Automatic Calculation Of Inverter Frequency Command Value - Omron CP1L CPU UNIT - 03-2009 Operation Manual

Inverter Positioning
Output Coefficient after
Pulse Output
Setting
Output coefficient The output value can be
after pulse output changed by multiplying the
value in the error counter by a
coefficient after deceleration of
internal pulse output.
Output value =
Error × Error counter cycle (s)
× Gain × Coefficient
Note The setting is made in
5-3-9

Automatic Calculation of Inverter Frequency Command Value

Inverter frequency
command value (Hz)
Note
302
Description
1 to 255
(0.01 incre-
ments)
Setting 0 is
the same as
setting 50
(0.01 incre-
ments).
increments of 0.01. The
coefficient will thus be
the set value times 0.01.
For example, if the set
value is 10, the coeffi-
cient will be 0.1 ms.
Set the Power Supply Frequency for One Motor Revolution per Second, Num-
ber of Encoder Pulses for One Motor Revolution, and Error Counter Cycle in
the PLC Setup to automatically calculate the inverter frequency command
value and store it in A23 for inverter positioning 0 and A33 for inverter posi-
tioning 1.
Note The inverter frequency command values are stored in A23 and A33
in increments of 0.01 Hz. Divide the value in A23 or A33 by 100 to
obtain the value in hertz.
The values stored in A23 and A33 can be used in converting the output value
to the frequency command value for the inverter. This value can be output to
the inverter from the program using serial communications or an Analog Out-
put Unit.
Note The following formula is used inside the PLC to automatically cal-
culate the inverter frequency command value from the output value
(i.e., the error counter present value multiplied by the gain). (The
output value is stored in A20 and A21 for inverter positioning 0 and
in A30 and A31 for inverter positioning 1.)
Conversion Factor
Motor frequency for 1 rotation per second (Hz)
Encoder resolution
(pulses/rotation)
Note: The inverter frequency command value is stored in A23/A33 in increments of 0.01 Hz.
(1) Calculate the power supply frequency for one revolution per second from
the motor specifications. For example, with a 1,800-r/min (60-Hz) motor
(30 r/s), the power supply frequency for one revolution per second would
be calculated as follows: 60 [Hz] ÷ 30 [r/s] = 2 [Hz].
(2) The encoder resolution times the counter multiplier times the gear ratio
equals the number of pulses output by the encoder for one motor shaft
revolution.
Set value Default
0: 50 This coefficient can be
(0.01 used to reduce the output
incre- value when it the value in
ments) the error counter is too
large after completing
internal pulse output.
High-speed Motor-encoder
counter shaft gear
multiplier ratio
Section 5-3
Application Refresh timing
When CPU Unit
power is turned
ON
(See
Output value
1
note 1.)
A20/A21
Error counter
A30/A31
cycle (s)
(See
note 2.)