I.L. 29C508B
Effective September, 2000, Supersedes I.L. 29C508A dated February 1999.
Cutler-Hammer
Installation Instructions for the Digitrip OPTIM 550 3-Pole
Trip Unit Installation and Operation with L-Frame Series C
Circuit Breakers
Table of Contents
Description Page
1.0 General Information . . . . . . . . . . . . . . . . . . . . . .1
2.0 UL Listed Devices . . . . . . . . . . . . . . . . . . . . . . . .2
3.0 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
4.0 Principle of Operation . . . . . . . . . . . . . . . . . . . . .5
4.1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
4.2 Overload Trip . . . . . . . . . . . . . . . . . . . . . . . . . . .6
5.0 Testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6
5.1 Functional Field Testing . . . . . . . . . . . . . . . . . . .6
5.2 Performance Testing for Ground
Fault Trip Units . . . . . . . . . . . . . . . . . . . . . . . . . .6
5.2.1 Code Requirements . . . . . . . . . . . . . . . . . . . . . .6
5.2.2 Standards Requirements . . . . . . . . . . . . . . . . . .6
5.2.3 General Test Instructions . . . . . . . . . . . . . . . . . .6
6.0 Rating Plug . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
7.0 References . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
7.1 Series C L-Frame Molded Case
Circuit Breakers . . . . . . . . . . . . . . . . . . . . . . . . .8
7.2 Internal Accessories . . . . . . . . . . . . . . . . . . . . . .8
DEATH, SEVERE PERSONAL INJURY, OR SUBSTANTIAL PROPERTY DAMAGE CAN RESULT
FROM CONTACT WITH ENERGIZED EQUIPMENT.
DO NOT ATTEMPT TO INSTALL OR PERFORM
MAINTENANCE ON EQUIPMENT WHILE IT IS ENERGIZED. ALWAYS VERIFY THAT NO VOLTAGE IS
PRESENT BEFORE PROCEEDING WITH THE TASK,
ALWAYS FOLLOW GENERALLY ACCEPTED SAFETY PROCEDURES.
CUTLER-HAMMER IS NOT LIABLE FOR THE MISAPPLICATION OR MISINSTALLATION OF ITS PRODUCTS.
The user is cautioned to observe all recommendations,
warnings, and cautions relating to the safety of personnel and equipment as well as all general and local
health and safety laws, codes, and procedures.
!
WARNING
The recommendations and information contained herein
are based on Cutler-Hammer experience and judgement, but should not be considered to be all-inclusive or
covering every application or circumstance which may
arise. If any questions arise, contact Cutler-Hammer for
further information or instructions.
1.0 GENERAL INFORMATION
The Digitrip OPTIM 550, illustrated in Figure 1-1, is an
electronic trip unit that incorporates a microprocessorbased custom application specific integrated circuit
design for use with the Series C L-Frame Molded Case
Circuit Breakers.
The Digitrip OPTIM 550 provides true RMS current
sensing for proper correlation with thermal characteristics of conductors and equipment. Interchangeable rating plugs are provided to establish the continuous current rating of each circuit breaker.
Figure 1-1 Digitrip OPTIM 550 Trip Unit for 3-Pole
L-Frame Series C Circuit Breaker
Make sure that the trip unit is suitable for the intended
installation by comparing nameplate data with any existing equipment and system requirements. Inspect the trip
unit for completeness, and check for damage before
installing it in the circuit breaker frame.
Remove and SAVE the Jumper plug assembly (a 12
position housing) from the trip unit (see Figure 3-2).
Remove the wire-retaining bracket from the right pole of
the trip unit.
Trip unit center retaining screw is captive in the trip
unit conductor; the remaining retaining screws (2
for a 3-pole trip unit) are supplied with the frame.
Remove circuit breaker pan-head cover screws, and
covers. Remove trip unit outer pole screws and red
plastic washers from the frame. Discard red plastic
washers (Figure 3-1).
The two trip unit outer pole retaining screws may be
placed in the trip unit conductor holes at this time. If
preferred, a 5/16 inch hexagonal-head wrench may
be used to position the screws when the trip unit is
in the base.
