter stand-by
1
○
Reserved
0
○
F6.02
Relay 1 output
selection
3
○
F6.03
Reserved
0
○
0
○
0.1%
0.0%
○
0.01V
0.00V
○
0.1%
100.0%
○
F6.04
F6.05
F6.06
F6.07
FM output
selection
0:Running frequency
1:Setting frequency
2:Running rotation speed
3:Output current
4:Output voltage
5:Reserved
6:Reserved
7:Reserved
8: Analog AVI input value
9: Reserved
FM output lower
0.0~100.0%
limit
FM lower limit
corresponding 0.00V~10.00V
to output
FM output upper
0.0~100.0%
limit
­- 32 -
8000m Series
Function
Code
F6.08
Function
Descriptions
FM upper limit
corresponding 0.00V~10.00V
to output
F6.09
~
F6.13
0.01V
F6.16
10.00V
○
0
○
00
○
0
○
Reserved
0:Running frequency
1:Setting frequency
2:DC bus voltage
3:Output current
4:Output voltage
5:Sign of start and stop
User defined
status
F6.14 output variability
6:Sign of control status
option (EX)
7:Counter value
8:Counting meter value
9:Inverter module
temperature
10:AVI input value
11:Reserved
F6.15
Minimum Factory ModificaUnit
Setting tion Type
Units digit: comparison
test method
0: Equal (EX==X1)
1: Equal or greater than
2: Equal or less than
Comparison
3: Interval comparison
method of user
(X1≤EX≤X2)
defined output
4:Units digit test
(EX&X1=X2)
Tens digit : output method
0 : False value output
1: Real value output
User defined
dead interval
0~65535
­- 33 -
8000m Series
Function
Code
Function
F6.17
Output
comparison
value X1
0~65535
0
○
F6.18
Output
comparison
value X2
0~65535
0
○
0
○
0
○
35
○
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
F7 Group: Display Interface Parameters
F7.00
User password 0~9999
F7.01
~
F7.03
Reserved
F7.04
0:Only valid for keypad
setting
1:Valid for both keypad
setting and terminals
Stop function
setting
selection of
2:Valid for both
STOP/RESET
keypad setting and
key
communication interface
setting
3:Valid for all control
mode
F7.05
Reserved
0~0xFFFF
BIT0:Running frequency
BIT1:Setting frequency
BIT2:DC bus voltage
Running status
BIT3:Output voltage
F7.06 display selection
BIT4:Output current
1
BIT5:Running speed
BIT6:Linear speed
BIT7:Reserved
BIT8:Reserved
­- 34 -
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
BIT9:PID setting value
BIT10:PID feedback value
BIT11:Input terminals
status
Running status
BIT12:Output terminals
F7.06 display selection
status
1
BIT13:Reserved
BIT14:Counter value
BIT15:Current step of
multi-step speed and PLC
35
○
1~0xFFFF
BIT0:AVI value
BIT1: Reserved
BIT2:Reserved
Running status BIT3: Motor overload ratio
F7.07 display selection BIT4: Inverter overload
2
ratio
BIT5:Running time
BIT6:Counting meter
value
BIT7~BIT15: Reserved
0
○
0~0xFFFF
BIT0: Setting frequency
BIT1: DC bus voltage
BIT2:Input terminal status
BIT3:Output terminal
status
Stop status
F7.08
BIT4:PID setting value
display selection
BIT5:PID feedback value
BIT6:AVI value
BIT7:Reserved
BIT8:Reserved
BIT9: Current step of
multi-step speed and PLC
3
○
­- 35 -
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
BIT10:Reserved
Stop status
BIT11:Counting meter
F7.08
display selection value
BIT12~BIT15:Reserved
F7.09
Inverter module
0~100℃
temperature
F7.10
