Rockwell Automation MinPak Plus DC Drive User Manual User Manual

3:6

should be suppressed to reduce

noise.

Wire AĆC Power to the

Controller

DANGER

THE DRIVE REQUIRES A

SINGLEĆPHASE

POWER

SOURCE OF EITHER 115 VAC

OR 230 VAC, 50 OR 60 HZ. IF

THE CORRECT VOLTAGE IS

NOT AVAILABLE, A TRANSĆ

FORMER

MUST

BE

INĆ

STALLED

BETWEEN

THE

POWER SOURCE AND THE

DRIVE. DO NOT OPERATE

THE

CONTROLLER

WITH

AVAILABLE SHORT CIRCUIT

CURRENTS IN EXCESS OF

5000 AMPERES. FAILURE TO

OBSERVE THESE PRECAUĆ

TIONS COULD RESULT IN

SEVERE BODILY INJURY OR

LOSS OF LIFE.

1. Size the AĆC line supply

conductors for the specific

controller rating and according

to all applicable codes.

2. Wire the AĆC line supply per

Figure 3Ć3.

Power Transformation
Although auto transformers may

step up or down the AĆC power

supply voltage, they do not isolate

the Drive from the AĆC line. Users

should consider using an isolation

transformer in lieu of an auto

transformer for the following

advantages:
D Should a person come in

contact with the AĆC incoming

line, an isolation transformer

would reduce the risk of severe

or fatal injury.

D AĆC power line disturbances and

transients are minimized by an

isolation transformer, thus

reducing possible damage to

solid state components.

D With an isolation transformer, the

Drive is free of plant power

system grounds, providing

electrical isolation for the Drive

from those grounds. Damaging

currents may be avoided in

instances where the DĆC output

is accidentally grounded or

where the DĆC motor circuits go

to ground.

Reliance offers a series of isolation

transformers suitable for use with

the MinPak Plus Drive. Refer to

Table 2Ć2.

Motor Overload Protection
Reliance utilizes a DĆC motor

thermostat for motor thermal

overload protection. The thermostat

is brought out through the motor

terminal box as leads P1 and P2.

These two leads must be wired to

the Controller terminals 32 and 132.

The thermostat leads can be run

with the motor armature and field

power wiring.
If an additional inverse time

overload is added, its normally

closed contact should be wired in

place of the motor thermostat and

connected to the controller at

terminals 32 and 132, or in series

with the motor thermostat when

both are used.
NOTE: The Drive will not start if the

circuit between 32 and 132 is not

made.
Place a jumper between terminals

32 and 132 if an external overload

device is not connected at these

terminals.

Armature Loop Contactor

Sequencing

WARNING

THE MINPAK PLUS DĆC DRIVE

MUST EMPLOY A CONTACĆ

TOR IN THE MOTOR ARMAĆ

TURE LOOP FOR POSITIVE

DISCONNECT OF THE MOĆ

TOR FROM THE DRIVE IN A

STOP CONDITION. AN INADĆ

VERTENT START CAUSED BY

NOISE OR DRIVE COMPOĆ

NENT FAILURE MAY CAUSE

UNEXPECTED MOTOR AND

MACHINE MOVEMENT IF A

CONTACTOR IS NOT USED.

FAILURE TO OBSERVE THIS

PRECAUTION COULD REĆ

SULT IN BODILY INJURY.

In all cases, the Drive must have an

armature loop contactor to

disconnect the motor from the

Controller on a Stop.
When the Armature Loop Contactor

is not supplied by Reliance, its

ON/OFF" sequence must be

integrated into the sequence control

of the regulator just as when the

Contactor is supplied by Reliance.

The "ON" sequence requires that

the contactor is closed and

approximately 8 milliseconds later

the Drive CR Relay is energized to

release the regulator. The OFF"

sequence requires that the Drive CR

Relay first clamps the regulator

(dropĆout of the CR Relay is about 8

milliseconds) and then the

contactor is allowed to dropĆout.
The M Contactor Adapter Kit is to be

used to connect the Contactor to

the Regulator to incorporate this

sequencing function.
Refer to Figure 3Ć5 for

Regulator/Contactor Start/Stop

timing.
The Contactor that is used must

have a 25VDC coil and a maximum

current draw of 150 milliĆamps. A

220 MFD capacitor must be

connected in parallel with the