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1

KLR/KDR Line Reactor

Installation Instruction

INPUT

When installing the KLR/KDR Line Reactors

on the INPUT side of the Variable Frequency

Drive (VFD), please use the following

guidelines when wiring the unit:

e KLR/KDR Line Reactor is a

3-phase device and should be wired in a

series and positioned on the input side of the

VFD.

All Terminal Block connectors will

be marked. A1, B1, and C1 are the input

terminals where the 3 phases of incoming

power are to be wired. As a result, A2, B2,

and C2 are the output terminals. Units with

copper bus or ring lug terminals are not

marked. In these cases, either the upper

terminals or lower terminals can be used as

the input terminals as long as the selection is

consistent. For example, if an upper terminal

is selected as the input, all upper terminals

must be input terminals. Wiring from the

output terminals should connect to the input

of the VFD.

Refer to NEC wiring practices for

appropriate wire sizes for your application.

Power Wiring: Only use 75°C copper

conductors unless the wire connector is

marked for Al/Cu, then the use of aluminum

wire is permitted.

TCI recommends that these reactors

be wired and located as close to the front

end of the VFD as possible to have the

greatest success in both protecting the VFD

as well as mitigating line harmonics.

In standard 40°C ambient or less

installations, a clearance of 3 inches on

all sides of the reactors and its enclosure

is recommended for assisting in heat

dissipation and ample wire bending space.

is is a general guideline for typical

applications. If the reactor is being installed

next to a heat sensitive instrument or

control device, we recommend reviewing

specic requirements or heat limitations.

Line reactor heat loss information is

available on the web at www.transcoil.com.

ese reactors are designed to be

oor-mounted or wall-mounted. Large

open-style devices should be panel

mounted by incorporating a bracket that

would act as a shelf to support the reactor

and/or enclosure. When installing an open

style device in an existing control cabinet,

drive cabinet, motor control center, or

other large enclosure, the reactor should be

mounted in the lower half of the cabinet to

prevent hot spots or pockets of heat (this

typically allows better thermal dissipation

and heat convection). Reactors with ducts

must be mounted in such a way that

maximizes air ow. Reactors with ducts

are designed to be mounted vertically for

proper cooling.

Field Wiring Information

Below is the typical wiring diagram for the

3-phase reactor applied to the front end of

the Variable Frequency Drive (VFD).

Single-phase applications are acceptable,

however, it is important to size the unit

based on the single phase Full Load

Amperage of the VFD. e input and

output connections should be on terminals

A and C to ensure proper performance.

3-Phase, 600 Volt Class

UL Recognized; File E-116124

CE Marked

CSA Certied

Current-rated device

200% rated current for 3 minutes

Ambient Temperature: 40°C

Product Specications

Wiring Diagram

LOAD

LINE

C1

A1

B1*

L1

L3

L2

C2

A2

B2*

LINE REACTOR

* For single-phase applications, use coils A and C.

Isolate terminals B1 and B2.