Inverter software
version (DSP)
F7.11
Accumulative
running time
F7.12
Inverter software
version (MCU)
3
1℃
○
◎
◎
0~9999h
1hour
◎
◎
F7.13
Reserved
F8 Group: Auxiliary Function Parameters
F8.00
Jog running
frequency
0.00~F0.10
0.01Hz
F8.01
Jog running
acceleration
time
0.1~3600s
0.1s
○
F8.02
Jog running
deceleration
time
0.1~3600s
0.1s
○
F8.03
Acceleration
time 2
0.1~3600s
0.1s
F8.04
Deceleration
time 2
0.1~3600s
0.1s
○
F8.05
Acceleration
time 3
0.1~3600s
0.1s
○
F8.06
Deceleration
time 3
0.1~3600s
0.1s
○
­- 36 -
5.00Hz
Defined
by inverter
model
○
○
8000m Series
Function
Code
Function
F8.07
Acceleration
time 4
0.1~3600s
0.1s
F8.08
Deceleration
time 4
0.1~3600s
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
○
0.1s
Defined
by inverter
model
○
F8.09
Skip frequency
0.00~F0.10
1
0.01Hz
0.00Hz
○
F8.10
Skip frequency
0.00~F0.10
2
0.01Hz
0.00Hz
○
F8.11
Skip frequency
0.00~F0.10
bandwidth
0.01Hz
0.00Hz
○
0.01Hz
50.00Hz
○
5.0%
○
0.1%
0.0%
○
115.0~140.0% (standard
DC bus voltage)
0.1%
120.0%
○
0.1~999.9%
0.1%
100.0%
○
0
○
1h
9999
○
0.01Hz
0.00Hz
○
0.01s
0.10s
○
F8.12
FDT level
0.00~F0.10
F8.13
FDT lag
0.0~100.0%
F8.14
Detecting range
0.0~100.0% (Maxi.
of reached
frequency)
frequency
F8.15
Braking
threshold
voltage
F8.16
Speed display
coefficient
F8.17
Start/stop
selection when 0:Keep running
running time is 1:Stop
over
F8.18
Running time
setting
0~9999h
F8.19
Droop control
0.00Hz~10.00Hz
F8.20
Panel filter time
0.00~10.00s
selection
­- 37 -
0.1%
8000m Series
Function
Code
Function
F8.21
Output delay
time selection
F8.22
Lower limit
of frequency
detecting
F8.23
Upper limit
of frequency
detecting
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
0~9999s
0.1s
0.0s
○
0.00~Maximum frequency
0.01Hz
20.00Hz
○
0.00~Maximum frequency
0.01Hz
40.00Hz
○
0.1kW
◎
F8.24
Reserved
F8.25
Inverter rated
power
0.4~7.5kW
F8.26
Inverter rated
current
0.0~17A
0.1A
Defined
by inverter
model
F8.27
Linear speed
display
coefficient
0.1~999.9% (linear
speed= mechanical speed
* F8.27)
0.1%
1.0%
○
0
○
0.0%
●
F8.28
~
F8.29
◎
Reserved
F9 Group: PID parameters
F9.00
PID setting
source
0:Keypad(F9.01)
1:Analog terminal AVI
2:Reserved
3:Communication
interface
4:Muli-function digital
input terminals
F9.01
Keypad PID
preset
0.0%~100.0%
­- 38 -
0.1%
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
0:Analog terminal AVI
1:Reseved
PID feedback
F9.02
2: Reseved
source selection
3:Communication
interface
0
○
0
○
0.01
0.10
○
F9.05 Integral time (Ti) 0.01~10.00s
0.01s
0.10s
○
F9.06
Differential time
0.00~10.00s
(Td)
0.01s
0.00s
○
F9.07
Sampling cycle
0.01~100.0s
(T)
0.01s
0.10s
○
F9.08
Bias limit of PID
0.0~100.0%
control
0.1%
0.0%
○
F9.09
Feedback lost
0.0~100.0%
detecting value
0.1%
0.0%
○
F9.10
Feedback lost
detecting time
0.1s
1.0s
○
F9.11
PID sleep
0: PID normal working
function option 1: PID sleep
0
○
F9.12
PID sleep
detecting delay 0.0~3600.0s
time
0.1s
3.0s
○
0.0~100.0%
0.1%
0.0%
○
PID wake-up
detecting delay 0.0~3600.0s
time
0.1s
3.0s
○
F9.03
PID output
characteristic
0: Positive
1: Negative
F9.04
Proportional
gain (Kp)
0.00~100.0
F9.13
F9.14
PID wake-up
