Find your nearest distributor
 Get in touch
 Log in

Cable test equipment

 
  • Megger cable test instruments

Electricity grids have had to become more flexible, reacting faster to meet the demands of higher performance. This need for flexibility is especially true where multiple generation sources occur, such as the intermittent power from renewables like solar and wind energy. While modern SMART grid technology can quickly identify faults in sub-station and generating units, cable faults can occur anywhere on the grid. Due to the lengthy restoration times involved, quickly locating a cable for repair and minimising cable failures in the first place, is especially impactful on electrical utility reliability indices. These indices include SAIDI, the System Average Interruption Duration Index, which measures the total duration of an interruption for the average customer during a certain time period, and SAIFI, the System Average Interruption Frequency Index, which is found by dividing the total number of customers interrupted by the total number of customers served.

On-site, field activities centred on cable-related maintenance and tests include:

  • Cable fault location; whereby the cable has failed and testing is done to locate the fault
  • High voltage testing; proof testing (withstand testing) is used to determine whether the cable can withstand test voltage (usually greater than the operating voltage) for a specified period of time without any breakdown of the insulation
  • Cable diagnosis; predictive testing – used to characterise the aging and general integrity of the cable’s overall insulation

 

Specialist cable test equipment
Associated test equipment
EZ-THUMP

EZ-THUMP - Portable Cable Fault Locator

5 and 10 kV DC Insulation Resistance Testers

MIT515 MIT525 MIT1025 - 5 and 10 kV DC Insulation Resistance Testers

DigiPHONE+ - Cable Fault Pinpointer

DigiPHONE+ - Cable Fault Pinpointer

Advanced Dual Channel TDR

TDR2000/3 - Advanced Dual Channel TDR

Cable fault and test system vans

Cable fault and test system vans

Earth testers

Earth testers

ESG NT - Ground Fault Locator

ESG NT - Ground Fault Locator

Earth testers

IDAX300 - Insulation diagnostic analyser

PIL8 Phasenlux - Phase identification in earth and shorted MV cables

PIL8 Phasenlux - Phase identification in earth and shorted MV cables

Earth testers

DLRO10HD - 10 Amp Digital Low Resistance

MFM10 - Sheath fault location system

MFM10 - Sheath fault location system

 

 

HV Tester 25 - High Voltage Generator

HV Tester 25 - High Voltage Generator

 

 

HV Tester 50/80/110 - Cable Tester

HV Tester 50/80/110 - Cable Tester

 

 

CI - Cable identifier

CI - Cable identifier

   
Teleflex SX - Portable reflectometer for fault location systems

Teleflex SX - Portable reflectometer for fault location systems

   
EasyTest 20 kV - Cable Tester

EasyTest 20 kV - Cable Tester

 

 

VLF Sine Wave 34 kV - Cable Tester

VLF Sine Wave 34 kV - Cable Tester

 

 

CDS

CDS Cable Diagnostic Tester

 

 

       

Minimising cable failures

 

A cable test program encompasses high voltage testing and diagnostics. The key objective with cable testing and diagnostics is to increase system reliability by preemptively identifying defects in the cable that might result in its eventual failure. One of several additional benefits is the cost: it is more economical to fix defects early rather than repair a cable when it fails. In order to conduct a successful cable test program, the following must be identified

  • The goal of the program (e.g. assessing individual circuit reliability or prioritising cable replacement as part of a system-wide upgrade programme)
  • Cable types to be tested (PILC, XLPE, EPR, etc.)
  • Test methods to be used (some test methods cannot be applied to all types of cables; for example, a DC hi-pot should not be performed on XLPE cable because of the further aging and or damage it can cause.)

 

Cable problems can be generally characterised as local or global (e.g. affecting the entire cable span). Local problems include those at terminations, joints and in the insulation itself. A local insulation problem may be caused by a cable weak spot, but can also be man-made. Insulation may also be faulty on a global scale, such as general age related degradation, water trees throughout extruded type cables, etc.

If planning system-wide cable replacement and attempting to order which cable runs to replace first, one should make a global cable insulation condition assessment. Here the focus is on cable insulation on a macro scale (e.g. how deteriorated is it?). This assessment calls for diagnostic tests. If the cable run tests well, it receives the lowest replacement priority. Should a service failure occur, the it should be repaired and put back into service. On the other hand, if the cable run tests poorly, it receives highest replacement priority. If a service failure occurs, conduct an emergency repair as necessary or ideally replace the cable immediately.

If assessing individual circuit reliability, this requires both a global insulation condition assessment (to check for a condition that affects the cable insulation throughout, such as general degradation and aging of the cable or water trees) and local condition assessment (such as a critical water tree combined with electrical tree somewhere in the insulation, or a problem with a termination or splice). Global diagnostic methods include Tan Delta measurements and IRC/RVM measurements. Local diagnostic methods include partial discharge (PD) measurements. Depending on the situation either both or only one method is needed. For quality control on newly installed cables it is only recommended to perform a local PD diagnosis. A global diagnosis is not required because the cable insulation is new.