SE-135 Series

Ground-Fault Ground-Check Monitor

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Description

The SE-134C/SE-135 is a microprocessor-based, combination ground-wire monitor and ground-fault relay for resistance-grounded or solidly grounded systems. It continuously monitors the integrity of the ground conductor to protect portable equipment from hazardous voltages caused by ground faults. The SE-134C/SE-135 is field proven in monitoring trailing cables on large mobile equipment such as drag-lines, mining shovels, shore-to-ship power cables, dock-side cranes, stackerreclaimers, submersible pumps, and portable conveyors. 


Features & Benefits

  • Adjustable pickup (0.5-12.5 A for SE-CS10) (2 - 50 A for SE-CS40)

    Unit can be used on a wide variety of trailing cable applications

  • Adjustable time delay (0.1-2.5 s) 

    Adjustable trip delay for quick protection and system coordination

  • Output contacts

    Separate annunciation of ground-fault and groundcheck faults

  • Ground-check LED indication

    Indication of open or short ground-check wire makes it easier to find faults

  • CT-loop monitoring 

    Alarms when CT is not connected

  • High-induced-ac rejection

    Makes unit suitable for applications with high voltages and long cables

  • DFT (Harmonic) filter

    Prevents false operation

  • Zener-characteristic termination assembly

    Provides reliable ground-check loop verification

  • Fail-safe circuits

    Ensures ground-check and ground-fault circuits remain safe even in the event of equipment failure

  • Conformal coating

    Additional coating protects circuit boards against harsh environment

  • XGC option

    Increases maximum cable length for ground-check monitoring (10 km typical)


SE-135 Datasheet

SE-135 Manual

Specifications

  • IEEE Device Numbers: Checking or Interlocking Relay (3GC), Ground fault (50G/N, 51G/N)
  • Input Voltage: 65-265 Vac; 85-275 Vdc; 18-72 Vdc
  • Dimensions: H 213 mm (8.4"); W 99 mm (3.9"); D 132 mm (5.2");
  • Trip Level Settings: 0.5 -12.5 A for SE-CS10, 2 - 50 A for SE-CS40
  • Trip Time Settings: 0.1-2.5 s
  • Contact Operating Mode: Selectable fail-safe or non-fail-safe
  • Harmonic Filtering: Standard feature
  • Test Button: Standard feature
  • Reset Button: Standard feature
  • Output Contacts: Isolated Form A and Form B, Two Form C
  • Approvals: CSA certified, UL Listed (E340889), C-Tick (Australia)(3), CE(3)
  • Conformally Coated: Standard feature
  • Warranty: 5 years
  • Mounting: Panel, Surface
  • GC Trip Resistance: 28Ω (Standard), 45Ω (XGC Option)



Ordering Information

ORDERING NUMBER
OPTION
POWER SUPPLY
COMM
SE-134C
Blank or XGC
0=120/240 VAC/VDC 1=24/48 Vdc (1)
0=None
SE-135
Blank or XGC
0=120/240 VAC/VDC 1=24/48 Vdc (1) (2)    
0=None3=Ethernet (1)


ACCESSORIES
REQUIREMENT
SE-CS10 Series
Required
SE-CS40 Series (for SE-135)
Optional
SE-TA6A Series (for SE-134C)
Required
SE-TA12A/SE-TA12B Combination (for SE-134C)
Optional
SE-TA12A Series (for SE-135)
Required
SE-IP65CVR-G
Optional
RK-132
Optional
PPI-600V
Optional

     


Accessories

SE-CS10 or SE-CS40 Series Ground-Fault Current Transformer
Required zero-sequence current transformer detects ground-fault current.

SE-TA6A Series, SE-TA12A Series Termination Assembly
Required termination assembly; temperature compensated.

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Top FAQs

A protection relay is a device that receives inputs typically from current transformers CT’s (but can be other sources) and then compares these inputs to set levels. If these inputs exceed the set levels a protection relay can then provide that information via display or indication, feed that information to other electronic control devices or it can be connected to a circuit breaker to isolate power.

Yes, currently Fuseco can offer both earth leakage and NER relays that are compliant to AS2081:2011. The relay manufacturer (Littelfuse) is also currently in the final stages of development for an AS2081:2011 compliant continuity relay that we expect to release in the near term.

An arc fault is a type of electrical fault that results from the breakdown of an insulating medium between two conductors where the energy is enough to sustain an arc across the insulator (often air) and can cause extreme amounts of light (arc flash), immense heat upwards of 19,000 degrees, and a resulting explosive pressure wave (arc blast). By using a relay that has optical sensors we can detect the flash of light the emanates from an Arc Flash and within 1 msec send a signal to a breaker to interrupt power. Because of the immense energy being released by an Arc Flash reaction time is critical. It can be seen on the graph that with a relay reaction time of only 1 msec (+ circuit breaker reaction time) we can interrupt power before the Arc Flash can result in critical damage.

An arc-flash happens when electric current flows through an air gap between conductors. There are several ways this can happen but the most common occurrence is when conductor insulation is worn or broken down.

The most important aspects of arc-flash relays are:


  • reaction time
  • trip reliability
  • ease of installation
  • sensor flexibility
  • software
  • sensor design
  • avoidance of nuisance tripping
  • scalability


To gain a deeper understanding of which features to consider when selecting an arc-flash relay please refer to the downloadable application guides.

Arc-flash relays are a necessary component in an electrical cabinet because they reduce the amount of incident energy in the system. While an arc-flash relay cannot prevent an arc flash from happening, it will protect critical assets and workers’ safety by reducing the severity of the flash. An arc-flash relay is an integral part of an arc-flash protection scheme that can minimize damage, and save money, time, and lives.

Three phase power systems are most often solidly earthed, however by using a Neutral Earthing Resistor (NER) a power system can be resistance earthed. This is done so that if an earth fault were to occur the amount of fault current will be limited by the NER resistance. One potential problem with a resistance earthed system is; what happens if the NER goes open circuit due to damage? If this were to happen the power system has now changed from a resistance earthed system to a system with no earth reference (floating). Now the NER is no longer restricting the amount of fault current and other devices that rely on an earth reference in order to operate, cannot do so. By using a NER monitoring relay the resistance and integrity of a NER can be continually monitored to detect for any variance in the NER resistance or integrity.

An earth fault can occur as a result of inadvertent contact between and energized conductor and earth or equipment frame. There can also be earth leakage from a system without “inadvertent contact”. This type of fault can be called capacitive earth leakage and it is caused by a capacitive effect between a high power conductor and earth. Small amount of earth leakage current can occur as a result of this capacitive effect. Whether it is smaller amounts current from capacitive earth leakage or larger amounts of current from direct inadvertent contact an earth leakage relay can detect this fault current. In all electrical circuits, current returns to its source. An earth fault relay can use a zero sequence CT to monitor phase current to ensure that all current coming from the source returns on those same conductors or it can monitor current in the connection between transformer neutral and earth. By either method the earth leakage relay detect any lost current to earth.

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Applicable Industries

Hi Tim, just wanted to thank you and the Fuseco team for your help. You've managed to help us solve some nagging issues here and the Littelfuse SE-330AU relay installation has saved us a lot of time. Thanks!

Mark Sherman

PGS Silver, Queensland

Just wanted to send a note of thanks to you guys. When it comes to relays, your advice & service is high level & appreciated. Cheers.

Jesse Marshall

Newcrest WA

The Littelfuse SE-701 & the CT's are functioning well. Thanks guys, really appreciate your help. Good to work with people you can rely on.

Cliff Peligro

Alpha Coal, Queensland

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