Parameter
number
Name
Setting range
Default value
User setting
value
P.73
Voltage signal selection
0: The range for the input voltage signal
(terminal 2-5) is 0~5V
1
1:The range for the input voltage signal
(terminal 2-5) is 0~10V
P.74
10X output selection
0~10
0
P.75
Stop or Reset function selection
0: Press STOP button and stop the operation
only in PU and H2 mode
1
1: Press STOP button and stop the operation
in all mode.
P.76
Reserve
---
---
P.77
Parameters write protection
0: Parameters can be written only when the
motor stops.
0
1: Parameters cannot be written.
2: Parameters can also be written when the
motor is running.
4: Parameters cannot be written when in
password protection.
P.78
Forward/reverse
rotation
prevention
selection
0, 1, 2
0
P.79
Operation mode selection
0~8
0
P.80
Multi-function terminal M0 function
selection
0: STF(the AC Drive runs forward)
2
1: STR(the AC Drive runs reverse)
2: RL(Multi-speed low speed)
3: RM(Multi-speed medium speed)
4: RH(multi-speed high speed)
5: AU
6:OH
7:MRS
8:RT
9:EXT
10: STF+EXJ
11: STR+EXJ
12: STF+RT
13: STR+RT
14: STF+RL
15: STR+RL
16: STF+RM
17: STR+RM
18: STF+RH
19: STR+RH
20: STF+RL+RM
21: STR+RL+RM
22: STF+RT+RL
23: STR+RT+RL
24: STF+RT+RM
25: STR+RT+RM
26: STF+RT+RL+RM
27: STR+RT+RL+RM
28: RUN(the AC Drive runs forward)
29: STF/STR(it is used with RUN, when
STF/STR is ”on”, AC Drive runs reverse;
when STF/STR is “off”, the AC Drive runs
forward)
30: RES(external reset function)
31: STOP(it can be used as a three-wire
mode with the RUN signal or the
STF-STR terminal)
32: REX(multi-speed set (16 levels))
33: PO(in “external mode", programmed
operation mode is chosen)
34: RES_E (external reset become valid only
when the alarm goes off.)
P.80
Multi-function terminal M0 function
selection
35: MPO (in “external mode” manually
operation cycle mode is chosen.)
2
36: TRI(triangle wave function is chosen)
37:GP_BP
38:CS
39: STF/STR +STOP (The motor has a
reverse rotation when the RUN signal is on.
When it is off, stop the motor and then run
the motor for forward rotation.)
40: P_MRS (the AC Drive output
instantaneously stops, The MRS is pulse
signal input)
43: RUN_EN (the digital input terminal
running enable)
44: PID_OFF (digital input terminal stopping
PID enable)
45: The second mode
P.81
Multi-function terminal M1 function
selection
Same as P.80
3
P.82
Multi-function terminal M2 function
selection
Same as P.80
4
P.83
Multi-function terminal STF function
selection
Same as P.80
0
P.84
Multi-function terminal STR function
selection
Same as P.80
1
P.85
Function selection for multi-function relay
0: RUN(AC Drive running)
5
1: SU(reaching the output frequency)
2: FU(output frequency detection)
3: OL(overload detection)
4: OMD(zero current detection)
5:ALARM (Alarm detection)
6:PO1 (Section detection)
7: PO2
8:PO3
9:BP (Inverter output)
10:GP
11:OMD1(zero current detection)
12:OL2(Over torque alarm output)
13~16: Reserve
17: RY(the accomplishment of AC Drive
running preparation)
18: Maintenance alarm detection
P.86
Multi-function terminal RES function
selection
Same as P.80
30
P.87
Multi-Function control terminal input
positive/negative logic selection
0~63
0
P.88
Multi-function output terminal
positive/negative logic selection
0~3
0
P.89
Slip compensation coefficient
0~10
0
P.90
The inverter model
---
---
P.91
Frequency jump 1A
0~650Hz, 9999
9999
P.92
Frequency jump 1B
0~650Hz, 9999
9999
P.93
Frequency jump 2A
0~650Hz, 9999
9999
P.94
Frequency jump 2B
0~650Hz, 9999
9999
P.95
Frequency jump 3A
0~650Hz, 9999
9999
Parameter
number
Name
Setting range
Default
value
User setting
value
P.96
Frequency jump 3B
0~650Hz, 9999
9999
P.97
The second frequency source
0:Frequency is given by operation panel PU
0
1:Frequency is given by communication
2:Frequency is given by external terminal
P.98
Middle frequency 1
0~650Hz
3Hz
P.99
Output voltage 1 of middle frequency
0~100%
10
P.100
Minute/second selection
0: The minimum increment of run time is 1
minute.
1
1: The minimum increment of run time is 1
second.