threshold
0.0~3600.0s
­- 39 -
8000m Series
Function
Code
Function
Descriptions
Lower frequency
F9.15
of PID sleep 0.00Hz~20.00Hz
detecting
F9.16
~
F9.18
Minimum Factory ModificaUnit
Setting tion Type
0.01Hz
10.00Hz
○
Reserved
FA Group: Protection and Malfunction Parameters
FA.00
0:Disabled
1:Normal motor with low
Motor overload speed compensation
protection
2:Variable frequency
motor without low speed
compensation
FA.01
Motor over load 20.0%~120.0% (motor
protection
rated current)
FA.02
FA.03
Threshold of
trip-free
70.0%~110.0% (standard
bus voltage)
Decrease rate of
0.00Hz~F0.10
trip-free
FA.04
Over-voltage 0:Disabled
stall protection 1:Enabled
FA.05
Over-voltage
stall protection 110~150%
point
FA.06
Auto current
limiting level
FA.07
Frequency
decrease rate
when current
limiting
50~200%
0.00~50.00Hz/s
­- 40 -
2
●
0.1%
100.0%
○
0.1%
80.0%
○
0.01Hz
0.00Hz
○
0
○
1%
120%
○
1%
160%
○
0.01Hz/
10.00Hz/s
s
○
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
0:Enabled
Auto current
FA.08
1: Disabled at constant
limiting selection
speed
FA.09
Fault auto reset
0~3
times
FA.10
Fault auto reset
0.1~100.0s
interval
0.1s
FA.11
Reserved
FA.12
Reseved
FA.13
Phase-lack
protection of
output
0: Disabled
1:Enabled
0: No fault
1: Inver ter module
protection (E001)
The second fault
FA.14
2. Over-current when
before last
accelerate (E002)
3: Over-current when
decelerate (E003)
4: Over-current at
constant speed (E004)
5: Over-voltage when
accelerate (E005)
6: Over-voltage when
decelerate (E006)
The fault before 7: Over-voltage at onstant
FA.15
last
speed (E007)
8: Hardware overvoltage
(E008)
9: Under voltage (E009)
10: Inverter overload
(E010)
­- 41 -
1
○
0
○
1.0s
○
1
○
◎
◎
8000m Series
Function
Code
FA.16
Function
The last fault
Running
FA.17 frequency at the
last fault
FA.18
Output current
at the last fault
FA.19
DC bus voltage
at the last fault
Input terminal
FA.20 status at the last
fault
Output terminal
FA.21 status at the last
fault
Descriptions
11: Motor overload (E011)
12: Input Phase Loss
(E012)
13: Output Phase Loss
(E013)
14: Heatsink overheating
(E014)
15: External fault (E015)
16: Communication fault
(E016)
17: Reserved
18: Current sensing circuit
fault (E018)
19: Motor autotuning fault
(E019)
20: Reserved
21: Reserved
22: EEPROM fault (E022)
23: Pre-alarm fault when
overload (E023)
24: PID feedback loss
fault (E024)
25: Running time reached
(E025)
26: Counting meter
reached (FULL)
Minimum Factory ModificaUnit
Setting tion Type
◎
Hz
◎
A
◎
V
0.0V
◎
0
◎
0
◎
FB Group: Swing Frequency and Counting Meter Parameters
FB.00
FB.01
FB.02
Swing frequency 0.0~100.0% (relative to
bandwidth
setting frequency)
0.0~50.0% (relative
Skip frequency
to swing frequency
bandwidth
bandwidth)
Rising time of
0.1~3600.0s
swing frequency
­- 42 -
0.1%
0.0%
○
0.1%
0.0%
○
0.1s
5.0s
○
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
FB.03
Dropping time of
0.1~3600.0s
swing frequency
0.1s
5.0s
○
FB.04
0:Start from zero when
Counting meter power on
method
1:Start from counting
meter of the last time
0.1s
5.0s
○
1cm
100cm
○
1m
1000m
○
Roller perimeter