The Digitrip OPTIM 550 Trip Unit is completely self contained and when the circuit breaker is closed, requires
no external power to operate its protection systems. It
operates from current signal levels and control power
derived through current sensors integrally mounted in
the trip unit.
Digitrip OPTIM 550 Trip Units are suitable for 50/60 Hz
AC applications only. For DC applications, a thermalmagnetic trip unit should be used.
The Digitrip OPTIM 550 Trip Unit for the L-Frame is
available in 3 different types and four different maximum
ampere ratings (Table 1.1).
➀
Ground Fault Alarm trip units do NOT provide ground fault protection.
2.0 UL LISTED DEVICES
The Digitrip OPTIM 550 Trip Unit is listed in accordance
with Underwriters Laboratories, Inc. Standard UL489,
under file E7819 and satisfies the applicable requirements of the International Electrotechnical Commission
(IEC) recommendations for molded case circuit breakers.
3.0 INSTALLATION
The installation procedure consists of inspecting and
installing the trip unit and rating plug. To install the trip
unit, perform the following steps.
If required, internal accessory installation should be
done before the circuit breaker is mounted and connected. Refer to the individual accessory instruction
leaflets.
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Table 1.1 Digitrip OPTIM 550 Trip Unit Types
NOTICE
NOTICE
Catalog Number Max Amps Version Description
LEP3125T52 125A LSI Non-ground Fault
LEP3125T56 125A LSIG Ground Fault
LEP3125T57
➀
125A LSIA Ground Fault Alarm
LEP3250T52 250A LSI Non-ground Fault
LEP3250T56 250A LSIG Ground Fault
LEP3250T57
➀
250A LSIA Ground Fault Alarm
LEP3400T52 400A LSI Non-ground Fault
LEP3400T56 400A LSIG Ground Fault
LEP3400T57
➀
400A LSIA Ground Fault Alarm
LEP3600T52 600A LSI Non-ground Fault
LEP3600T56 600A LSIG Ground Fault
LEP3600T57
➀
600A LSIA Ground Fault Alarm
Figure 3-1 Preliminary Preparation
NOTICE
Remove and Dispose
of Red Spacers
Position the trip unit in the base. Make sure the latch
bracket pin is properly seated in the slots in the sideplates
(Figure 3-2). If necessary, move the handle toward the
line end of the circuit breaker to seat the trip unit.
Screw in and tighten three trip unit retaining screws
(center first). Torque to 12 Ib-ft (16.27 N.m). Make sure
the holes in the trip unit conductors line up with the
tapped holes of the frame load conductors for proper
terminal installation.
DO NOT EXCEED A TORQUE OF 12 LB-FT (16.27
N.M). EXCESSIVE TORQUING WILL SHEAR
SCREWS. FAILURE TO APPLY THE REQUIRED
TORQUE MAY LEAD TO EXCESSIVE HEATING AND
CAUSE NUISANCE TRIPPING OF THE BREAKER.
If a standard “L” frame internal accessory is to be
installed in the right pole, cut the cable tie on wireretaining bracket and discard the bracket. Install the
attachment according to the individual accessory
instruction leaflet, and attach the wires that were
attached to the wire-retaining bracket to the attachment
mount bracket with a cable tie.
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Install the wire retaining bracket into the right pole trip
unit accessory retaining slots. For ground fault or
ground fault alarm trip units route the white and gray
wires out the frame accessory wiring channels.
Ground fault trip units are supplied from the factory with
a wire harness with pigtail lead connections for a neutral
current sensor (white and gray wires). A neutral current
sensor is provided with each trip unit.
Install the jumper plug assembly into the trip unit (see
Figure 3-2) with the keying pin in the bottom right corner.
Note: Jumper plug assembly fits in one orientation only.
Digitrip OPTIM 550 Ground Fault Trip Units detect
ground fault currents through Residual Sensing. They
are not designed to use source ground or zero
sequence ground fault sensing methods. If the system
neutral is grounded, but no phase to neutral loads are
used, the neutral current sensor is not necessary. In that
case, the white and gray leads on the trip unit should be
cut off before installation.
