Parameter Groups
‑95‑
5: Pulse reference (DI5)
The frequency upper limit is set through the DI5. The frequency is calculated
based on the curve of the relationship between the pulse frequency and the
setting frequency.
6: Multi‑reference
In multi‑reference control mode, different combinations of DI terminal states
correspond to different frequency references. The four multi‑reference terminals
can provide 16 state combinations, corresponding to 16 reference values.
7: Simple PLC
Simple PLC is a multi‑speed running command that can control the running time
and the acceleration and deceleration time. Parameters FC‑00 to FC‑15 are used
to set the values of each frequency. FC‑18 to FC‑49 are used to set the running
time and the acceleration and deceleration time of each frequency. Up to 16
speeds can be set.
8: PID
PID is selected as the main frequency. PID control is a general process control
method. PID control is used to form a closed‑loop system in which each
controlled variable is stabilized at the target level through proportional, integral,
and differential calculation of the difference between the feedback signal and the
target signal of the controlled variable. Generally, PID output can be used as the
frequency reference for on‑site closed‑loop process control applications, such as
closed‑loop pressure control and closed‑loop tension control.
9: Communication
The main frequency is set through communication. Frequency reference is input
through remote communication. The AC drive must be equipped with a
communication card to realize communication with the host controller. It is
suitable for remote control or centralized control systems of multiple equipment.
10: Reserved
F0-04
Auxiliary frequency source Y selection
Address:
0xF004
Min.:
0
Unit:
‑
Max.: 10 Data type: UInt16
Default:
0
Change:
At stop
Value Range:
To Next Page
Loading...
