JLE-3-1-63-5-B3-200

**| JAE/JRE/JLE SERIES** HYDRAULIC MAGNETIC CIRCUIT PROTECTORS 

## Introduction 

In today’s applications, ambient operating temperatures present circuit protection challenges for many design engineers. High current thermal protective devices may not provide the desired degree of protection. The JAE/JRE/JLE series magnetichydraulic circuit protector addresses this issue by providing circuit protection for high current applications with a consistent trip point over temperatures ranging from –40°C to +85°C. 

The JAE/JRE/JLE series is actually a family of circuit protectors available in one to six pole assemblies with a variety of configurations and terminal styles. The principle member of this family is the JLE, an F-frame “listed circuit breaker” which complies with conditions of UL-489. Other members of the family include the JTE, for telecommunication applications and complies to UL-489A, and the JAE, a special construction version. In addition, the JAE is now in compliance with the standards used in Australia and New Zealand, AS 60947.2-2005 (equivalent to IEC 60947-2:2006+A1). 

The JAE/JRE/JLE series magnetic-hydraulic circuit protector provides circuit protection for high current applications. It provides a consistent trip point over temperatures ranging from –40°C to +85°C. 

## General Description 

- Mid-trip handle available for visual identification of fault-tripped circuit breakers 

- Optional internal low voltage shunt to meter current (single and multipole units are dimensionally equivalent in depth) 

- Terminal options for design flexibility in various applications 

- Multiple trip time delays for application flexibility 

- Electrical and mechanical actuated auxiliary switch options for external monitoring of circuits 

- Reduced voltage drop through the circuit breaker vs. other circuit protective devices 

## **SPECIFICATIONS** 

## **Number of Poles** 

- 1, 2, 3, 4, 5, 6 

## **Current and Voltage Ratings** 

- 100 to 250 amps, 160Vdc 

- 100 to 250 amps, 125/250Vdc 

- 100 to 250 amps, 65Vdc 

- 275 to 800 amps, 160Vdc (paralleled poles) 

- 275 to 1200 amps, 65Vdc (paralleled poles) 

## **Interrupting Capacity** 

- 10,000 amps, 160Vdc 

- 10,000 amps, 125/250Vdc 

- 100,000 amps, 65Vdc (1 amps to 800 amps) 

- 10,000 amps, 160Vdc (ratings ≤1000 amps) 

- 65,000 amps, 65Vdc (801 amps to 1200 amps) 

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## **DIMENSIONS** 

## Optional Metering Shunt 

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.470 3.188 1.264<br>Metering Shunt (11.94) (80.98) (32.11)<br>1.266<br>2.406 Optional<br>(61.11) Metering<br>Shunt<br>.329 ON<br>(8.36)<br>OPTIONAL<br>2.741 7.125 TRIPPED<br>(69.62) (180.97) POSITION<br>.470<br>(11.94) 1.937 OFF<br>(49.21) 3.093<br>(78.56)<br>.470 .300<br>(11.94) (7.62)<br>Dimension<br>“A”<br>.437 HOLE SHOWN<br>1.420<br>(36.07) .283<br>(7.18)<br>.250<br>(6.36)<br>1.215<br>(30.86) R.105 TYP.<br>6.559<br>(166.61)<br>2X 10-32<br>MOUNTING SCREW<br>ON DEPTH: .230 MIN.<br>.315 MAX.<br>OPTIONAL M5<br>2.313<br>(58.75)<br>OFF<br>.250<br>.300 (6.36)<br>(7.63)<br>1.000<br>(25.40)<br>**----- End of picture text -----**<br>


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Stud  (-B3)<br>**----- End of picture text -----**<br>


## Captive Nut  (-F1) 

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.426<br>SCREW<br>3/8 - 16<br>UNC 2A<br>1.170<br>(29.72)<br>.111<br>(2.82)<br>**----- End of picture text -----**<br>


## Solderless Connector  (-F0) 

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.734<br>(18.64)<br>.219<br>(5.56)<br>#6-300 MCM AL/CU<br>Solderless Connector<br>1.670<br>(42.43) 1.170<br>(29.72)<br>**----- End of picture text -----**<br>


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Multi-Pole Dimensions<br>Number of Poles Dimension “A”<br>**----- End of picture text -----**<br>


|**Multi-Pole Dimensions**|**Multi-Pole Dimensions**|
|---|---|
|**Number of Poles**|**Dimension “A”**|
|||
|1|1.500 [38.10] Max|
|2|3.000 [76.20] Max|
|3|4.500 [114.30] Max|
|4|6.000 [152.40] Max|
|5|<br>7.500 [190.50] Max|
|6|9.000 [228.60] Max|