If the system neutral is grounded and phase to neutral
loads are used, then the neutral current sensor must be
used(Figure 3-3). It should be connected to the breaker
according the diagram in Figure 3-4. It has the same
turns ratio as the phase current sensors in the trip unit.
!
CAUTION
Figure 3-2 Trip Unit Installed in Circuit Breaker
Sideplate
(Both Sides)
Latch Pin
Trip Unit
Retaining
Screws
(Both Sides)
Interphase
Barriers
(Both Sides)
Accessory
Retaining Slot
(Both Sides)
Frame Accessory
Wiring Chanels
Orientation
Keying Pin
Jumper Plug
Assembly
Trip Unit Conductor
and Frame Load Conductor
Tapped Holes
for Terminals
Wire-Retaining
Bracket
Do not connect the neutral current sensor secondary
output to ground. Connecting the secondary output
to ground may cause damage to the trip unit.
The polarity of the sensor connections is critical.
Always observe the polarity markings on the installation drawings. The polarity markings are identified
as white dots on the transformer. To insure correct
ground fault equipment performance, conduct field
test to comply with National Electric Code requirements under article 230-95-C. See Section 5.2 for
instructions.
Install accessory(ies), if required, using appropriate
instruction leaflet listed in Section 7.2. Where accessories are not required, install protective barriers supplied with the trip unit in accessory retaining slots of the
trip unit.
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Figure 3-3 Neutral Current Sensor Placement
1.50
Table 3.1 Digitrip L-Frame OPTIM Rating Plugs
Max Amps In Catalog Number
of trip unit
125A 63 A ORPL125A063
125A 70 A ORPL125A070
125A 90 A ORPL125A090
125A 100 A ORPL125A100
125A 110 A ORPL125A110
125A 125 A ORPL125A125
250A 125 A ORPL025A125
250A 150 A ORPL025A150
250A 160 A ORPL025A160
250A 175 A ORPL025A175
250A 200 A ORPL025A200
250A 225 A ORPL025A225
250A 250 A ORPL025A250
400A 200 A ORPL40A200
400A 225 A ORPL40A225
400A 250 A ORPL40A250
400A 300 A ORPL40A300
400A 350 A ORPL40A350
400A 400 A ORPL40A400
600A 300 A ORPL60A300
600A 350 A ORPL60A350
600A 400 A ORPL60A400
600A 500 A ORPL60A500
600A 600 A ORPL60A600
.03
.281 Diam.
2 Holes
.36R
.12
1.00
Ref.
2.75
2.00 Ref.
1.07
6.17
Ref.
1.47
1.438
.28R
4.375 Ref.
5.61
5.75
.12R
Polarity
Markings
.50
2.25
1.188
1.17
2.188
2.25
2.33
3.04
NOTICE
NOTICE
The pins on the circuit board are specifically cut,
and the sockets in the rating plug are specifically
filled to prevent an incorrect rating plug from being
installed.
Screw in and tighten the rating plug screw to secure the
rating plug.
Reset circuit breaker by moving handle to the reset
position. Move handle to the ON position. Circuit breaker handle should remain at the ON position.
Press Push-to-trip button to check the manual tripping of
the circuit breaker.
4.0 PRINCIPLE OF OPERATION
In open air at 40°C, a L-Frame circuit breaker with a
Digitrip OPTIM 550 Trip Unit installed will carry continuously up to 600 amperes without exceeding a 50°C rise
at the terminals. The calibration of the trip unit is insensitive to ambient temperatures over a range of -20° to
+55°C. However the trip unit contains thermal temperature protection circuitry that initiates a trip operation for
self-protection if the internal ambient temperature at the
printed circuit board (PCB) reaches approximately
100°C. This may occur for open air temperatures above
40°C with circuit breaker currents near full load.
For ambient conditions above 40°C and where the maximum ampere rating plug has been installed, derating of
the circuit breaker frame should be considered to avoid
exceeding a safe terminal temperature operating range.
Consult Cutler-Hammer for recommendations.
4.1 GENERAL
The Digitrip OPTIM 550 Trip Unit provides a tripping signal to the flux transfer shunt trip when current and time
delay settings are exceeded. This is accomplished by
employing the Cutler-Hammer custom designed integrated circuit Sµre™chip, which includes a microcomputer to perform its numeric and logic functions.
