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Amtech Ring Circuit Grouping

Firstly, Amtech recommends the design current of a ring circuit to be 20A as the attached image and it also the deafult, at first glance that appears correct as it assumed that no leg of the ring will carry more than 20A, however this doesn’t seem to make sense as when the design current is set at 32A Amtech calculates the Iz at 25A (20A/0.8) as the below table, so uses the 20A in this case, so I am not sure why 20A Design current is the default as this will be split between legs...


I have also been trying to establish how Amtech calculates the grouping factors of ring circuits (with no luck), I have been changing the design current to see if I could see a trend but there doesn’t seem to be one. I have attached the table below to see if anyone else has any ideas on the calculation, there doesn’t seem to be anything within the manual.



 
Design Current

Grouping Factor (2 circuits)

Iz

20

0.8

21

21

0.8

21.1

22

0.8

21.2

23

0.8

21.3

24

0.8

21.5

25

0.8

21.6

26

0.8

21.7

27

0.8

21.8

28

0.8

22

29

0.8

22.7

30

0.8

23.4

31

0.8

24.2

32

0.8

25



089fa81c383511347efc18dbb2a8d03c-huge-annotation-2019-10-17-113612.png

  • Former Community Member
    0 Former Community Member
    If you think about a ring circuit, if there is 20A in one leg, then there will only typically be 10A in the other leg (otherwise we'll be operating the CPD)


    I believe amtech uses standardised grouping factors for RFC's based on:


    1 ring - Factor 1.5

    2 Rings - Factor 1.19

    3 Rings - Factor 1.03

    4 Rings - Factor 0.94

    5 Rings - Factor 0.87

    6 Rings - Factor 0.82


    If we call the factor Cr then Itabulated > In x I/Cr (Amperes) and thus we need a cable rating of 21.33A for a single RFC (now BS 7671 mandates 20A and 2.5mm2 (which will carry 27A) - the 20A assumes the worst probable division of current around the ring. We tend to use the rating of the CPD rather than a RFC design current as it's quite probable the rings may well be subject to simultaneous overload (for design purposes)


    You may need other factors as usual for ambient temperature exceeding 30C and for cables in insulation


    Does that help


    Regards


    OMS

  • OMS:

    If you think about a ring circuit, if there is 20A in one leg, then there will only typically be 10A in the other leg (otherwise we'll be operating the CPD)


    I believe amtech uses standardised grouping factors for RFC's based on:


    1 ring - Factor 1.5

    2 Rings - Factor 1.19

    3 Rings - Factor 1.03

    4 Rings - Factor 0.94

    5 Rings - Factor 0.87

    6 Rings - Factor 0.82


    If we call the factor Cr then Itabulated > In x I/Cr (Amperes) and thus we need a cable rating of 21.33A for a single RFC (now BS 7671 mandates 20A and 2.5mm2 (which will carry 27A) - the 20A assumes the worst probable division of current around the ring. We tend to use the rating of the CPD rather than a RFC design current as it's quite probable the rings may well be subject to simultaneous overload (for design purposes)


    You may need other factors as usual for ambient temperature exceeding 30C and for cables in insulation


    Does that help


    Regards


    OMS




    OMS,


    I have saved that list down for future grouping as it very helpful. 


    In this case i dont think it fits as i am using Ib, and the correction factor is constant at 0.8. This can be seen from the last line of the table above. 32A design current @ 0.8 Cg. 20A/0.8 = 25A as calculated by Amtech.


    The bit i dont understand is as per the table, if the design current is 21A @ 0.8 Grouping (2 circuits), how the tabulated current Amtech spits out can be 21.1A.


    Hope this makes sense

  • Former Community Member
    0 Former Community Member

    fiftyhertz:


     


    OMS:

    If you think about a ring circuit, if there is 20A in one leg, then there will only typically be 10A in the other leg (otherwise we'll be operating the CPD)


    I believe amtech uses standardised grouping factors for RFC's based on:


    1 ring - Factor 1.5

    2 Rings - Factor 1.19

    3 Rings - Factor 1.03

    4 Rings - Factor 0.94

    5 Rings - Factor 0.87

    6 Rings - Factor 0.82


    If we call the factor Cr then Itabulated > In x I/Cr (Amperes) and thus we need a cable rating of 21.33A for a single RFC (now BS 7671 mandates 20A and 2.5mm2 (which will carry 27A) - the 20A assumes the worst probable division of current around the ring. We tend to use the rating of the CPD rather than a RFC design current as it's quite probable the rings may well be subject to simultaneous overload (for design purposes)


    You may need other factors as usual for ambient temperature exceeding 30C and for cables in insulation


    Does that help


    Regards


    OMS




    OMS,


    I have saved that list down for future grouping as it very helpful. 


