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ExternalEarth Fault Loop Impedance :
Regulation313.1 (iv) – Requires an assessment ofthe ( External Earth Fault Loop Impedance Ze ) of that part of the systemExternal to the Installation .
( from -&-s point of view . The Origin ofthe Installation )
Suitabilityof Supply :
Regulation313.1 (v) – Demands an assessment to bemade of the suitability of the Supply for the requirements of the Installation ( Including MaximumDemand )
Regulation 314.4. – 2392-10 as a Domestic Installer .
Thisis important . Each circuit to be electrically separated & connectedindividually & detached from all other circuits where they terminate in a ConsumerUnit .
Theconnections of each circuit Line(s) & Neutral(s) & Circuit protective conductors ( CPCs ) must follow a logical sequence at theirTermination in the Consumer Unit
One MCB Separate Way .
Importantto recognize that an Overcurrent Protective Device ( MCB ) or a ( RCD ) willnot provide Automatic Disconnection when human contact is made between Two LiveParts only . ( Line & Neutral ) an RCD mayAutomatically disconnect if contact is also made Simultaneously with Earth Parts
Thenwe go down the road of “ Touched Voltage“ 50V
ElectricShock under Fault Conditions is when contact ismade with an Exposed Conductive Parts . ( Metal Enclosures/ Class 1 item of Equipment )
( Whichis not live Under Normal Conditions but which has Become Live under EARTH FAULT CONDITIONS )
Workingmy way around the Regulations :
BS-7671:2008)- References to Accessories .
Regulation132.12 )- All electrical equipment mustbe assessable for operation . Inspection & Testing . ( Fault detection ) Maintenance& Repair
(Definitions ) A device . other than current using equipment . associated withsuch equipment or with the wring of an Installation .
“ PlainEnglish “ An accessoryis an item of electrical equipment that does not use anycurrent . Switches or a Socket outlet .
Regulation 421.7. & 526.5. )- Every termination . connection or jointbetween live conductors including the Neutral conductormust be made in a suitable accessory or enclosure
Regulation530.4.2. )- All Accessories must be fitted toan appropriate mounting box or enclosure .ETC.
Regulation 553.1.6. )- A wallmounted socket outlet must be mounted high enough above a floor or work surfaceto prevent damage to the flexible cord of the plug top
Regulation 553.1.6. )- Do Not Mix this up with Part P .
BS-7671does not give Specific Heights for Accessories .
Ifwe look at the ( Building Regulations )
Accessories must be mountedbetween 450 mm & 1200mm from the finished floor level . ETC.
Thefollowing errors occurred with your submission . Dan /Jason is aware of it . I do apologiseabout this Amber . I will break into twoparts
Workingmy way around the Regulations :
Switch Wires )- Appendix 7 - p/343
Wherea two-core cable with cores coloured Brown& Blue is used as a Switch wire , bothconductors being Line conductors . the Blue conductor should be marked Brown or ( L ) at its terminations .
Intermediate & Two-way Switch Wires )- p/343
Wherea Three-core cable with cores coloured Brown .Black & Gray is used as a Switch wire , All Three conductors’ being Line conductors . The Black & Gray conductors shouldbe marked Brown or ( L ) at their terminations .
2392-10 – As Designers Are you aware the BS-7671 is British Standards . ina “ Court of Law “ ( Compliance )
TheO.S.G. is only Guidance’s
Appendix3 – ( Informative ) its tell us ◄
Time/CurrentCharacteristics of Overcurrent Protective Dives & ( RCDs )
Time-DelayedResidual Current Devices ( Type S )
Example: Appendix 3. Table 3A p/243 .
Two– RCDs )- Characteristics of the Two devices
itis required to select Suitable devices to EnsureDiscrimination . ( PS - Discrimination. does not Only come with Fuses ) point to Note.
i)The downstream device . is selected to be a ( General Device - BS-EN 61008-1 ) … This is theFIRST Line of DEFENCE. its rated residual operating current (I∆n ) selected 30mA. – The Operating Time . in accordance with the FIRSTLINE
Example :
Ata its rated residual current of ( 30mA – Device will operate within 0.3s ) ↔ ( 60mA – Devicewill operate within 0.15s ) ↔ ( 150mA – Device will operate within 0.04s )
ii)The Upstream Device )- as Designers’ you haveselected it to be ( Type S BS-EN 61009-1) Device in accordance with the second& third lines of the Table
Therated residual operating current ( I∆n ) is selected to be 500mA. The operating time . in accordancewith the second & third lines for such a device .
Ata residual operating current of )- 500mA– 1A – 2.5A .
