Setpoint inversion, Function library, Function blocks – Lenze EVS9332xS User Manual

Function library

Function blocks

3.2.45

Speed setpoint conditioning (NSET)

3−133

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EDSVS9332S−EXT EN 2.0

3.2.45.3

Setpoint inversion

The output signal of the JOG function is led via an inverter.

The sign of the setpoint is inverted, if the input NSET−N−INV is triggered with HIGH signal.

Ramp function generator for the main setpoint

The setpoint is then led via a ramp function generator with linear characteristic. Setpoint
step−changes at the input are thus led into a ramp.

100 %

0

tir

tif

t ir

t if

t

RFG−OUT

[%]

W1

w2

T

ir

+ t

ir

100%

w2

* w1

T

if

+ t

if

100%

w2

* w1

Fig. 3−117

Acceleration and deceleration times of the ramp function generator

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The ramps can be set separately for acceleration and deceleration.

– Different acceleration and deceleration times can be activated via the inputs NSET−TI*x 16

(for table and function see JOG setpoints; the decoding must be done according to the
signal graphic).

– The T

i

times can only be activated in pairs.

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When the controller is inhibited (CINH) the ramp function generator accepts the value that was
applied to the input NSET−CINH−VAL and transmits it to the next function. This function has
priority over all other functions.

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NSET−RFG−STOP = HIGH

– The ramp function generator is stopped. Changes at the input of the ramp function

generator have no effect on the output.

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NSET−RFG−0 = HIGH

– The ramp function generator decelerates to zero along the deceleration ramp.

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It is also possible to load the ramp function generator online with a defined value. For this, the
input NSET−LOAD must be set to HIGH. As long as this input is set, the value at input
NSET−SET is accepted by the ramp function generator and provided the output.