Quick Start Guide of CV10- ControlVIT Series
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EL086A01
●
5.4 Motor and control parameters
·Please refer to the name plate setting of motors.
Code
Name
Detailed instruction of parameters
Default
value
Modify
P02 Group Motor
P02.01
Rated power
of
asynchronous
motor
Set the parameter of the controlled asynchronous motor.
In order to ensure the controlling performance, set the
P2.01~P2.05 according to the name plate of the
asynchronous motor.
In order to ensure the controlling performance, please
configure the motor according to the standard principles, if
the gap between the motor and the standard one is huge,
the features of the inverter will decrease.
Depends
on model
◎
P02.02
Rated
frequency of
asynchronous
motor
50.00Hz
◎
P02.03
Rated speed
of
asynchronous
motor
Depends
on model
◎
P02.04
Rated voltage
of
asynchronous
motor
Depends
on model
◎
P02.05
Rated current
of
asynchronous
motor
Depends
on model
◎
P02.06
Stator resistor
of
asynchronous
motor
These parameters are basic parameters controlled by
vectors which directly impact the features.
Note:
Users cannot modify the parameters freely.
Depends
on model
○
P02.07
Rotor resistor
of
asynchronous
motor
Depends
on model
○
P02.08
Leakage
inductance of
asynchronous
motor
Depends
on model
○
P02.09
Mutual
inductance of
asynchronous
motor
Depends
on model
○
P02.10
Non-load
current of
asynchronous
motor
Depends
on model
○
P02.26
Motor
overload
protection
0:No protection
1: Common motor (with low speed compensation).
2: Frequency conversion motor (without low speed
compensation)
2
◎
P02.27
Motor
overload
protection
coefficient
Times of motor overload M = Iout/(In*K)
20.0%~120.0%
100.0%
○
P04 Group SVPWM control
P04.00
Motor V/F
curve setting
0:Straight line V/F curve
;
1:Multi-dots V/F curve
0
◎
P04.01 Torque
boost
The setting range of P04.01:0.0%:
(automatic) 0.1%~10.0%
The setting range of P04.02: 0.0%~50.0%
Note: V1
<
V2
<
V3, f1
<
f2
<
f3. Too high low frequency
voltage will heat the motor excessively or damage. The
inverter may occur in the overcurrent speed or overcurrent
protection.
The setting range of P04.03: 0.00Hz~P04.05
The setting range of P04.04, P04.06 and P04.08 :
0.0%~110.0%
The setting range of P04.05: P04.03~ P04.07
The setting range of P04.07: P04.05~P02.02 (the rated
frequency of motor)
0.0%
○
P04.02 Torque boost
close
20.0%
○
P04.03
Motor V/F
frequency
point 1
0.00Hz
○
P04.04
Motor V/F
voltage
point 1
00.0%
○
P04.05
Motor V/F
frequency
point 2
00.00Hz
○
P04.06
Motor V/F
voltage point 2
00.0%
○
P04.07
Motor V/F
frequency
point 3
00.00Hz
○
P04.08
Motor V/F
voltage point 3
00.0%
○
P04.09
Motor V/F slip
compensation
gain
△
f=f
b
-n*p/60
Of which, f
b
is the rated frequency of the motor, its function
code is P02.02; n is the rated rotating speed of the motor
and its function code is P02.03; p is the pole pair of the
motor. 100.0% corresponds to the rated slip frequency
△
f.
Note: no torque compensation for single-phase 220V
inverters
Setting range: 0.0~200.0%
0%
○
P04.10
Low frequency
vibration
control factor
The setting range of P04.10: 0~100
The setting range of P04.11: 0~100
The setting range of P04.12: 0.00Hz~P00.03 (the Max.