Thedevice will NOT operate before )- 0.13s – 0.06s –0.05s .
Butwill OPERATE within )- 0.5s – 0.2s – 0.15s .
Itis now required to Establish whether correct Discrimination between the Downstream general device & the Upstream time-delayed device will be Achieved under EarthFault Conditions. Values of Earth Fault Current in the Socket-outlet circuit are considered .
•30mA )- Should an Earth Leakage Fault of 30mA. develop on the Socket outlet circuit . the Downstreamwill Operate within ( 0.3 seconds ) The Upstreamdevice . being a ( 500mA ) Will not “ SEE “this level of EarthFaultCurrent & WILL NOT OPERATE
•150mA )- The Downstream device operates within( 0.04 seconds ) The Upstreamdevice will “ NOT “ operate ( being a500mA device )
•500mA )- The Downstream device operates within ( 0.04seconds ) The Upstream time-delayeddevicewill “ NOT “operate during the first ( 0.13s ) of the Faultthereby allowing the Downstream device to Disconnect .
Herecomes the How’s & Whys –
Note : The Upstream devicewould operate if the Fault Persisted for ( 0.5 second ) DUE tofailure of the Downstream device
In – is the Rated Current ofthe Device .
( RCD ) I∆n - is the RatedResidual Operating Current .
RememberApprentices . You need a MCB – for Overload .
RCD– is for Additional Protection ( RCD alone will NOTdetect OVERLOAD )
Asyoung Designers – Head for Regulation / Definitions p/29
RCBO – is MCB / RCD )-Overload & or Short circuit .
RCCB - )- Overload & orShort circuit .
► Youmust give Discrimination to allow the 30mAdevice a chance to Operate first ( 100mAtime-delayed / 30mA General Device )
This bring me to another point !!
Regulation514.12.2 . p/94
Wherean Installation incorporates an RCD a “ Notice “ shallbe fixed in a prominent position at or “Near “ the Origin of the Installation . etc.
Thejob I was On . I asked the Lady when was the Last time you Tripped your RCD . (What RCD ?? ) – Lets put it another way . when did you get the CU . 8 Years ago
The RCD Incomer had Seized Up . The MCBs had to take the Fault
Sowe’ll take this as a Learning Cure .
Megger1552 . 3 x Tests + 1 – Ramp Test
Weare Working on ( General Purpose ◄ / They areNon-delayed RCDs )
( ½ ) ↔ ( 50% ) is 0.5 x 30mA .No Trip
( 100% ) is ( x 1 –This must cause the RCD device to Trip ( 300mS )◄◄ Note :BS-EN ◄◄ ► ( -&-s BS/ Old British Standards must go Out in 200mS )
( 500% ) is ( x 5 – if we are using a 30mA Thismust go out within 40mS
Example. The
Regulation411.3.3. . requires that Socket outlets . Not exceeding 20A . That are for useby Ordinary persons intended for General Use .
AreProtected by an RCD rated at ( 30mA ) . With anoperating time NOT exceeding ( 40mS ) at a residual current of ( x 5 I∆n ) I∆n - is theRated Residual Operating Current .
If -&-s asked Q/As you about 100mARCD : in Exam - what would you Test an100mA RCD on ( 0.5 x . x 1 . x 5 ) Whatis x 1 / 100%
As a Tester :
As a Tester :
Insulation Résistance Testing
Removeall Lamps from Fitting where Accessible ?
Greater care must betaken. As during this Test ( 500V D.C. ) This could damage the Equipment .
- If we leftequipment which is left connected ?? ( Any accessories with indicator Lamps areswitched OFF . “ Neon’s “
Neon Indicator Lamps. Will recognized as a Load by the Test Instrument & will give a Very LowInsulation Value.
All that is requiredis for the Switch on the accessory to be Turned OFF.
Brackets“ Apprentices
These should be used to carry out calculation within a calculation .
32--------------------- ( 0.8 x 0.65 x0.94 ) = 65.46
Enter in to Calculator )- 32 ÷ ( 0.8 x 0.65 x 0.94 ) =
( 0.8x 0.65 x 0.94 ) = 0.4888 . )- 32 ÷ 0.4888 = 65.46
kW)- True power ( x 1000 )
kVA)- Apparent power ( x 1000 )
kVAr)- Reactive power ( x 1000 )
Load )- The current drawn by ElectricalEquipment connected to an Electrical Circuit .