In the Digitrip OPTIM 550 Trip Unit, all required sensing
and tripping power to operate its protection function is
derived from the current sensors in the circuit breaker.
The secondary currents from these sensors provide the
correct input information for the protection functions, as
well as tripping power, whenever the circuit breaker is
carrying current. These current signals develop analog
voltages across the appropriate calibrating resistors.
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Figure 3-5 Rating Plug Installation
NOTICE
Make sure interphase barriers are properly seated in the
base and sliding handle barrier is properly seated in the
cover.
Install circuit breaker covers and pan-head
screws.Install the rating plug into the trip unit (Figure 3-5
and Table 3.1). The pins on the circuit board must line
up with the sockets in the rating plug and require only
minimal pressure to install. Do NOT attempt to force the
rating plug into the trip unit.
Figure 3-4 Connection Diagram
Source
L C R N
Load
White
Grey
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The microcomputer, in cyclic fashion, repeatedly scans
the voltage values across each calibrating resistor and
enters these values into memory. These data are used
to calculate true RMS current values, which are then
repeatedly compared with the protection function settings and other operating data stored in the memory.
The software program then determines whether to initiate protection functions, including tripping the breaker
through the flux transfer shunt trip device in the circuit
breaker.
4.2 OVERLOAD TRIP
In accordance with standards requirements, the trip unit
initiates a trip of the circuit breaker within two hours for
an overload of 135 percent, and will trip in less time for
higher overload currents.
A "Thermal Memory" effect prevents the breaker from
being re-energized immediately after an overload. A
"cooling off" period of up to 5 minutes is required, which
allows time for cabling to cool off.
For details on the operation and protective functions of
the OPTIM 550 Trip unit and other related instructions,
contact Cutler-Hammer for the following information and
user’s manuals:
L-Frame and Accessories Selection Data 29-120L
Instructions and Overview of
OPTIM Trip Units 29C890
Instructions on the Operation of Digitrip
OPTIMIZER Hand Held Programmer 29C892
Instructions on the Operation of Digitrip
Breaker Interface Module 29C893
Instructions on the Operation of Digitrip
OPTIM Trip Units 29C891
Digitrip OPTIM Wire Diagrams 29C894
5.0 TESTING
5.1 FUNCTIONAL FIELD TESTING
Any field testing should be done in accordance with
applicable NEMA Standard. The operation of circuit
breakers with Digitrip OPTIM RMS trip units can be field
tested periodically using the hand held OPTIMIZER (see
user’s manuals).
5.2 PERFORMANCE TESTING FOR GROUND
FAULT TRIP UNITS
5.2.1 CODE REQUIREMENTS
The National Electrical Code under Article 230-95-C
requires that any ground-fault protection system be per-
formance tested when first installed. The test shall be
conducted in accordance with approved instructions
provided with the equipment. A written record of this test
shall be made and shall be available to the authority
having inspection jurisdiction.
5.2.2 STANDARDS REQUIREMENTS
As a follow-up to the basic performance requirements
stipulated by the N.E.C. as stated above, UL Standard
No. 1053 requires that certain minimum instructions
must accompany each ground fault protection system.
These following statements plus a copy of the test
record form illustrated in Figure 5-4 are shipped with
each Digitrip OPTIM 550 Trip Unit.
5.2.3 GENERAL TEST INSTRUCTIONS
The interconnected system shall be evaluated in accordance with the equipment assembler's detailed instructions by qualified personnel.
The polarity of the neutral sensor connections (if used)
must agree with equipment assembler's detailed instructions to avoid improper operations following apparently
correct simulated test operations. Where a question
exists, consult the specifying engineer and/or equipment
assembler.
The grounding points of the system shall be verified to
determine that ground paths do not exist that would
bypass the sensors. The use of high-voltage testers and
resistance bridges may be used.
THERE IS A HAZARD OF ELECTRICAL SHOCK OR
BURN WHENEVER WORKING IN OR AROUND
ELECTRICAL EQUIPMENT. ALWAYS TURN OFF
POWER SUPPLYING BREAKER BEFORE CONDUCTING TESTS.
