Lenze MC3000 Series User Manual

13435743_EDBM301_v14 .0

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19

MC3000 PID SETPOINT CONTROL

PID Setpoint Control allows the MC3000 to maintain a process setpoint, such as PSI or

CFM, without using an external controller . When PID is activated, the MC3000 will operate

in a closed-loop fashion, automatically adjusting the motor speed to maintain the setpoint .
PID setpoint control requires feedback from the process in order to compare the process

variable “value” to the setpoint . The difference between the process variable “value” and

the setpoint is called the error . The MC3000 will increase or decrease the motor speed

in an attempt to minimize the error . By constantly adjusting the motor speed, the PID

control will drive the process toward the setpoint . Refer to the PID block diagram below:

SETPOINT

Process Variable

Feedback (transducer)

Motor

Error

Speed

Command

P

I

D

Process

19 .1

FEEDBACk DEVICES

A transducer or transmitter is required to monitor the process variable and provide

feedback to the PID unit in order to compare the process variable feedback to the setpoint .

A transducer outputs a signal corresponding to a fixed range of the process variable . A

transmitter provides offset and gain adjustments to allow the output signal to be adjusted

to correspond to different ranges of the process variable . Typical output signals for

transducers and transmitters are: 0-5 VDC, 0-10 VDC, or 4-20 mA . The feedback device

must be externally powered, as the drive does not have a power supply for such devices .

Program Parameter 74 - PID FB (PID FEEDBACk SOURCE) for the appropriate terminal

(TB-5A or TB-5B), and connect the feedback device as described below:

POT

The positive signal wire (wiper) is connected to TB-5A, and the

“high” lead is connected to TB-6 .

0-5, 0-10 VDC

Connect the positive signal wire to TB-5A .

4-20 mA

Connect the positive signal wire to TB-5B .

The common, or negative signal wire, is connected to TB-2 (circuit common) .
Feedback devices can be direct or reverse acting . A direct acting device outputs a signal

that increases as the process variable increases . A reverse acting device outputs a signal

that decreases as the process variable increases . The programming of Parameters 75

- FB @ MIN and 76 - FB @ MAX depend on the type of feedback device being used .
When using a direct acting transducer, Parameter 75 - FB @ MIN should be set to the

value of the process variable feedback corresponding to the minimum feedback signal (0

VDC or 4 mA), and Parameter 76 - FB @ MAX should be set to the value of the process

variable feedback corresponding to the maximum feedback signal (5 or 10 VDC, or 20 mA) .