frequency)
10
○
P04.11
High
frequency
vibration
control factor
10
○
P04.12
Vibration
control
threshold
30.00 Hz
○
P04.26 Energy-saving
operation
0: No operation
1: Automatic energy-saving
0
◎
P05 Group Input terminals
P05.01
S1 terminal
function
selection
0: No function
1: Forward rotation operation
2: Reverse rotation operation
3: 3-wire control operation
4: Forward rotation jogging
5: Reverse rotation jogging
6: Coast to stop
7: Fault reset
8: Operation pause
9: External fault input
10: Increasing frequency setting (UP)
11: Decreasing frequency setting (DOWN)
12: Cancel the frequency change setting
13: Shift between A setting and B setting
14: Shift between combination setting and A setting
1
◎
P05.02
S2 terminal
function
selection
4
◎
P05.03
S3 terminal
function
selection
7
◎
P05.04
S4 terminal
function
selection
0
◎
P05.05
S5 terminal
function
0
◎
Code
Name
Detailed instruction of parameters
Default
value
Modify
selection
15: Shift between combination setting and B setting
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: ACC/DEC time option 1
25: PID control pause
26: Traverse Pause (stop at the current frequency)
27: Traverse reset (return to the center frequency)
28: Counter reset
30: ACC/DEC prohibition
31: Counter trigger
33: Cancel the frequency change setting temporarily
34: DC brake
36: Shift the command to the keypad
37: Shift the command to the terminals
38: Shift the command to the communication
P05. 32 Lower limit of
AI1
AI1 is set by the analog potentiometer
0.00V~P05.34
0.00V
○
P05.33
Corresponding
setting of the
lower limit of
AI1
-100.0%~100.0% 0.0%
○
P05.34
Upper limit of
AI1
P05.32~10.00V 10.00V
○
P05.35
Corresponding
setting of
the upper limit
of AI1
-100.0%~100.0% 100.0%
○
P05.36 AI1 input filter
time
0.000s~10.000s 0.100s
○
P05.37
Lower limit of
AI2
AI2 is set by control terminal
0.00V~P05.39
0.00V
○
P05.38
Corresponding
setting of the
lower limit of
AI2
-100.0%~100.0% 0.0%
○
P05.39
Upper limit of
AI2
P05.37~10.00V 10.00V
○
P05.40
Corresponding
setting of
the upper limit
of AI2
-100.0%~100.0% 100.0%
○
P05.41 AI2 input filter
time
0.000s~10.000s 0.100s
○
P06 Group Output terminals
P06.01
Y output
selection
0: Invalid
1: On operation
2: Forward rotation operation
3: Reverse rotation operation
4: Jogging operation
5: The inverter fault
6: Frequency degree test FDT1
7: Frequency degree test FDT2
8: Frequency arrival
9: Zero speed running
10: Upper limit frequency arrival
11: Lower limit frequency arrival
12: Ready for operation
14: Overload pre-alarm
15: Underload pre-alarm
16: Completion of simple PLC stage
17: Completion of simple PLC cycle
18: Setting count value arrival
19: Defined count value arrival
20: External fault valid
22: Running time arrival
23: MODBUS communication virtual terminals output
0
○
P06.03
Relay RO
output
selection
1
○
P06.05
Polarity of
output
terminals
When the current bit is set to 0, input terminal is positive.
When the current bit is set to 1, input terminal is negative.
BIT3
BIT2
BIT1
BIT0
Reserved RO1 Reserved Y
Setting range: 00~0F
00
○
P06.06 Y switching on
delay time
0.000~50.000s
0.000s
○
P06.07 Y switching off
delay time
0.000~50.000s
0.000s
○
P06.10
RO switching
on delay time
0.000~50.000s
0.000s
○
P06.11
RO switching
off delay time
0.000s
○
P06.14
AO output
0:Running frequency
1:Set frequency
2:Ramp reference frequency
3:Running rotation speed
4:Output current (relative to the rated current of the
inverter)
5:Output current(relative to the rated current of the motor)
6:Output voltage
7:Output power
8:Set torque value
9:Output torque
10:Analog AI1 input value
11:Analog AI2 input value
14:MODBUS communication set value 1
15:MODBUS communication set value 2
0
○
P06.17
Lower limit of
AO output
When the analog output is current output, 1mA equals to
0.5V.
In different cases, the corresponding analog output of
100% of the output value is different. Please refer to each
application for detailed information.
Setting range of P06.18: 0.00V~10.00V
Setting range of P06.19: P06.17~100.0%
Setting range of P06.20: 0.00V~10.00V
Setting range of P06.21: 0.000s~10.000s
0.0%
○
P06.18
Corresponding
AO output to
the lower limit
0.00V
○
P06.19
Upper limit of
AO output
100.0%
○
P06.20
The
corresponding
AO output to
the upper limit
10.00V
○
P06.21
AO output
filter time
0.000s
○
