Schematic Wiring Diagrams - Emerson Copeland Screw SCH2 Applications Manual

Semi-hermetic compact, high temp compressors 35-140 horsepower

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• Direction of rotation/phase sequence (direct mea-

surement at compressor terminals)

Immediate interruption of control current and

lock-out with wrong direction of rotation / phase

sequence (indication via signal contact 12)

Reset (after correction of fault) by interruption of

the supply voltage L/N for at least 2 seconds.

The protection device is built into the terminal box.

The wiring to the motor and oil temperature PTC

sensors and also to be motor terminals is factory

mounted. The electrical connections to the device

should be made according to figure 21 or 22 and the

schematic wiring diagrams.

In principle the device could be also built into the

control panel. In the case it is essential to adhere to

the following recommendations:

Special attention must be given when fitting the

INT69VSY-II in the control panel:

• The connecting cables to the motor terminals must

be wired in the sequence described (L1 to terminal

"1" etc.) Check with a direction of rotation indicator!

• Danger of induction!

Only use shielded cables or a twisted pair to

connect to the PTC motor sensors and oil tempera-

ture PTC sensors.

• Additional fuses (4 A) must be incorporated in the

connecting cables between "L1/L2/L3" of the

protection device and the motor terminals "1/2/3".

• The terminals T1-T2 on the compressor and 1-2 on

protection device must not come into contact with

supply or control voltage.

CAUTION

If the rotation direction is wrong: Danger

of severe compressor damage!

6.4 Schematic wiring diagrams

The following schematic wiring diagrams show ex-

amples of application for part winding and star delta

start each with infinite and 4-step capacity con-

trol.

trol. In addition optional control schemes for liquid

injection, economizer operation and oil level controls

are included.

Issued 4-2002

Printed in U.S.A.

part winding and star delta

Make sure that the rotation monitoring is

functioning! Terminal D1 of the

functioning! T

INT69VSY-II must be connected

INT69VSY

according to the wiring diagram.

according to the wiring diagram. Remove

the jumper L/D1 at this time.

The following requirements must be ensured by

the control logic:

• Minimum time of standstill: 1 minute. Valid during

maintenance also!

Returning time of the control slide - CR3 (Y3)

energized

• Maximum cycling rate 6 to 8 starts per hour!

• Minimum running time desired 5 minutes!

• Switch-over time part winding 0.5 seconds start

delta 1 second

Instruction for start delay timer with economizer

operation

The switching-on device F7 must ensure that the

refrigerant flow to the liquid sub-cooler is not switched

on until operating conditions have sufficiently stabi-

lized. This is achieved by using the solenoid valve Y6.

With frequent starting from high suction pressure, a

pressure switch should be sued. The set point should

be sufficiently above the nominal evaporating tempera-

ture in order to prevent the economizer solenoid valve

Y6 from short cycling.

For systems with relatively constant pull down cycles

(such as liquid chillers), an alternative is to use a time

relay. The delay time must then be checked individu-

ally for each individual systems.

Legend

Control Unit

Main fuse

Compressor fuse

Control circuit fuse

High pressure cut out

Low pressure cut out

Start delay timer "Economizer"

Oil level switch (option)

F13

Thermal overload "motor" PW1

CAUTION

erminal D1 of the

-II must be connected

Remove

AE4-1322

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Schematic Wiring Diagrams - Emerson Copeland Screw SCH2 Applications Manual

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