Chapter 4 explanation of functions – Hitachi SJ700-2 User Manual

Chapter 4 Explanation of Functions

4.2.102 Torque LAD stop function

A044/A244: V/F characteristic curve selection,
1st/2nd motors
b040: Torque limit selection
b041 to b044: Torque limits (1) to (4)
b045: Torque limit LADSTOP enable

Related code

The torque LAD stop function is effective when "03" (sensorless
vector control), "04" (0Hz-range sensorless vector control), or
"05" (vector control with sensor) is specified for the V/F
characteristic curve selection (A044/A244). This function
temporarily stops the frequency-based deceleration function
(LAD) when the torque limitation function operates.

Item

Function code

Data or range of data

Description

03

Sensorless vector control

04

0Hz-range sensorless vector control

V/F characteristic
curve selection

A044/A244

05

Vector control with sensor (not available for
A244)

00

Quadrant-specific setting mode

01 Terminal-switching

mode

02

Analog input mode

03

Option 1 mode

Torque limit
selection

b040

04

Option 2 mode

Torque limit (1)

b041

0 to 200 (%)

Forward powering (in quadrant-specific setting
mode)

Torque limit (2)

b042

0 to 200 (%)

Reverse regeneration (in quadrant-specific
setting mode)

Torque limit (3)

b043

0 to 200 (%)

Reverse powering (in quadrant-specific setting
mode)

Torque limit (4)

b044

0 to 200 (%)

Forward regeneration (in quadrant-specific
setting mode)

00

Disabling the torque LAD stop function

Torque limit
LADSTOP enable

b045

01

Enabling the torque LAD stop function

40

Whether to enable torque limitation

41

Torque limit switch 1

Terminal function

C001 to C008

42

Torque limit switch 2

4.2.103 High-torque multi-motor operation

The high-torque multi-motor operation function allows you to
make a single inverter operate the two motors (having the
same specifications) that drive a single load (machine). This
function is effective when the V/F characteristic curve selection
is the sensorless vector control or 0Hz-range sensorless
control.
To use the function, adjust the inverter settings required for the
sensorless vector control (see Section 4.2.92) or 0Hz-range
sensorless control (see Section 4.2.93), except for the motor
constant settings. Adjust the motor constants as follows:

A044/A244: V/F characteristic curve selection,
1st/2nd motors
F001: Output frequency setting
b040: Torque limit selection
b041 to b044: Torque limits (1) to (4)
H002/H202: Motor data selection, 1st/2nd motors
H003/H203: Motor capacity, 1st/2nd motors
H004/H204: Motor poles setting, 1st/2nd motors
H005/H205: Motor speed constant, 1st/2nd motors
H020/H220: Motor constant R1, 1st/2nd motors
H021/H221: Motor constant R2, 1st/2nd motors
H022/H222: Motor constant L, 1st/2nd motors
H023/H223: Motor constant Io, 1st/2nd motors
H024/H224: Motor constant J, 1st/2nd motors
H050/H250: PI proportional gain, 1st/2nd motors
H051/H251: PI integral gain, 1st/2nd motors
H052/H252: P proportional gain setting, 1st/2nd
motors

Related code

1) For constants R1, R2, and L, specify a value half as large

as that normally specified for one motor.

2) For constant Io, specify a value twice as large as that

normally specified for one motor.

3) For constant J, specify a value half as large as the total

moment of inertia of the two motors and the load connected
to them.

Select the motor capacity that is closest to the collective capacity of both motors.
If different loads are driven by the two motors operated by the inverter, the load fluctuations on one motor
may change the other motor's operation status, and the inverter may be unable to normally control the
motors. Be sure to configure your system so that the motors drive only a single load or multiple loads that
can, at least, be recognized as a single load.

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