Discuss Basic Testing Procedures in the Periodic Inspection Reporting & Certification area at ElectriciansForums.net
Post resurrection! :egypt:
Mainly correct if briefly covered.
A couple of points in red/orange
4) Check the main earthing conductors and main bonding conductors are continuous to Gas/Water
5) Continuity of protective and bonding conductors (R1 + R2) This is not R1+R2 and is the same as 4.
This is the one
5) Continuity of radial circuits circuit protective conductors (R1+R2)
Maximum at furthest point
6) Continuity of ring final circuit conductors
· r1 rn r2
· cross connect L1,N2, and cross connect L2 and N1, You can measure between them at this point this will give you the value you expect on all other sockets which should be equal to (r1+rn)/4
readings at each socket should be ¼ of r1+rn.
· Repeat above with L1, E2 and L2, E1 (highest reading recorded as R1+R2)
7) Insulation Resistance
Test at 500v dc neutral & line
Test at 500v dc line - cpc
Test at 500v dc neutral to cpc
Toggle switches on 2 way lighting and test again, not required for Neutral to cpc
remember all the tests for the RCD
Idn at 0.5, 1, 5 (if 30mA) at both +ve and -Ve half cycles
Test button works
Post resurrection! :egypt:
Mainly correct if briefly covered.
A couple of points in red/orange
4) Check the main earthing conductors and main bonding conductors are continuous to Gas/Water
5) Continuity of protective and bonding conductors (R1 + R2) This is not R1+R2 and is the same as 4.
This is the one
5) Continuity of radial circuits circuit protective conductors (R1+R2)
Maximum at furthest point
6) Continuity of ring final circuit conductors
· r1 rn r2
· cross connect L1,N2, and cross connect L2 and N1, You can measure between them at this point this will give you the value you expect on all other sockets which should be equal to (r1+rn)/4
readings at each socket should be ¼ of r1+rn.
· Repeat above with L1, E2 and L2, E1 (highest reading recorded as R1+R2)
7) Insulation Resistance
Test at 500v dc neutral & line
Test at 500v dc line - cpc
Test at 500v dc neutral to cpc
Toggle switches on 2 way lighting and test again, not required for Neutral to cpc
remember all the tests for the RCD
Idn at 0.5, 1, 5 (if 30mA) at both +ve and -Ve half cycles
Test button works
Say what you like but good content will always resurface and there is nothing wrong with revisiting and updatingOriginal post 2010
Resurrected 2015
Resurrected again 2019
And again 2021.....
more regenerations than Doctor Who
I would include pen type voltage indicators and neon screwdrivers also as unsuitable for safe isolation.A multi meter should not be used for safe isolation as it may be set in various positions.
For example you start of with it on the ac voltage setting but in the middle of the procedure you inadvertently move the selector to a different range which could prove fatal.
The reason the proper test equipment to GS38 should be used is to remove the possibility of human error.
A very in depth post. Yes we who are longer in the trade tend to complacencySafe isolation
The procedure for proving dead should be by use of a test lamp or two pole voltage detector as recommended in HSE Guidance Note GS38.
Non-contact voltage indicators (voltage sticks) and multi-meters should not be used. The test instrument should be proved to be working on a known live source or proprietary proving unit before and after use. All phases of the supply and the neutral should be tested and proved dead.
Test sequence and descriptions
The following tests are carried out with the Consumers main switch isolated
1. Extenal earth fault loop impedance
Reason: To establish that a good earth exists at the installation in order for the remaining tests to go ahead.
Method: Disconnect the main earthing conductor from the main earthing terminal. An earth fault loop impedance tester is connected at line and earth (main earthing conductor) at the supply side of the installation and a test performed. Reconnect the main earthing conductor. The result is Ze and recorded on the sheet. The prospective fault current is measured at the same time after the reconnection of the main earthing conductor.