    In this case i dont think it fits as i am using Ib, and the correction factor is constant at 0.8. This can be seen from the last line of the table above. 32A design current @ 0.8 Cg. 20A/0.8 = 25A as calculated by Amtech.

    You can't use Ib as you have no real control over the usage - it could easily be fully loaded with adjacent fully loaded (or overloaded) circuits


    The bit i dont understand is as per the table, if the design current is 21A @ 0.8 Grouping (2 circuits), how the tabulated current Amtech spits out can be 21.1A.

    Because I'm using a design current of 32A and approximating a 0.66 and 0.33 split of current in the legs of the ring (21.3 A and 10.7A) - and thus one leg of the circuit is less than 33% loaded and can be effectively ignored for grouping purposes. What you should be seeing is that you can sensibly group 3 No fully loaded RFC's when using a 27A cable with no derating (ie Cr in each case is greater than 1) due to the headroom difference between 20A and 27A



    Hope this makes sense


     




     

    Regards


    OMS

  • OMS:




    fiftyhertz:


     


    OMS:

    If you think about a ring circuit, if there is 20A in one leg, then there will only typically be 10A in the other leg (otherwise we'll be operating the CPD)


    I believe amtech uses standardised grouping factors for RFC's based on:


    1 ring - Factor 1.5

    2 Rings - Factor 1.19

    3 Rings - Factor 1.03

    4 Rings - Factor 0.94

    5 Rings - Factor 0.87

    6 Rings - Factor 0.82


    If we call the factor Cr then Itabulated > In x I/Cr (Amperes) and thus we need a cable rating of 21.33A for a single RFC (now BS 7671 mandates 20A and 2.5mm2 (which will carry 27A) - the 20A assumes the worst probable division of current around the ring. We tend to use the rating of the CPD rather than a RFC design current as it's quite probable the rings may well be subject to simultaneous overload (for design purposes)


    You may need other factors as usual for ambient temperature exceeding 30C and for cables in insulation


    Does that help


    Regards


    OMS




    OMS,


    I have saved that list down for future grouping as it very helpful. 


    In this case i dont think it fits as i am using Ib, and the correction factor is constant at 0.8. This can be seen from the last line of the table above. 32A design current @ 0.8 Cg. 20A/0.8 = 25A as calculated by Amtech.

    You can't use Ib as you have no real control over the usage - it could easily be fully loaded with adjacent fully loaded (or overloaded) circuits


    The bit i dont understand is as per the table, if the design current is 21A @ 0.8 Grouping (2 circuits), how the tabulated current Amtech spits out can be 21.1A.

    Because I'm using a design current of 32A and approximating a 0.66 and 0.33 split of current in the legs of the ring (21.3 A and 10.7A) - and thus one leg of the circuit is less than 33% loaded and can be effectively ignored for grouping purposes. What you should be seeing is that you can sensibly group 3 No fully loaded RFC's when using a 27A cable with no derating (ie Cr in each case is greater than 1) due to the headroom difference between 20A and 27A



    Hope this makes sense


     




     

    Regards


    OMS 

     




    Thankyou for bearing with me, you have been very helpful - you are a local legend where i work!


    Understood on three circuits clipped direct passing in groups of 3.


    Very last thing in that case if assuming full load current, if you had twin in dado trunking with a current carrying capacity of 23A according to 4D2. How can you possibly allow multiple grouped circuits within this scenario as per your calculation.


    In x (1/Cr)

    Cr for 2 circuits = 1.19


    32 x (1/1.19) - 26.89A


    Im just attempting to consider this within real world design, we are effectively saying that dado trunking can only house one ring circuit at 2.5mm, before needing to be 4mm rings

  • Former Community Member
    0 Former Community Member
    Correct in terms of tabulated numbers.


    However, the reason we don't burn out 2 or 3 rings installed in dado is that we are probably running them at 10A not 32A - but that's the real world rather than the theory we are discussing.


    You can use Ib rather than In - but you have to be pretty bloody sure that the simultaneous overload beyond Ib isn't going to be sustained for any length of time if you want to group the circuits - BS 7671 warns us against small overloads of long duration.


    Equally - is the clipped direct rating really 27A and is the enclosed rating really 23A - the numbers themselves are fluid and based on incredibly conservative assessments design to cover all circumstances. As an example, is there really the same rating for a cable in dado if that cable is in plastic dado or metallic dado- there will be a difference (in a previous life, I spent a happy summer with a major british cable manufacturer measuring these things in the day and spending the money on cigarettes, beer and girls in Enfield Lock each evening)


    Regards


    OMS