31
7.2.33 Pr.40=33, Set frequency = Panel set frequency * ( 100%
±
(Pr.70*AI1) )
This function is similar to mode 21, but the modification input is AI1.
7.2.34 Pr.40=34, Set frequency = Panel set frequency * ( 100%
±
(Pr.70*AI3) )
This function is similar to mode 21, but the modification input is AI3.
7.2.35 Pr.40=35, Set frequency = Panel set frequency
±
( Pr.15 * (Pr.70*AI2) )
This function is similar to mode 22, but the modification input is AI2.
7.2.36 Pr.40=36, Set frequency = Panel set frequency
±
( Pr.15 * (Pr.70*AI3) )
This function is similar to mode 22, but the modification input is AI3.
7.2.37 Pr.40=37, AI1 FORWARD, AI2 REVERSE
While motor run in FORWARD direction, it is same as mode 17, use AI1 as input source.
If the motor run in REVERSE direction, it is same as mode 18, use AI2 as input source.
7.2.38 Pr.40=38, AI2 FORWARD, AI1 REVERSE
While motor run in FORWARD direction, it is same as mode 18, use AI2 as input source.
If the motor run in REVERSE direction, it is same as mode 17, use AI1 as input source.
7.2.39 Pr.40=39, When start running, the output frequency is determined by Pr.00.
If in the case when Pr.00<Pr.16, the inverter will output the frequency stored in Pr.16.
7.2.39 Pr.40=40, The output frequency is determined PID Output.
(for PDAN series only)
Refer to Appendix A.
7.2.41 Pr.40=41~45, reserve
7.2.46 Pr.40=46, Speed Command come from RS485 Serial Port
(for PDAN series only)
When RS485 port is defined as JPS protocol, Speed Command come from RS485 Serial Port.
7.2.47 Pr.40=47, reserve
7.2.48 Pr.40=48, Set Frequency = PID Boost * (PID PID Bias Input from AI1)
(for PDAN series only)
7.2.49 Pr.40=49, Set Frequency = PID Boost * (PID PID Bias Input from AI2)
(for PDAN series only)
7.2.50 Pr.40=50, Set Frequency = PID Boost * (PID PID Bias Input from AI3)
(for PDAN series only)
7.2.51 Pr.40=51, Set Frequency = PID Boost * (PID PID Bias Set by Pr.28)
(for PDAN series only)
Refer to Appendix A.