P.101
Runtime of section 1 in programmed
operation mode
0~6000s
0s
P.102
Runtime of section 2 in programmed
operation mode
0~6000s
0s
P.103
Runtime of section 3 in programmed
operation mode
0~6000s
0s
P.104
Runtime of section 4 in programmed
operation mode
0~6000s
0s
P.105
Runtime of section 5 in programmed
operation mode
0~6000s
0s
P.106
Runtime of section 6 in programmed
operation mode
0~6000s
0s
P.107
Runtime of section 7 in programmed
operation mode
0~6000s
0s
P.108
Runtime of section 8 in programmed
operation mode
0~6000s
0s
P.110
Operation panel monitoring selection
0: When AC Drive starts, the operation panel
enters the monitoring mode automatically,
and the screen displays the output
frequency.( this frequency for slip
compensation)
0
1: When the AC Drive starts, the screen of
the operation panel displays the target
frequency.
2: When AC Drive starts, operation panel
enters monitoring mode automatically, and
screen displays current output frequency.
3:When inverter starts, built-in keypad enters
monitor mode automatically, screen displays
current pressure and feedback
pressure of the constant pressure system in
percentage (note)
4: When AC Drive starts, operation panel
doesn’t enter monitoring mode automatically,
and screen displays the mode of starting.
5:When inverter starts, built-in keypad enters
monitor mode automatically, screen displays
current pressure and feedback
pressure of the constant pressure system
(Only valid on built-in keypad)
P.111
Acceleration/deceleration time of section 1
0~600s/0~6000s
0s
P.112
Acceleration/deceleration time of section 2
0~600s/0~6000s
0s
P.113
Acceleration/deceleration time of section 3
0~600s/0~6000s
0s
P.114
Acceleration/deceleration time of section 4
0~600s/0~6000s
0s
P.115
Acceleration/deceleration time of section 5
0~600s/0~6000s
0s
P.116
Acceleration/deceleration time of section 6
0~600s/0~6000s
0s
P.117
Acceleration/deceleration time of section 7
0~600s/0~6000s
0s
P.118
Acceleration/deceleration time of section 8
0~600s/0~6000s
0s
P.119
The dead time of positive and reverse
rotation
0~3000s
0s
P.120
Output signal delay time
0~3600s
0s
P.121
Run direction in each section
0~255
0
P.122
Cycle selection
0~8
0
P.123
Acceleration/deceleration time setting
selection
0: The acceleration time is determined by
P.7the deceleration time is determined by
P.8.
0
1: The acceleration time and deceleration
time are both determined by P.111~P.118.
P.131
Frequency of section 1
0~650Hz
0Hz
P.132
Frequency of section 2
0~650Hz
0Hz
P.133
Frequency of section 3
0~650Hz
0Hz
P.134
Frequency of section 4
0~650Hz
0Hz
P.135
Frequency of section 5
0~650Hz
0Hz
P.136
Frequency of section 6
0~650Hz
0Hz
P.137
Frequency of section 7
0~650Hz
0Hz
P.138
Frequency of section 8
0~650Hz
0Hz
P.139
Voltage signal bias
0%~100%
0%
P.140
Voltage signal gain
0.1%~200%
100%
P.141
Voltage signal bias direction and rotational
direction setup
0~11
0
P.142
Speed 8
0~650Hz
0Hz
P.143
Speed 9
0~650Hz, 9999
9999
P.144
Speed 10
0~650Hz, 9999
9999
P.145
Speed 11
0~650Hz, 9999
9999
P.146
Speed 12
0~650Hz, 9999
9999
P.147
Speed 13
0~650Hz, 9999
9999
P.148
Speed 14
0~650Hz, 9999
9999
P.149
Speed 15
0~650Hz, 9999
9999
P.150
Restart mode selection
XXX0:No frequency search
0
XXX1:Reserve
XXX2:Reduced voltage way
XX0X: Electricity once
XX1X: Every time I start
XX2X: Only the instantaneous stop to rev.
P.151
Zero-speed control function selection
0, 1
0
P.152
Voltage instruction at zero-speed control
0~30%
5%
P.153
Communication error handling
0: Warn and call to stop
0
1:
Don't alarm and continue running
P.154
Modbus communication data format
0:1、7、N、2 (Modbus, ASCII)
4
1:1、7、E、1 (Modbus, ASCII)
2:1、7、O、1 (Modbus, ASCII)
3:1、8、N、2 (Modbus, RTU)
4:1、8、E、1 (Modbus, RTU)
5:1、8、O、1 (Modbus, RTU)
P.155
Over torque detection level
0~200%
0%
P.156
Over torque detection time
0~60s
1s
P.157
External terminals filter adjusting function
0~200ms
4ms
Parameter
number
Name
Setting range
Default
value
User setting
value
P.158
External terminal power enable
0: Digital input terminal power unable
0
1: Digital input terminal power enable
P.159
energy-saving control function
0: Normal running mode.
0
1: Energy-saving running mode.