FB.05
of counting
0~9999cm
meter
FB.06
Setting value of
0~9999m
counting meter
FB.07
Clear meter 0: No operation
counting value 1: Clear
0
○
FB.08
Counter value
setting
FB.09~9999
0
○
FB.09
Designated
counter value
0~FB.08
0
○
1~247, 0 refers to the
broadcast address
1
○
0:1200BPS
1:2400BPS
2:4800BPS
3:9600BPS
4:19200BPS
5:38400BPS
3
○
FB.10
Reseved
FC Group: RS485 Communication Parameters
FC.00
FC.01
Local address
Baud rate
selection
­- 43 -
8000m Series
Function
Code
FC.02
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
0: No check (N, 8, 1) for
RTU
1: Even parity check (E,
8, 1) for RTU
2: Odd parity check (0, 8,
1) for RTU
Data bit check
3: No check (N, 8, 2) for
RTU
4: Even parity check (E,
8, 2) for RTU
5: Odd parity check (0, 8,
2) for RTU
0
○
FC.03
Communication
response
0~200ms
delay time
1ms
5ms
○
FC.04
Communication
timeout fault 0.0 (invalid), 0.1~100.0s
time
0.1s
0.0s
○
FC.05
0:Alarm and coast to stop
1:No alarm and continue
to run
Dispose of
2:No alarm but stop
communication
according to F1.05 (only
timeout fault
when F0.01= 2)
3: No alarm but stop
according to F1.05
1
○
Unit’s digit:
0: Response to writing
1: No response to writing
Transmission Ten’s place:
FC.06
response action 0:Value not saved when
power-off
1: Value saved when
power-off
0
○
­- 44 -
8000m Series
Function
Code
Function
Descriptions
Minimum Factory ModificaUnit
Setting tion Type
FD Group-Multi-step Speed and Simple PLC Parameters
FD.00
FD.01
FD.02
FD.03
FD.04
FD.05
FD.06
FD.07
FD.08
FD.09
FD.10
FD.11
Simple PLC
operation
method
0:Stop after operation
once time
1:Keep the final value
after operation once time
2:Operation in cycles
0
○
0
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
Memory option Retentive Upon Power Off
of simple PLC 0: No
when power-off 1: Yes
Multi- step
speed 0
-100~100%
0th step running
0.0~6553s(m)
time
Multi- step
speed 1
-100~100%
1st step running
0.0~6553s(m)
time
Multi- step
speed 2
-100~100%
2nd step running
0.0~6553s(m)
time
Multi- step
speed 3
-100~100%
3rd step running
0.0~6553s(m)
time
Multi- step
speed 4
-100~100%
4th step running
0.0~6553s(m)
time
­- 45 -
8000m Series
Function
Code
Function
FD.12
Multi- step
speed 5
FD.13
FD.14
FD.15
FD.16
FD.17
FD.18
FD.19
FD.20
FD.21
FD.22
Descriptions
-100~100%
5th step running
0.0~6553s(m)
time
Multi- step
speed 6
-100~100%
6th step running
0.0~6553s(m)
time
Multi- step
speed 7
-100~100%
7th step running
0.0~6553s(m)
time
Multi- step
speed 8
-100~100%
8th step running
0.0~6553s(m)
time
Multi- step
speed 9
-100~100%
9th step running
0.0~6553s(m)
time
Multi- step
speed 10
-100~100%
10th step running
0.0~6553s(m)
FD.23
time
FD.24
Multi- step
speed 11
-100~100%
11th step running
0.0~6553s(m)
FD.25
time
FD.26
Multi- step
speed 12
-100~100%
­- 46 -
Minimum Factory ModificaUnit
Setting tion Type
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
8000m Series
Function
Code
FD.27
FD.28
Function
Descriptions
12th step running
0.0~6553s(m)
time
Multi- step
speed 13
-00~100%
13th step running
0.0~6553s(m)
FD.29
time
FD.30
Multi- step
speed 14
-100~100%