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Long Stud  (-B4)<br>1.014<br>COPPER ALLOY (25.76)<br>STANDOFF<br>1.500<br>(38.10)<br>2.500<br>(63.50)<br>SCREW 3/8 - 16<br>UNC 2A<br>DIM.“A”<br>BOX TERMINAL SHOWN<br>1.420 SEE SINGLE POLE<br>[36.07] CONFIGURATIONS<br>FOR ADDITIONAL<br>REMOVABLE TERMINAL STYLES<br>LUG COVER<br>518-031-6030 .283<br>(LINE SIDE [7.18]<br> ONLY)<br>.250<br>[6.36]<br>1.215<br>[30.86]<br>R.105  TYP.<br>6.559<br>[166.61]<br>2X 10-32<br>MOUNTING SCREW.<br>ON 1O N1 DEPTH:.230 MIN.<br>.315 MAX.<br>OPTIONAL M5<br>2.313<br>[58.75]<br>OFF<br>.250<br>[6.36]<br>.300<br>[7.63]<br>**----- End of picture text -----**<br>


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Parallel Multi-Pole Assemblies<br>Amp Range Number of Poles Dimension “A” Dimension “B”<br>**----- End of picture text -----**<br>


|**Parallel Multi-Pole Assemblies**|**Parallel Multi-Pole Assemblies**|**Parallel Multi-Pole Assemblies**|**Parallel Multi-Pole Assemblies**|
|---|---|---|---|
|**Amp Range**|**Number of Poles**|**Dimension “A”**|**Dimension “B”**|
|||||
|275 to 400|2|2.375 [60.33] Max|3.000 [76.20] Max|
|450 to 600|3|3.875 [98.43] Max|4.500 [114.30] Max|
|650 to 800|4|5.375 [136.53] Max|6.000 [152.40] Max|
|850 to 1000|5|6.875 [174.63] Max|7.500 [190.50] Max|
|1050 to 1200|6|8.375 [212.73] Max|9.000 [228.60] Max|



Note: Tolerance of ± 0.030 [0.762] 

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 DIM.“A”<br>1.170 (SEE TABLE)<br>[29.72]<br>TERMINAL TYPE<br>-B1, F1 OR -B2<br>.875<br>[22.22]<br>**----- End of picture text -----**<br>


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“B”<br>1.500<br>[38.10]<br>10.370<br>[263.40]<br>8.870<br>[225.30]<br>**----- End of picture text -----**<br>


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DIM. “C”<br>.757<br>[19.23]<br>2.328 2.814<br>[59.13] [71.48]<br>.250<br>[6.36] 1.500 10-32<br>[38.10] MOUNTING<br>SCREW<br>**----- End of picture text -----**<br>


Notes: 

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Panel Mounting Details<br>Number of Poles Dimension “C”<br>**----- End of picture text -----**<br>


|**Panel Mounting Details**|**Panel Mounting Details**|
|---|---|
|**Number of Poles**|**Dimension “C”**|
|||
|1|1.515 [38.48] Max|
|2|3.015 [76.58] Max|
|3|4.515 [114.68] Max|
|4|6.015 [152.78] Max|
|5|7.515 [190.88] Max|
|6|9.015 [228.98] Max|



1. All mounting inserts shall be utilized when panel mounting circuit breakers. Panel mounting screws shall have recommended torque applied. 2. Panel mounting screws shall not extend beyond back of mounting panel more than specified mounting insert depth. 

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1.607<br>[40.82]<br>**----- End of picture text -----**<br>


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“B”<br> DIM “A”<br>1.500<br>[38.10]<br>.854<br>[21.69]<br>.875<br>[22.22]<br>ON IO NI<br>OFF<br>**----- End of picture text -----**<br>


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.854<br>[21.69]<br>.875<br>[22.22]<br>10.370<br>[263.40]<br>**----- End of picture text -----**<br>


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BOX TERMINAL SHOWN<br>**----- End of picture text -----**<br>


## **CONFIGURATIONS** 

## **Series Trip** 

The most popular configuration for magnetic protectors is the series trip, where the sensing coil and contacts are in series with the load being protected. 

The handle position conveniently indicates circuit status. In addition to providing conventional overcurrent protection, it’s simultaneously used as an on-off switch. 

## **Auxiliary Switch** 

This is furnished as an integral part of a series pole in single or multi-pole assemblies. Isolated electrically from the protector’s circuit, the switch works in unison with the power contacts and provides indication at a remote location of the protector’s on-off status. 