P.160
Reserve
---
---
P.161
Multi-function display selection
0~9, 11~13, 19~21
0
P.162
Middle frequency 2
0~650Hz, 9999
9999
P.163
Output voltage 2 of middle frequency
0~100%
0
P.164
Middle frequency 3
0~650Hz, 9999
9999
P.165
Output voltage 3 of middle frequency
0~100%
0
P.166
Middle frequency 4
0~650Hz, 9999
9999
P.167
Output voltage 4 of middle frequency
0~100%
0
P.168
Middle frequency 5
0~650Hz, 9999
9999
P.169
Output voltage 5 of middle frequency
0~100%
0
P.170
PID function selection
0:PID function non-selected
0
1:The target value is determined by P.225. The
feedback value is determined by the voltage of
terminal 2-5.
2:The target value is determined by P.225. The
feedback value is determined by the voltage of
terminal 4-5.
P.171
PID feedback control method selection
0: Negative feedback control
0
1:Positive feedback control
P.172
PID proportion gain
1~100
20
P.173
PID integration gain
0~100s
1s
P.174
PID differential gain
0~1000ms
0 ms
P.175
Abnormal deviation level
0~100%
0
P.176
Exception duration time
0~600s
0s
P.177
Exception handling mode
0: Free stop
0
1: Decelerate and stop
2: Continue to run when the alarm goes off
P.178
Sleep detects deviation
0~100%
0
P.179
Sleep detects duration time
0~255s
1s
P.180
Revival level
0~100%
90%
P.181
Outage level
0~120Hz
40Hz
P.182
Integral upper limit frequency
0~120Hz
50Hz/60Hz(
Note)
P.183
Deceleration step length with stable pressure
0~10Hz
0.5Hz
P.184
4-5 terminal disconnection handling
0: No disconnection selection is available.
0
1: Decelerate to 0Hz, the digital output terminal
will set off the alarm
2: AC Drive will stop immediately, and the panel
will display “AErr” alarm.
3: AC Drive will run continuously according to
frequency reference before disconnection. The
digital output terminal will set off alarm.
P.185
Proportion linkage gain
0~100%
0
P.187
FM calibration parameter
0~9998
220
P.188
Firmware version
---
---
P.189
Factory setting function
0: The frequency parameter default value is
60Hz system.
60Hz
1: The frequency parameter default value is
50Hz system.
50Hz
P.190
AM output bias
0~8192
0
P.191
AM output gain
0~8192
600
P.192
2-5 terminal minimum input voltage
0~10
0
P.193
2-5 terminal maximum input voltage
0~10
0
P.194
Frequency corresponds to the minimum input
voltage of terminal 2-5
0~60Hz
0Hz
P.195
Frequency corresponds to the maximum
input voltage of terminal 2-5
0~650Hz
50Hz/60Hz
(Note)
P.196
Frequency corresponds to the minimum input
current/voltage across terminal 4-5
0~60Hz
0Hz
P.197
Frequency corresponds to the maximum
input current /voltage across terminal 4-5
0~650Hz
50Hz/60Hz
(Note)
P.198
Minimum input current/voltage across
terminal 4-5
0~20
0
P.199
Maximum input current/voltage across
terminal 4-5
0~20
0
P.223
Analog feedback bias pressure
0~100%
0%
P.224
Analog feedback gain pressure
0~100%
100%
P.225
Panel command
0~P.251,9999
20%
P.226
The paver function selection
0:Reciprocating mechanical function is invalid
0
1:Reciprocating mechanical function effectively
P.227
The limit time of positive rotation
0~3600s
0
P.228
The limit time of reverse rotation
0~3600s
0
P.229
Backlash
compensation
and
acceleration/deceleration interrupted for
waiting function selection
0: None.
0
1: Backlash compensation function.
2: Acceleration and deceleration interrupt
waiting function.
P.230
The acceleration interrupt frequency
0~650Hz
1Hz
P.231
The acceleration interrupt time
0~360s
0.5s
P.232
The deceleration interrupt frequency
0~650Hz
1Hz
P.233
The deceleration interrupt time
0~360 s
0.5s
P.234
Triangular wave function selection
0: None.
0
1: External TRI is turned on, triangular wave
function will be valid.
2: The triangular wave function is effective at
any given time.
P.235
Maximum amplitude
0~25%
10%
P.236
Amplitude compensation for deceleration
0~50%
10%
P.237
Amplitude compensation for acceleration
0~50%
10%
P.238
Amplitude acceleration time
0~360s/0~3600 s
10 s
P.239
Amplitude deceleration time
0~360s/0~3600 s
10s
P.240
Auxiliary frequency function selection
0:Auxiliary frequency function is not selected
0
1: operation frequency = basic fre
auxiliary frequency (2-5)
2: operation frequency = basic fre
auxiliary frequency (4-5)
3: operation frequency = basic frequency -
auxiliary frequency (2-5)
4: operation frequency = basic frequency -
auxiliary frequency (4-5)
5: 2-5 terminals given as a proportion linkage
signal
6: 4-5 terminals given as a proportion linkage
signal.