Prospective Short Circuit Current . – The maximum currentwhich could flow between live conductors . ( PSCC)
Prospective Fault Current - The highest current which could flow in a Circuit due to aFault . ( PFC )
Regulation612.11. Prospective FaultCurrent
(PFC ) → to any of ( PSCC ) or ( PEFC )
The ProspectiveShort Circuit Current & Prospective EarthFault Current shallbe Measured . ETC ( at the Origin ) – Consumer Unit / Tails
(PSCC ) – Line & Neutral
(PEFC ) – Line &Earth
Q)The Instrument to be used for a Polarity test . Before the Supply is connected. ?
A)This test is usually conducted while measuring the value of ( R1+ R2 ) where a Low Reading Ohm Meter is used .
(if conducted as a separate test any from of Continuity Tester is used )
O.S.G.p/77
( I must stress O.S.G. is Guidance only )
Guidanceon Initial Testing of Installations .
ii) Checking that the TestInstrument is made in accordance with the appropriate safety standards such as( BS-EN 61243-3for Two pole voltage detectors & ( BS-EN 61010 or BS-EN 61557 for Instruments .
iv) Observing the safetymeasures & procedures set out in HSE Guidance NoteGS-38 for all Instruments . Leads . Probes & Accessories . ETC .
O.S.G.with the Supply Connected
vi)Check “ Polarity “ of supply . using anApproved Voltage Indicator .
Q)An instrument that may be used for a “ Live “ Polarity Test – after the Supplyis connected .
A)A voltage indicator meeting the requirements of ( GS-38) HSE … This will come up a lot on “ Exams “( GS-38Leads )
Specification)- BS-EN 61243-3 : 1999 –Live working . Voltage detectors . Two-pole low voltage type .
Specification)- BS-EN 61010-1 : 2010 -Safety requirements for electrical equipment for measurement . Control . & Laboratory use ( General Requirements)
IfInstallation(s) are to be Tested to show that they complywith BS-7671 – The following instruments will be Necessary
Testing)- 612.1.
The test of Regulations 612.2. to 612.13.ETC.
Measuringinstruments & monitoring equipment & methods shall be chosen inaccordance with the relevant parts of ( BS-EN 61557 ) if other measuring equipmentis used . it shall provide NO LESS degree of performance & SAFETY .
- Lowrésistance ohmmeters . ( BS-EN 61557- 4 )
- Insulationrésistance ohmmeters . ( BS-EN 61557- 2 )
- Earthfault loop impedance testers ( BS-EN 61557- 3 )
- Earthelectrode résistance testers ( BS-EN 61557- 5 )
- RCDtesters ( BS-EN 61557- 6)
Insulation Résistance ( IR )
2392-10. Dead Test - Line& Neutral to be Linked out for this Test( Megger 1552 - Two lead(s) Lead one L&N )– Lead two Earth
Instrumentto be Used. ? … ( Insulation ResistanceTester ) for Exam purposes -&-s ►► PS NOT MEGGER
ElectricalInspection & Testing .
ContinuityTesting . ( Closed Circuit )
Examplelittle ( r[SUP]1[/SUP] ) end to endLine conductor ( Closed Circuit ) Youwill get a reading Ωs ?? ( r[SUP]1[/SUP]) to ( r[SUP]1[/SUP])
AnInspection & Test which is carried out on a NewInstallation to prove Compliance is called an InitialVerification .
( EIC ) The Electrical Installation Certificatemust be accompanied be a Schedule of Test results & Schedule of Inspection
Withoutthese two documents’ . The Electrical Installation Certificateis not Valid .
Regulation. Chapter 63 p/163 .
632.1. Initial Verification
Followingthe Initial Verification required by Chapter 61. anThe ElectricalInstallation Certificate. together with a Schedule of Inspections & Schedule of Test results .shall be given to the person ordering the work .
Thiscalculation is for BS-EN MCBs
MCBtype B . Time must be achieved when a currentof between ( 3 & 5) times its rating passes through it
MCBtype C . Time must be achieved when a currentof between ( 5 & 10) times its rating passes through it
MCBtype D . Time must be achieved when a currentof between ( 10 & 20) times its rating passes through it (disconnection of the device Ia )
Producetable(s) for Zs values . a specificvalue of current is required & the worst case is Used. ( B – 5 . C – 10 . D - 20 )
Whenthese values are used it is simply a case of ApplyingOhms Law – to the supply voltage 230V
&( Ia ) to obtain a ( Zs ) value
Thiscalculation will satisfy regulation 411.4.5. ( Zs x Ia ≤ Uo )
MCB– B : The ( Zs ) for a 20A type B ?? Calculated .
5 x 20= 100 … ( 230 ÷ 100 = 2.3Ω )
MCB– C : The ( Zs ) for a 20A type C ?? Calculated .
10 x 20 = 200 … ( 230 ÷ 200 = 1.15Ω )
MCB– D : The ( Zs ) for a 20A type D ?? Calculated .