14th step running
0.0~6553s(m)
FD.31
time
FD.32
Multi- step
speed 15
-100~100%
15th step running
0.0~6553s(m)
FD.33
time
Minimum Factory ModificaUnit
Setting tion Type
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
0.1%
0.0%
○
0.1s(m)
0.0s
○
FD.34
Acceleration
time of 0th~7th
steps
0~0xFFFF
0
○
FD.35
Acceleration
time of 8th~15th 0~0xFFFF
steps
0
○
0
○
0
○
FD.36
FD.37
PLC restart
method
0: Restart from 1st step
1: Restart from break-off
frequency
0
PLC operation 0: second (s)
time unit
1: minute (m)
FE Group: Reserved
FF Group: Reserved Factory Parameters
­- 47 -
8000m Series
Chapter 5
Trouble Shooting
5.1 Fault and Trouble Shooting
Fault
Code
E001
E002
E003
E004
Fault Type
IGBT module
fault
Overcurrent when
acceleration
Overcurrent when
deceleration
Over-current
at constant
running speed
Reason
Solution
1: Acceleration time is
too short
2: IGBT module
damaged
3: Malfunction caused
by interference
4: Grounding is not
properly
1:Increase acceleration
time
2: Ask for support
3: Inspect external
equipment and
eliminate interference
4: Check grounding
wire
1: Accelerate too fast
2: Input voltage is too
low
3: Inverter capacity is
too low
1:Increase acceleration
time
2:Inspect the input
power supply or wiring
3:Select larger capacity
inverter
1: Decelerate too fast
2: Load is too heavy and
has large inertia
3: Inverter capacity is
too low
1:Increase deceleration
time
2: Add suitable braking
units
3: Select larger
capacity inverter
1: Sudden change of
load
2: Input voltage is too
low
3: Inverter capacity is
too low
1:Check the load
2: Inspect the input
power supply or wiring
3: Select larger
capacity inverter
­- 48 -
8000m Series
Overvoltage when
acceleration
1: Input voltage
abnormal
2: Restart the motor
when instantaneous
trip-off occurs
1:Inspect input power
2:Avoid prompt restart
when trip-off
E006
Overvoltage when
deceleration
1: Decelerate too fast
2: Load is too heavy and
has large inertia
3: Input voltage
abnormal
1: Increase
deceleration time
2: Add suitable braking
units
3: Inspect input power
E007
Over-voltage
at constant
running speed
1: Input voltage
abnormal
2: Load inertia is too
large
1: Install input AC
reactor
2: Add suitable braking
units
E008
Reserved
E009
Under voltage
of DC bus
Input voltage is too low
Inspect power grid
Inverter
overload
1: Accelerate too fast
2: Restart the motor
when instantaneous
trip-off occurs
3: Input voltage is too
low
4: Load is too heavy
1:Increase acceleration
time
2: Avoid prompt restart
when trip-off
3: Inspect power grid
4: Select larger
capacity inverter
Motor overload
1: Input voltage is too
low
2: Improper setting of
motor rated current
3: Improper motor’s
overload protection
threshold
4: Inverter capacity is
too low
1: Inspect voltage of
power grid
2: Properly setting of
motor rated current
3: Inspect load and
boost the torque
4: Select larger
capacity inverter
E005
E010
E011
­- 49 -
8000m Series
E012
Reserved
Phase-lack of
output side
1: There is a broken wire Check the wiring and
in
installation
the output cable
2: There is a broken wire
in the motor winding.