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1.437<br>(36.50)<br>1.305<br>(33.15)<br>SWITCH ONLY<br>SERIES<br>**----- End of picture text -----**<br>


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## Alarm Switch 

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ALARM SWITCH<br>RLS4<br>PLUG<br>**----- End of picture text -----**<br>


## Auxiliary Switch 

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PLUG AUXILIARY<br>SWITCH REC4<br>**----- End of picture text -----**<br>


## Alarm & Auxiliary Switch Combination 

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ALARM AUXILIARY<br>SWITCH SWITCH REC4<br>RLS4<br>**----- End of picture text -----**<br>


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.752 C<br>[19.11] NO<br>NC<br> BREAKER IN<br>.250 OFF POSITION<br>[6.35]<br>SEE SWITCH<br>OPTIONS [2.79].110 2.438 MAX.[64.52]<br>.416 .252 .252<br>[6.40] [6.40]<br>[10.57]<br>-IREC4<br>.235<br>[5.97]<br>2.772<br>[70.41]<br>**----- End of picture text -----**<br>


Shunt Trip 

## **Shunt Trip** 

The shunt trip is designed for controlling two separate loads with one assembly. The control is established by providing overload protection for the critical load. When the current through this load becomes excessive and reaches the trip point, the protector will open and remove power from both loads simultaneously. The total current rating of both loads must not exceed the maximum contact rating. 

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1.187<br>[30.15]<br>4.754<br>[120.76]<br>FLATWASHER<br>LOCKWASHER<br>1/4-28<br>2 NUTS<br>**----- End of picture text -----**<br>


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## **Relay Trip** 

This permits the overload sensing coil to be placed in a circuit which is electrically isolated from the trip contacts. The coil may be actuated by sensors monitoring pressure, flow, temperature, speed, etc. Other typical applications include crowbar, interlock and emergency rapid shut down circuitry. Trip may be accomplished by voltage or current, which must be removed after trip. 

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|**Metering Shunt/Auxiliary Switch**<br>**Connectors**|**Metering Shunt/Auxiliary Switch**<br>**Connectors**|**Metering Shunt/Auxiliary Switch**<br>**Connectors**|
|---|---|---|
|Description<br>MOLEX<br>AMP|||
|Pin (Male)|02-09-2103|770147-1|



## **OPERATING CHARACTERISTICS** 

## **Trip Free** 

Will trip open on overload, even when forcibly held on. This prevents the operator from damaging the circuit by holding the handle in the ON position. 

## **Insulation Resistance** 

Will not be less than 100 megohms at 500 volts D.C. 

## **Endurance** 

Test to be performed at rated current and rated voltage at 3mSec time constant DC. Rate of operation to be 5 operations per minute for breakers rated at 250 amps and less and 4 per minute for breakers rated above 250 amps. 

Breakers rated above 250 amps but 600 amps or less shall be rated for 1000 loaded operations and 5000 mechanical operations. 

## **Auxiliary Switch** 

When supplied will be S.P.D.T. configuration with a maximum rating of 10 amperes 250 VAC 1 amp 80 Vdc. When optional metering shunt or parallel pole configuration is specified, maximum rating is 1 amp 80 Vdc. 

## **High-Low Temperature** 

Circuit breakers will operate in the range from -40°C to +85°C. All agency testing is conducted with wire sized per 75°C chart of the National Electrical Code. In all cases the breaker connections should be sized to limit the maximum terminal temperature to 100°C absolute when the breaker is operating in the maximum ambient temperature at the maximum load current. 

## **Overload** 

DC rated circuit breakers will withstand 50 operations at 600% of rated current. The current shall have no less than a 3mSec time constant at rated voltage. Units to be operated in groups of five at the rate of operations per minute with fifteen minutes between groups to allow for cool down. 

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## **Dielectric Strength** 

Circuit Breaker will withstand 1000 volts plus twice rated voltage 60 Hz AC for 60 seconds from terminal to terminal. 

## **Voltage Ratings** 

On all types, voltages up to and including 160 volts DC. 

Multi-pole units can be supplied for 125/250 volts Vdc. All units will be marked with the standard maximum voltage. UL listed breakers will be labeled with the UL listed voltage. 

## **DC Applications (typ)** 

A choice of delays is offered for DC applications. Delay 51 is a short delay for general purpose applications. Delay 52 is long enough to start certain types of motors and most transformer and capacitor loads. Delay 53 is a long delay for special motor applications. All trip curves and trip currents are specified with the breaker mounted in the normal vertical position at ambient temperature of +25°C. For test and measurement purposes, the breakers should not carry current prior to application of overload for calibration test. For other than vertical mount position, consult factory. 