20 x 20 = 400 … ( 230 ÷ 400 = 0.57Ω )
Working my way around the 17[SUP]th[/SUP] Edition.
Reduced– voltage transformer ( Centre Trapped ) ◄◄
(Zs ) values for Circuit Breakers ( Table 41.6 – p/54 )
( Calculatedin the same way as the Circuit Breakers ( Table 41.3 – p/49 )
The only difference is the Voltage ( 55V or 63.5V ) Table 41.6 : We arenot Calculating 230V ◄◄
32Atype B – MCB . ( 32 x 5 = 160 )
(55 ÷ 160 = 0.34Ω )
Maximum Earth Fault Loop Impedance ( Zs ) for 5 sec Etc
&Uo of ( 55V ) Single Phase .
&( 63.5V ) Three Phase
MCB– BS-EN 60898 & BS-EN 61009-1 protective devices . Usually have two short circuit capacitiesmarked on them .
(Icn ) Which is the rated Short Circuit Capacity – is the Maximum Current whichthe device could interrupt without causing ant damage to other Equipmentsurrounding it .
( Ics) Which is the ( In-service Rated Short Circuit Capacity ) is the Maximum Fault Current which the device could interrupt safetywhilst remaining safe to Use .
Itis better to select a device with an ( Ics )which is higher than the ( PFC ) as the devicewill still be fine for continued use .
( Markedon the MCB - Icn ?? 6000 or 10.000 )
BS-EN 61009-1 / RCBOs
Insulation Résistance : ( 3 Test ) Regulations . [ Testing IR at theMain Switch ]
Dead Test .
Safety Isolation Procedures’ . are required hereprier to Testing
This can be carried out at the “ Main Switch “ of the Consumer Unit being Tested . You mustmake sure that the Main Switch is on the ONposition with all the Circuit Breakersfor all the Circuits to be tested . in doing this you must ensure that “ Lamps . Dimmer Switches . & Appliancesare removed Prior to Testing .
• The Test is carried out between the Line & Neutral - using the Insulation Résistance Tester [ Megger ] Using the 500MΩ Volts scale
500V is applied – Your reading should be Greaterthan 999MΩ is Obtained .
• The Test is carried out between the Line & Earth -using the [ Megger 1552 ]
500V is applied – Your reading should be Greaterthan 999MΩ is Obtained .
• The Test is carried out between the Neutral & Earth -using the [ Megger 1552 ]
500V is applied – Your reading should be Greaterthan 999MΩ is Obtained .
Reason(s) :
This proofs that the Line& Neutral are not touching :
This proofs that the Neutralto Earth are not touching :
This proofs that the Line&Earth arenot touching : Throughout the Circuits’ .
Polarity ( 4 ) : This Test is the Forth Test . “ DeadTesting “ “ Wiring Regulations “
Safety Isolation Procedures’ . are required hereprier to Testing ☑
This Test is to ensure that all Switches Fuses& Circuit breaker are in the line conductorOnly & Socket-outlets are wired correctly . 612.6 ☑
• In this case am only Testing the Lighting Circuitonly . ↔ Polaritywould have been Tested through the Continuity Ring Final Circuit Test .
Very similar to Continuityof CPC. Although a read is not required . So the ( R1 plusR2 – Need Not be Recorded )
Consumer Unit – Inside . Having removed the Line Conductor from the circuit to be Tested . it isplaced into the Earth bar ( Met )
The Test Instrument to be used is then brought toeach point in the Lighting Circuit to ensure that Polarity is correct . while areading is not required this can be put on the Buzzer or Bell set mode . ↔ The Test is carried out between the Switch live & Earthat the Ceiling Roseor Batten Holder → with the Switch on the OFF position “ No Buzz “
Switch - the Switch ON it Indicates a Buzzing“ The polarityis correct . if this was carried out using a Low-résistance Ohmmeter thesame Test would show the meter reading from greater from scale ( 999MΩ ) down the a lowrésistance 0.15Ω in the same in the case of ( R1 plus R2 ) forContinuity of CPC
“ Useful Junk “
( 999MΩ ) megohms is a Near-perfect résistancereading for a Wire/Cable
The Megohmmeter . or Megger 1552 – multi function tester . is a measuring device thatTests high Electrical Résistance .
Typically these measurements aremade on Electrical Wires & Motor Winding to test the Insulation value ofthe wires . The prefix “ Meg ” describes a numerical value of 1.000.000. in thecase of an Ohmmeter that value is also described in Ohms .
An Electrical/ Electric terminal positive polarity 612.6 ☑
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