3.: Output terminals are
loose
E014
Inverter
overheat
1:Instantaneous over
current of inverter
2:Output short circuit
3: Cooling fans
of inverter stop or
damaged. Obstruction of
ventilation channel
4: Ambient temperature
is too high
5: The cables or
terminals are loose
6: Power circuit
abnormal
7: Control PCB board
abnormal
1: Refer to over current
solutions
2: Use the good wire
3: Replace cooling
fan and clear the
ventilation channel
4:Decrease the
ambient temperature
5:Inspect and tighten
the wire and terminals
6 and 7: Ask for
support
E015
External fault
External fault input
terminals take effect
Inspect external
equipment
E013
E016
E017
1: Improper baud rate
setting
2: Receive wrong data
Communication
3: Communication is
fault
interrupted for long time
Reserved
­- 50 -
1: Set proper baud rate
2: Push STOP/RESET
to reset and ask for
support
3: Check
communication devices
and cables
8000m Series
E018
E019
Current
detection fault
1: Improper setting of
motor rated parameters
2: Overtime of
Autotuning fault autotuning
3: Too much error
E020
Reserved
E021
Reserved
E022
E023
1: Wires or connectors
of control board are
loose
2: Amplifying circuit
abnormal
3: Hall sensor is
damaged
4: Power circuit
abnormal
EEPROM fault
Overload prealarm
1:Check the wiring and
connectors
2,3 and 4: Ask for
support
1: Set rated parameters
according to motor
nameplate
2: Check motor’s wiring
3: Make motor
uncoupled with load
and autotune again
1: Read/ Write fault of
control parameters
2: EEPROM damaged
Push STOP/RESET
to reset and ask for
support
1: Accelerate too fast
2: Restart the motor
when instantaneous
trip-off occurs
3: Input voltage is too
low
4: Load is too heavy
1:Increase acceleration
time
2: Avoid prompt restart
when trip-off
3: Inspect power grid
4: Select larger
capacity inverter
5: Set the suitable
parameter of F3.10
­- 51 -
8000m Series
E024
FULL
PID feedback
lost fault
1: Sensor disconnect or
loose contact
2: Detecting time of
disconnection is too
short
3: No feedback signal of
system
1: Check sensor
installation and
connection
2: Extend the detecting
time of sensor
disconnection
Counting meter
full
1: Setting value of
counting meter reached
2: The value of counting
meter gets to 9999m
Push STOP/RESET
key to reset
5.2 Common Faults and Solutions
Inverter may have following faults or malfunctions during operation,
please refer to the following solutions.
No display after power on:
· Inspect whether the voltage of power supply is the same as the
inverter rated voltage or not with multi-meter. If the power supply
has problem, inspect and solve it.
· Inspect whether the three-phase rectify bridge is in good condition
or not. If the rectification bridge is burst out, ask for support.
Power supply air switch trips off when power on:
· Inspect whether the input power supply is grounded or short circuit.
Solve this problem.
· Inspect whether the rectify bridge has been burnt or not. If it is
damaged, ask for support.
­- 52 -
8000m Series
Motor doesn’t run after inverter works:
· Inspect if there is balanced three-phase output among U, V, W. If
yes, then motor could be damaged, or mechanically locked.
· If the output is unbalanced or lost, the inverter drive board or the
output module may be damaged, ask for support.
Inverter displays normally when power on, but switch at the
input side trips when running:
· Inspect whether the output side of inverter is short circuit. If yes,
ask for support.
· Inspect whether ground fault exists. If yes, solve it.
· If trip happens occasionally and the distance between motor and
inverter is too far, it is recommended to install output AC reactor.
· Inspect whether the output module is burnt or not. If yes, ask for
support.