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Percentage of Rated Current vs Trip Time in Seconds at +25°C<br>Delay 100% 125% 125% (Note A) 150% 200% 400% 600% 800% 1000%<br>**----- End of picture text -----**<br>


|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|**Percentage of Rated Current vs Trip Time in Seconds at +25°C**|
|---|---|---|---|---|---|---|---|---|
|**Delay**|**100%**|**125% 125%(Note A)**|**150%**|**200%**|**400%**|**600%**|**800%**|**1000%**|
||||||||||
|51 & 51F|No Trip|.5 to 10|.25 to 3|.15 to 9|.05 to .3|.015 to .15|.01 to .09|.01 to .04|
|52 & 52F|No Trip|9 to 90|5 to 40|2 to 15|.5 to 3|.03 to 1|.01 to .28|.01 to .08|
|53 & 53F|No Trip|100 to 1000|50 to 400|22 to 150|4 to 25|.5 to 5|.010 to 2|.01 to .1|
|61 & 61F|No Trip|.4 to 10|.25 to 3|.13 to .9|.03 to .2|.015 to .15|.01 to .09|.008 to .045|
|62 & 62F|No Trip|9 to 95|5 to 40|2 to 15|.05 to 3|.03 to 1|.01 to .28|.008 to .08|
|63 & 63F|No Trip|100 to 1100|48 to 400|20 to 150|4 to 25|.5 to 6|.01 to 2|.008 to .1|



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Nominal DCR /  Impedance<br>Resistance (ohms)<br>Current Ratings (Amps) DC Delays<br>51, 52, 53<br>**----- End of picture text -----**<br>


|**Nominal DCR /  Impedance**|**Nominal DCR /  Impedance**|
|---|---|
|**Current Ratings (Amps)**|**Resistance(ohms)**|
||**DC Delays**|
||**51, 52, 53**|
|||
|100|.000375|
|110|.000375|
|125|.000340|
|150|.000325|
|175|.000315|
|200|.000225|
|225|.000225|
|250|.000225|
|400|.000125|
|600|000083|
|800|.000063|
|1,000|.000050|
|1,200|.000042|



Notes: 

Resistance is plus or minus 50%. 

If a metering shunt option is provided it will add the shunts resistance to these values (i.e. A 400 Amp metering shunt would add (R=V/I). 0000625 Ohms of resistance to the non-metering shunt value of .000125 Ohms or .0001875 Ohms for a 400 Amp unit with a metering shunt). 

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Recomended Torque Specifications<br>Component Torque (in-lbs)<br>10-32 Mounting Inserts 10 to 12<br>M5 Mounting Inserts 8 to 10<br>3/8-16 and M10 x 1.5 Captive Nuts 220 to 230<br>3/8-16 and M10 x 1.5 Studs 220 to 230<br>Solderless Connectors 180<br>**----- End of picture text -----**<br>


|**Approximate Weight Per Pole**|**Approximate Weight Per Pole**|**Approximate Weight Per Pole**|
|---|---|---|
|**Pounds**||Grams|
|**2.25**||1020|
||||
|**Inrush Pulse Tolerance**|||
|**Delay**|**Pulse Tolerance**||
|61, 62, 63|8 times rated current(approx)||
|61F, 62F, 63F|12 times rated current(approx)||



## **Inrush Pulse Tolerance** 

The table shown provides a comparison of inrush pulse tolerance with and without the inertial delay feature for each of the 50/60Hz delays. Pulse tolerance is defined as a single pulse of half sine wave peak current amplitude of 8 milliseconds duration that will not trip the circuit breaker. 

DC resistance values are based on measurements by the voltmeter ammeter method. Rated current applied for one hour and at a voltage not less than 20 volts. 

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## **DELAY CURVES** 

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10000 10000<br>1000 1000<br>DELAY 61 & 61F DELAY 51 & 51F<br>100 100<br>10 10<br>1 1<br>.1 .1<br>.01 .01<br>.001 .001<br>01 00 150 200 300 400 500 600 7008 00 900 1000 01 00 1502 00 3004 00 500 600 700 800 900 1000<br>125 125<br>PERCENT OF RATED CURRENT PERCENT OF RATED CURRENT<br>10000 10000<br>1000 1000<br>DELAY 62 & 62F DELAY 52 & 52F<br>100 100<br>10 10<br>1 1<br>.1 .1<br>.01 .01<br>.001 .001<br>01 00 150 200 300 400 500 600 700 800 900 1000 01 00 1502 00 300 400 500 600 700 800 9001 000<br>125 PERCENT OF RATED CURRENT 125 PERCENT OF RATED CURRENT<br>10000 10000<br>1000 1000<br>DELAY 63 & 63F DELAY 53 & 53F<br>100 100<br>10 10<br>1 1<br>.1 .1<br>.01 .01<br>.001 .001<br>01 00 1502 00 3004 00 500 600 700 800 9001 000 01 00 150 200 300 400 5006 00 700 800 9001 000<br>125 125<br>PERCENT OF RATED CURRENT PERCENT OF RATED CURRENT<br>MAY TRIP MAY TRIP<br>TIME IN SECONDS TIME IN SECONDS<br>MAY TRIP<br>MAY TRIP<br>TIME IN SECONDS TIME IN SECOND S<br>MAY TRIP<br>MAY TRIP<br>TIME IN SECONDS TIME IN SECONDS<br>**----- End of picture text -----**<br>