2. Continuity of protective and bonding conductors
Reason: To check that all circuit protective conductors (green and yellow cables) are continuous and are present at every electrical accessory on the circuit. Also to check that the main earthing conductor and main bonding conductors are continuous and correctly connected.
Method 1: The line conductor is connected to the circuit protective conductor of the same circuit at the consumer unit and a measurement taken at ALL accesories on that circuit between line and c.p.c. The highest measurement obtained is recorded on the test report.
Test result is R1 + R2. The line conductor and neutral conductor are then connected and the above repeated to obtain R1 + Rn
Method 2 (used for main earth and main bonding conductors): A wandering lead is connected to one end of the conductor to be tested and a measurement taken between the other end of this lead and the other end of the conductor.
Test result is R2.
During this test polarity can be checked as well. The continuity of the neutral conductor can also be checked.
3. Continuity of ring final circuit conductors
Reason: This test ensures that all ring final circuits (sockets usually) are indeed a continuous ring with no interconnects or breaks within it.
Method: The line, neutral and earth conductors of the circuit are identified and a measurement from one end to the other end of each is taken. These results are r1, r2 and rn.
The incoming line conductor is then connected to the outgoing earth conductor and the outgoing line conductor is connected to the incoming earth conductor. A measurement is then taken at ALL socket outlets on the ring. The highest of which is recorded on the report.
This result is R1+R2 for that circuit. The above is then repeated using the neutral conductor instead of the earth conductor. This test provides R1+Rn which does not need to be recorded on the report but is essential to check the circuit correctly.
4. Insulation Resisitance
Reason: This test checks whether the insulation around a cable is still intact and has not broken down over time. It is a good indicator of the age of an installation.
Method: An insulation resistance tester is connected across line and neutral tails at the origin of the supply. 500V are then pumped down the conductors to see if any voltage leaks across from one conductor to the other. The same is then done for the line and earth and the earth and neutral conductors.
5. Polarity
Reason: To check that all accesories are correctly connected to line, neutral and earth and that all switches and circuit breakers are connected in the line conductor only.
Method: The method for this is the same as for continuity and is usually done at the same time by operating switches etc whilst conducting the test.
6. Earth electrode resistance
Reason: To make sure that any earth electrode used is of a sufficiently low impedance to allow the timely operation of the RCD protecting the installation.
Method: An earth fault loop impedance tester is connected between line and earth at the origin of the supply and a test performed. The result of which is considered the resistance of the electrode (Ra).
The following tests are carried out with the Consumers main switch energised
7. Live polarity test
Reason: To verify polarity of supply authorities system.
Method: An approved voltage indicator shall be used or test lamp to GS38. Using the approved voltage indicator, one probe shall be placed on the incoming neutral, and the other on the incoming line conductor, on the main breaker. The indicator should show it is live. One probe shall now be placed on the CPC and the other on the incoming line conductor. The indicator should show it is live. A test shall be preformed between CPC & incoming neutral. The indicator should show that it is not live.
8. Earth fault loop impedance
Reason: This test is done at the furthest point on a circuit in order to make sure the impedance of the earth path is not too high even at the furthest point so that sufficient current will flow under fault conditions to take out the circuit breaker protecting the circuit.
Method: An earth fault loop impedance tester is connected to line and earth at the furthest point on the circuit and the test performed.
9. RCD test
Reason: To make sure RCD's trip within the correct time
Method: An RCD tester is connected and a test at 1/2 times, 1 times and 5 times the trip current is performed on each side of the cycle and a time of trip obtained. Usually milli-seconds with the highest being recorded. The manual test button is then pressed.
10. Functional testing
Reason: To make sure all switches, isolators, MCB's etc. work as they should.
Method. Self explanatory.
Reply to Basic Testing Procedures in the Periodic Inspection Reporting & Certification area at ElectriciansForums.net
We get it, advertisements are annoying!
Sure, ad-blocking software does a great job at blocking ads, but it also blocks useful features of our website. For the best site experience please disable your AdBlocker.