197
Parameter setting
Running mode: P0-01=6
Pulse command state: P0-10=2
Electronic gear ratio: P0-11=0 P0-12=0 P0-13=16384 P0-14=625
Forward torque limit: P3-28=150
Reverse torque limit: P3-29=150
Positioning finished width: P5-00=7
/S-ON: P5-20=0010
/CLR: P5-34=0001
/COIN: P5-38=0001
/CLT: P5-42=0002
Appendix 8. Servo general mode parameters
Appendix 8.1 Basic parameters
P5-20 servo ON signal /S-ON
Enable mode selection, generally P0-03 is default, P5-20 sets
n.0010 as enable on after power on
Adjust servo gain in auto-tuning fast adjustment mode
P0-05 Definition of rotation direction
Determine the motor direction, generally 0/1 by default
P0-25 Power value of discharge
resistance
P0-26 Discharge resistance value
Set the specification parameters of external regeneration resistance
to ensure that they are the same as the actual ones
P3-28 internal forward torque limit
P3-29 internal reverse torque limit
P3-30 external forward torque limit
P3-31 external reverse torque limit
Set servo torque limit source and limit value. The unit of default
value is the percentage of servo torque
P5-44 power loss brake / BK
P5-07 servo off delay time
P5-08 brake command output speed
P5-09 brake command waiting time
The motor with holding brake adopts servo SO terminal to control
the setting parameters of holding brake
output alarm function setting through the SO terminal, SO2
terminal default output is dynamic closing signal.
P7-01 communication configuration
P7-02 RS485 communication protocol
Communication setting related parameters
Appendix 8.2 External pulse position mode general parameters
External pulse position mode general parameters
P0-01 control mode selection
Set to 6: external pulse mode
P0-10 pulse instruction format
P0-11 set motor pulses per revolution *
1
P0-12 set motor pulses per revolution *
10000
P0-13 electronic gear ratio (numerator)
P0-14 electronic gear ratio
(denominator)
P0-92~P0-93 32-bit electronic gear ratio
numerator
Setting of command pulse number required for one revolution of
motor
When P0-11 / P0-12 are all zero, P0-13 / P0-14 takes effect
When P0-11-P0-14 is zero, P0-92~P0-95 is effective
32-bit gear ratio numerator: P0-92 * 1 + P0-93 * 10000
32-bit gear ratio denominator: P0-94 * 1 + P0-95 * 10000
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