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Example: JLM-1-IREC4-51-1-F1-250-A-V 

## **ORDERING OPTIONS** 

The ordering code for JAE/JRE/JLE F-Frame Circuit Protectors may be determined by following the steps in the decision tables shown here. The coding given permits a self-assigning part number for standard configurations. Factory part numbers are assigned to units with mixed ratings, combinations of styles or construction not listed in the Third Decision Table, etc. With these, it is suggested that order entry be by description and/or drawings, and a part number will be established. 

Additionally, it is standard policy to establish a factory-assigned part number whenever a descriptive drawing exists to ensure cross reference, traceability and manufacturing control. 

For example, the following is the code for a single pole breaker series trip, with mid-trip handle indication, auxiliary switch, short delay, 65 volts DC maximum voltage rating with 3/8-16 captive nuts in a current rating of 250 amperes and metric inserts. 

To determine the ordering number of your particular JAE/JRE/JLE unit, simply follow the steps shown. You may use this number to place an order or as a reference for further questions you may have. 

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JLM - 1 - 1REC4 - 51 - 1 - F1 - 250 - A - V<br>Type<br>JLE:  UL Listed<br>JLM:  UL Listed Mid Trip Construction<br>JRE:  UL Recognized<br>JREP:  UL Recognized above 250 amps<br>JRM : UL Recognized Mid Trip Construction<br>JRMP:  UL Recognized Mid Trip Construction above 250 amps<br>JTE:  UL Listed Telecom Specication<br>JTEP:  UL Listed Telecom Specication above 250 amps<br>JTM:  UL Listed Telecom Specication Mid Trip Construction<br>JTMP:  UL Listed Telecom Specication Mid Trip Construction above 250 amps<br>JAE:  Non Agency<br>JAEP:  Non Agency above 250 amps<br>JAM:  Non Agency Mid Trip Construction<br>JAMP:  Non Agency Mid Trip Construction above 250 amps<br>Poles<br>-1*:  Single pole<br>-2:  Two poles<br>-3:  Three poles<br>-4:  Four poles<br>-5:  Five poles<br>-6:  Six poles<br>*Single pole unit above 250 Amps are supplied as parallel milti-pole assemblies.<br>The second decision must indicate the physical number of poles.<br>Internal Conguration<br>-0:  Switch only<br>-1:  Series<br>-3:  Shunt construction***<br>-4:  Relay construction***<br>-REC4:  Auxiliary switch* (STD) .110 quick connect<br>-REG4:  Auxiliary switch* .110 quick connect**<br>-REC5:  Auxiliary switch* (STD) .187 quick connect<br>-RLS4 : Alarm switch* (STD) .110 quick connect<br>-RLS5:  Alarm switch* .187 quick connect<br>-DAA4:  Dual auxiliary & alarm switch* (STD) .110 quick connect<br>-DAA5:  Dual auxiliary & alarm switch* .187 quick connect<br>* Auxiliary switch located in the left hand pole when  viewed from the terminal end. All meter shunt and<br>parallel pole builds that require an auxiliary switch will automatically get a XXX4 type switch. To connect to<br>the switch terminals which are brought through the  cover use a Molex 02-09-1104 or an Amp 770146-1<br>crimp terminal.<br>** Gold Contacts<br>*** Shunt and Relay construction not available above 250 Amps and not available in UL Listed Breakers<br>Frequency & Delay<br>Standard<br>50:  DC instant trip<br>51:  DC short delay  Option:  51F<br>52:  DC med. delay  Option:  52F<br>53:  DC long delay  Option:  53F<br>60:  50/60Hz instant trip<br>61:  50/60Hz short delay  Option:  61F<br>62:  50/60Hz med. delay  Option:  62F<br>63:  50/60Hz long delay  Option:  63F<br>SW:  Switch only<br>An  F  after any delay denotes high pulse tolerance construction<br>**----- End of picture text -----**<br>


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## **Voltage and Current** 

**Maximum Voltage Maximum Current (Amps) -1:** 65Vdc 1200A **-2:** 125Vdc 800A **-3:** 160Vdc 800A **-4:** 125/250Vdc* 250A **-5:** 240Vac 250A **-6:** 277Vac 250A **-7:** 277/480Vac 150A Only 

*Two poles breaking 

## **Terminal Selection** 

**Terminal Terminal Connect -B0:** Solderless connector* Back **-F0:** Solderless connector Front **-B1:** 3/8-16 captive nuts Back **-F1:** 3/8-16 captive nuts Front **-B2:** .437 hole – **-B3:** 3/8-16 stud terminals** Back **-F3:** 3/8-16 stud terminals Front 3/8-16 stud terminals **-B4:** Back long with spacers* 

* Automatically get anti-ashover for multi-pole construction. Refer to outline drawings. 