­- 53 -
8000m Series
Chapter 6 Communication Address
F0.00
F0.01
F0.02
F0.03
F0.04
F0.05
F0.06
F0.07
F0.08
F0.09
F0.10
F0.11
F0.12
F0.13
F0.14
F0.15
F0.16
F0.17
F0.18
F0.19
F0.20
F0.21
F0.22
F0.23
F0.24
F0.25
F1.00
F1.01
F1.02
F1.03
F1.04
F1.05
F1.06
F1.07
F1.08
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
F1.09
F1.10
F1.11
F1.12
F1.13
F1.14
F1.15
F1.16
F1.17
F1.18
F1.19
F1.20
F1.21
F2.00
F2.01
F2.02
F2.03
F2.04
F2.05
F2.06
F2.07
F2.08
F2.09
F2.10
F2.11
F2.12
F3.00
F3.01
F3.02
F3.03
F3.04
F3.05
F3.06
F3.07
F3.08
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
68
66
67
68
69
F3.09
F3.10
F3.11
F3.12
F4.00
F4.01
F4.02
F4.03
F4.04
F4.05
F4.06
F4.07
F4.08
F4.09
F4.10
F4.11
F4.12
F4.13
F4.14
F4.15
F4.16
F4.17
F5.00
F5.01
F5.02
F5.03
F5.04
F5.05
F5.06
F5.07
F5.08
F5.09
F5.10
F5.11
F5.12
­- 54 -
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
F5.13
F5.14
F5.15
F5.16
F5.17
F5.18
F5.19
F5.20
F5.21
F5.22
F5.23
F5.24
F5.25
F5.26
F5.27
F5.28
F5.29
F5.30
F5.31
F5.32
F6.00
F6.01
F6.02
F6.03
F6.04
F6.05
F6.06
F6.07
F6.08
F6.09
F6.10
F6.11
F6.12
F6.13
F6.14
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
8000m Series
F6.15
F6.16
F6.17
F6.18
F7.00
F7.01
F7.02
F7.03
F7.04
F7.05
F7.06
F7.07
F7.08
F7.09
F7.10
F7.11
F7.12
F7.13
F8.00
F8.01
F8.02
F8.03
F8.04
F8.05
F8.06
F8.07
F8.08
F8.09
F8.10
F8.11
F8.12
F8.13
F8.14
F8.15
F8.16
F8.17
F8.18
F8.19
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
F8.20
F8.21
F8.22
F8.23
F8.24
F8.25
F8.26
F8.27
F8.28
F8.29
F9.00
F9.01
F9.02
F9.03
F9.04
F9.05
F9.06
F9.07
F9.08
F9.09
F9.10
F9.11
F9.12
F9.13
F9.14
F9.15
F9.16
F9.17
F9.18
FA.00
FA.01
FA.02
FA.03
FA.04
FA.05
FA.06
FA.07
FA.08
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
FA.09
FA.10
FA.11
FA.12
FA.13
FA.14
FA.15
FA.16
FA.17
FA.18
FA.19
FA.20
FA.21
FB.00
FB.01
FB.02
FB.03
FB.04
FB.05
FB.06
FB.07
FB.08
FB.09
FB.10
FC.00
FC.01
FC.02
FC.03
FC.04
FC.05
FC.06
FD.00
FD.01
FD.02
FD.03
FD.04
FD.05
FD.06
­- 55 -
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
FD.07
FD.08
FD.09
FD.10
FD.11
FD.12
FD.13
FD.14
FD.15
FD.16
FD.17
FD.18
FD.19
FD.20
FD.21
FD.22
FD.23
FD.24
FD.25
FD.26
FD.27
FD.28
FD.29
FD.30
FD.31
FD.32
FD.33
FD.34
FD.35
FD.36
FD.37
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
Guangzhou Sanjing Electric CO., LTD.
TEL: 400-159-0088 www.saj-electric.com
ADD: SAJ Innovation Park, No.9, Lizhishan Road, Science City,
Guangzhou High-tech Zone, Guangdong, P.R.China
V 1.2
Inverter

Новости

10
07.23

Контроль температуры пищевых жидких сред

03
07.23

Погружные датчики для определения уровня жидких сред

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