Since the Digitrip OPTIM 550 Trip Units derive their
operating power from the phase currents, and not
from the neutral current, passing current through
the neutral sensor only will not properly test the
ground fault feature.
Using a low voltage (0-24 volt), high current, AC source,
apply a test current of 125% of the Digitrip OPTIM 550
!
WARNING
NOTICE
Ground Fault Trip Unit pick-up setting through one
phase of the circuit breaker as shown in Figure 5-1.
This should cause the breaker to trip and the ground
fault alarm light should light in less than 1 second. Reset
the breaker. Repeat the test on the other two phases.
If the system is a 4-wire system with a neutral current
sensor, apply the same current as described above
through one phase of the breaker returning through the
neutral sensor as shown in Figure 5-2. The breaker
should not trip and the ground fault alarm light should
not light. Repeat the test on the other two phases.
If the system is a 3-wire system with no neutral current
sensor, apply the same current as described above
through any two phases of the breaker with the connections exactly as shown in Figure 5-3. The breaker
should not trip and the ground fault alarm light should
not light. Repeat the test using the other two combinations of breaker phases.
FIELD TESTING SHOULD BE USED FOR FUNCTIONAL TESTING AND NOT FIELD CALIBRATION OF
THE DIGITRIP OPTIM 550 GROUND FAULT TRIP
UNIT.
ANY TEMPORARY CONNECTION MADE FOR THE
PURPOSE OF CONDUCTING TESTS SHOULD BE
RESTORED TO PROPER OPERATING CONDITIONS
BEFORE RETURNING THE BREAKER TO SERVICE.
The results of the test are to be recorded on the test
form provided with the equipment.
6.0 RATING PLUG
The rating plug, as illustrated in Figure 3-5, is used to
establish the continuous ampere rating of the related circuit breaker.
The Long Delay protection function of the trip unit is set
at the rating plug value (In). The Short Delay and
Instantaneous protection functions are set as a multiple
of In. The Ground Fault protection function is independent of In.
Different rating plugs are available to match the desired
current rating and type of circuit breaker into which the
trip unit is to be installed (Table 3.1).
I.L. 29C508B
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!
CAUTION
Figure 5-1 Connections for Ground Fault Trip Test
Source
Low
Voltage
Source
L C R N
Load
Current Limiting
Resistor
(if required)
Source
Low
Voltage
Source
L C R N
Load
Current Limiting
Resistor
(if required)
Figure 5-2 Connections for Ground Fault No-Trip Test,
with a Four-Wire System
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7.0 REFERENCES
7.1 SERIES C L-FRAME MOLDED CASE CIRCUIT
BREAKERS
29C105 Frame Instruction Leaflet
AD 29-167L Typical Time-Current Characteristic
curves for L Frame Breakers
7.2 INTERNAL ACCESSORIES
The following types of internal accessories, which mount
on the trip unit, are available for use. The number of the
instruction leaflet covering the installation of each
accessory is shown.
• Alarm (Signal)/Lockout (ASL) Switch . . . .I.L. 29C183
• Auxiliary Switch . . . . . . . . . . . . . . . . . . . . .I.L. 29C123
• Shunt Trip . . . . . . . . . . . . . . . . . . . . . . . . .I.L. 29C146
• Low Energy Shunt Trip . . . . . . . . . . . . . . .I.L. 29C147
• Undervoltage Release Mechanism
(HandleReset . . . . . . . . . . . . . . . . . . . . . .l.L. 29C170
Figure 5-3 Connections for Ground Fault No-Trip Test,
with a Three-Wire System
Low
Voltage
Source
Source
L C R
Current Limiting
Resistor
(if required)
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GROUND FAULT TEST RECORD FORM
Ground Fault Test Record should be Retained by Those in Charge of the Building’s Electrical
Installation in order to be Available to the Authority having Jurisdiction
Test Date
Circuit
Breaker
Number
Results Tested By:
Figure 5-4 Typical Performance Test Record Form
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I.L. 29C508B
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Cutler-Hammer
Pittsburgh, Pennsylvania U.S.A.
Effective 9/00 (ISI)
Style 6603C85H03
Printed in U.S.A.
Page 12
I.L. 29C508B
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