** Automatically get anti-ashover barrier for multi-pole construction with voltage ratings above 250 volts. 

## **Current Ratings (see note J)** 

## **Amperes** 

100 450 125 500 150 550 175 600 200 700 225 800 250 900 275 1000 300 1100 350 1200 400 

## **Optional** 

**A:** Optional metric inserts M5 

**S:** Optional metering shunt 

## **V=** TUV and CCC Approved 

Approval requires the addition of a V at the end of the part number, which denotes TUV and CCC approval. Consult the factory for availability. **C=** CCC Approved 

This approval requires the addition of a C at the end of the part number. The unit will not be TUV Approved. 

Notes: 

1. 10-32 inserts are provided for front mounting on all units. M5 ISO metric mounting inserts are available and are specified by the eight decision in the part number. 

2. The auxiliary switch is located on the left hand pole (viewed from terminal end) unless specified otherwise. Note this is the only location available for breakers rated over 250 amps. The switch is available as an alarm switch (changes state when breaker electrically trips) or as an auxiliary switch (changes state when the breaker contacts change state either from tripping or operation of the breaker handle). See outline drawing for location of alarm and auxiliary switches. Note alarm switches are available only with mid trip option. When both an alarm and auxiliary switch are specified with a metering shunt, only the C and NO or C and NC terminals from each switch are available for field termination. 

3. 3/8-16 captive nuts are available for bus bar terminations or crimp lugs (specify front or back termination). 3/8-16 long and short studs are also available (specify front or back mount). A number 6 through 300 MCM AL/CU solderless connector is available (specify front or back mount). 

4. Only series construction and DC ratings are available in current carrying poles above 250 amps. Consult factory for special requirements. 

5. The coding given permits a self-assigning part number but with certain limitations, (due to the adaptability of magnetic protectors to complex circuits) which require a need for a factory assigned part number. Typical examples are units with mixed ratings, combinations of styles, or construction not listed in the third decision table, etc. With these, it is suggested that order entry be by description and/or drawings, and a part number will be established. 

- Additionally, it is standard policy to establish a factory assigned part number wherever a descriptive drawing exists to provide cross-reference, traceability, and manufacturing control. 

6. When specifying a protector for AC motor start or high inrush applications, the peak amplitude and surge duration should be specified for factory assistance in rating selection. 

7. Since magnetic protectors with time delay are somewhat attitude and temperature sensitive, all trip curves and trip currents are specified with the protector mounted in the normal vertical position at ambient temperature of 25°C. Protectors do not carry current prior to application of overload for calibration test. For other than vertical mount position, consult factory. 

8. A 25mV at rated current non-isolated metering shunt is available as an option (see outline drawing). The shunt accuracy is 1% full scale 25°C ambient. 

9. Dual coil construction is available. Consult the factory. 

10. Decisions referencing this note may be replaced by a factory assigned nondescript number. 

Page 11 

Copyright © 2024 Sensata Technologies, Inc. 

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## **AGENCY APPROVALS & CERTIFICATIONS** 

- UL 489 Listed 

- UL 489A Listed - CSA Certified - CUL/CUR Certified 

- TUV Certified 

- CCC Certified 

- AS 60947.2-2005 (equivalent to IEC 60947-2:2006+A1) 

Single-pole ratings: UL489, 250 amps max at 160 Vdc, 10,000 amp interrupting capacity and 250 amps max at 65 Vdc, 65,000 amp interrupting capacity. Multi-pole ratings: UL 489A, 800 amps max at 160 Vdc, 10,000 amp interrupting capacity and 1,200 amps max at 65 Vdc, 65,000 amp interrupting capacity. ISO-9001 Certified 

## **General notes for Agency Approvals** 

All supplementary protectors are of the overcurrent (OC) type 

The family of protectors has been evaluated for end use application for use group (UG) A 

The terminals (FW) – Terminals are coded as follows: 

- 0 – Suitable for factory wiring only 

- 1 – Line terminals evaluated for field wiring 

- 2 – Load terminals evaluated for field wiring 

- 3 – Line and load terminals evaluated for field wiring 

The maximum voltage ratings for which the protectors have been tested are shown in the chart The current is the amperage range that the protectors have been tested 

The tripping current (TC) – Tripping current is coded as a percentage of the ampere rating 

- 0 – Tripping current is less than 125% of ampere rating 

- 1 – Tripping current is in the range of 125% to 135% of ampere rating 

- 2 – Tripping current is more than 135% of ampere rating 

3 – Tripping current is 135% and meets MCCB trip time requirements 

The overload rating (OL) - designates whether the protector has been tested for general use or motor starting applications. 

- 0 – tested at 1.5 times amp rating for general use 

1 – tested at 6 times AC rating or 10 times DC rating for motor starting 

The short circuit current rating (SC) – The short circuit rating in amperes following a letter and number designating the test conditions and any calibration following the short circuit test is defined below: 

C – Indicates short circuit test was conducted with series overcurrent protection 

U – Indicates short circuit test was conducted without series overcurrent protection 

- 1 – Indicates a recalibration was not conducted as part of the short circuit testing 

- 2 – Indicates a recalibration was performed as part of the short circuit testing 

- 3 – Indicates recalibration was performed along with the dielectric and voltage withstand for “Suitable for Further Use” rating 

Page 12 

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**==> picture [542 x 42] intentionally omitted <==**

**----- Start of picture text -----**<br>
JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals<br>Volts (Volts) Rated Current (Amps) Interrupting Capacity (Amps)<br>Voltage (V) Frequency (Hz) UG FW Phase Min. Poles TC OL UL/CSA TUV UL 508 & CSA TUV<br>**----- End of picture text -----**<br>


|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|**JRE/JRM/JREP/JRMP Supplementary Protectors - Agency Approvals**|
|---|---|---|---|---|---|---|---|---|---|---|---|
|**Volts(Volts)**||||||||**Rated Current(Amps)**||**Interrupting Capacity (Amps)**||
|**Voltage (V)**|**Frequency (Hz)**|**UG**|**FW**|**Phase**|**Min. Poles**|**TC**|**OL**|**UL/CSA**|**TUV**|**UL 508 & CSA**|**TUV**|
|||||||||||||
|65|DC|A|0, 3|-|1|1|1|100-250|TUV|U2, 100000|-|
|65|DC|A|0, 3|-|2|1|1|275-400|-|U2, 100000|-|
|65|DC|A|0, 3|-|2|1|1|450|-|U2, 100000|-|
|65|DC|A|0, 3|-|3|1|1|450-600|-|U2, 100000|-|
|65|DC|A|0, 3|-|3|1|1|700|-|U2, 65000|-|
|65|DC|A|0, 3|-|3|1|1|700|-|U2, 100000|-|
|80|DC|-|-|-|1|-|-|-|15-250|-|10000/25000|
|160|DC|A|0, 3|-|1|1|1|100-250|15-250|U2, 100000|5000/10000|
|160|DC|A|0, 3|-|2|1|1|251-400|-|U2, 100000|-|
|160|DC|A|0, 3|-|3|1|1|401-600|-|U2, 100000|-|
|160|DC|A|0, 3|-|3|1|1|700|-|U2, 100000|-|
|277/480|50/60|A|0, 3|3|3|1|1|150|-|U2, 5000|-|



**==> picture [415 x 42] intentionally omitted <==**

**----- Start of picture text -----**<br>
JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals<br>Volts (Volts) Rated Current (Amps) Interrupting Capacity (Amps)<br>Voltage (V) Frequency (Hz) Phase Min. Poles UL/CSA TUV UL 489A TUV<br>**----- End of picture text -----**<br>


|**JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals**|**JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals**|**JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals**|**JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals**|**JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals**|**JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals**|**JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals**|**JTE/JTM/JTEP/JTMP Communications Equipment Circuit Breakers - Agency Approvals**|
|---|---|---|---|---|---|---|---|
|**Volts(Volts)**||||**Rated Current(Amps)**||**Interrupting Capacity (Amps)**||
|**Voltage (V)**|**Frequency (Hz)**|**Phase**|**Min. Poles**|**UL/CSA**|**TUV**|**UL 489A**|**TUV**|
|||||||||
|65|DC|-|1|100 to 250|TUV|100000|-|
|65|DC|-|2|275 to 400|-|100000|-|
|65|DC|-|2|401 to 450|-|100000|-|
|65|DC|-|3|450 to 600|-|100000|-|
|65|DC|-|4|700 to 800|-|100000|-|
|65|DC|-|5|900 to 1000|-|65000|-|
|65|DC|-|6|1100 to 1200|-|65000|-|
|80|DC|-|1|-|15-250|-|25000|
|160|DC|-|1|100 to 250|15-250|10000|10000|
|160|DC|-|2|251 to 400|-|10000|-|
|160|DC|-|3|401 to 600|-|10000|-|
|160|DC|-|4|700 to 800|-|10000|-|



|**JLE/JLM- Agency Approvals**|**JLE/JLM- Agency Approvals**|**JLE/JLM- Agency Approvals**|**JLE/JLM- Agency Approvals**|**JLE/JLM- Agency Approvals**|**JLE/JLM- Agency Approvals**|**JLE/JLM- Agency Approvals**|**JLE/JLM- Agency Approvals**|
|---|---|---|---|---|---|---|---|
|**Volts(Volts)**||||**Rated Current(Amps)**||**Interrupting Capacity (Amps)**||
|**Voltage (V)**|**Frequency (Hz)**|**Phase**|**Min. Poles**|**UL/CSA**|**TUV**|**UL489 & CSA**|**TUV**|
|65|DC|-|1|.10 - 250|-|100000|-|
|80|DC|-|1|-|15 - 250|-|25000|
|160|DC|-|1|.10 - 250|15 - 250|10000|10000|
|125/250|DC|-|2|.100 - 250|-|10000|-|
|240|50/60|1|1|.10 - 250|-|10000|-|
|240|50/60|1 & 3|2|.10 - 250|-|18000|-|



Page 13 

Copyright © 2024 Sensata Technologies, Inc. 

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**WARNINGS** 

## RISK OF MATERIAL DAMAGE AND HOT ENCLOSURE 

- The product’s side panels may be hot, allow the product to cool before touching 

- Follow proper mounting instructions including torque values 

- Do not allow liquids or foreign objects to enter this product 

**Failure to follow these instructions can result in serious injury, or equipment damage.** 

## HAZARD OF ELECTRIC SHOCK, EXPLOSION OR ARC FLASH 

- Disconnect all power before installing or working with this equipment 

- Verify all connections and replace all covers before turning on power 

**Failure to follow these instructions can result in death or serious injury.** 

Datasheets provided by Sensata Technologies, Inc., its subsidiaries and/or affiliates (“Sensata”) are solely intended to assist third parties (“Buyers”) who are developing systems that incorporate Sensata products (also referred to herein as “components”). Buyer understands and agrees that Buyer remains responsible for using its independent analysis, valuation, and judgment in designing Buyer’s systems and products. Sensata datasheets have been created using standard laboratory conditions and engineering practices. Sensata has not conducted any testing other than that specifically described in the published documentation for a particular datasheet. Sensata may make corrections, enhancements, improvements, and other changes to its datasheets or components without notice. Buyers are authorized to use Sensata datasheets with the Sensata component(s) identified in each particular datasheet. HOWEVER, NO OTHER LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE TO ANY OTHER SENSATA INTELLECTUAL PROPERTY RIGHT, AND NO LICENSE TO ANY THIRD PARTY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT, IS GRANTED HEREIN. SENSATA DATASHEETS ARE PROVIDED “AS IS”. SENSATA MAKES NO WARRANTIES OR REPRESENTATIONS WITH REGARD TO THE DATASHEETS OR USE OF THE DATASHEETS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING ACCURACY OR COMPLETENESS. SENSATA DISCLAIMS ANY WARRANTY OF TITLE AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT, QUIET POSSESSION, AND NON-INFRINGEMENT OF ANY THIRD PARTY INTELLECTUAL PROPERTY RIGHTS WITH REGARD TO SENSATA DATASHEETS OR USE THEREOF. 

All products are sold subject to Sensata’s terms and conditions of sale supplied at www.sensata.com SENSATA ASSUMES NO LIABILITY FOR APPLICATIONS ASSISTANCE OR THE DESIGN OF BUYERS’ PRODUCTS. BUYER ACKNOWLEDGES AND AGREES THAT IT IS SOLELY RESPONSIBLE FOR COMPLIANCE WITH ALL LEGAL, REGULATORY, AND SAFETY-RELATED REQUIREMENTS CONCERNING ITS PRODUCTS, AND ANY USE OF SENSATA COMPONENTS IN ITS APPLICATIONS, NOTWITHSTANDING ANY APPLICATIONS-RELATED INFORMATION OR SUPPORT THAT MAY BE PROVIDED BY SENSATA. 

## **CONTACT US** 

**Americas** 

508-236-2551 electrical-protection-sales@ sensata.com 

**Europe, Middle East & Africa** +31743578156 info-sse@list.sensata.com **Asia Pacific** sales.isasia@list.sensata.com China +86 (21) 2306 1500 Japan +81 (45) 277 7117 Korea +82 (31) 601 2004 India +91 (80) 67920890 Rest of Asia +886 (2) 27602006 ext 2808 

Mailing Address: Sensata Technologies, Inc., 529 Pleasant Street, Attleboro, MA 02703, USA. 

Page 14 

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Copyright © 2024 Sensata Technologies, Inc.