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PV submain cables: 712.521.101

Hi all,

To paraphrase the regulation (not a verbatim quote, my emphasis), "Cables on the DC side shall be selected so as to minise risk of faults. This shall be achieved by (i) single-core cables having a non-metallic sheath or (ii) singles in individual conduits. Other types of wiring system providing an equivalent level of safety are not precluded"

So... this appears to be a conflict between a "shall be XX" and "other options are available".

  1. Should this really be read as "This could be achieved by"?
  2. Does a cable construction such as single core two layers of insuation* under a wire/tape armour with non-metallic sheath give you an option for burial of larger DC main/submains? I feel like it strictly does, but isn't what the authors had in mind when drafting the description... but I also think it gives the same degree of safety (or potentially improved)

*No, I don't mean bedding

I note that this is a watered down version of the DFPC that didn't have the opt-out clause.

Thanks in advance for your thoughts.

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  • Hi both,

    Thanks for your thoughts. I don't disagree with either of you in principle.

    However I would point out that it the presence of an armour / screen may be warranted for reasons other than ADS. For example, the current (7y.o.) IET CoP for PV says that for protection against lightning:

    Where a system features longer d.c. cables (e.g. over 50 m) consideration should be given to the use of a screened cable (for example, armored cable) or installing the cable in earthed metal conduit/trunking

    Worth noting that the CoP also specifically lists SWA as being suitable for this measure... Is this in conflict with the more recent BS7671?

    Other potential reasons might include EMR, water ingress defence (tape), mechanical protection during installation, IMS functionality etc. Conversely if armour should never be used on DI systems surely neither should steel trunking?

    I absolutely agree any armour would need to be earthed (to be honest I took that as a given).

  • Worth noting that the CoP also specifically lists SWA as being suitable for this measure... Is this in conflict with the more recent BS7671?

    I would be inclined to rely on BS 7671 for this, because of the difference in legal position between Standards (BS 7671) and Industry Guidance (the CoP).

    IET CoP for Solar PV is a number of years old, and the IET is working on a Second Edition. The Draft of the 2nd Edition was out for public comment between 30 May and 27 June 2022. The Draft for Public Comment (although not the final version, and things may change between draft and final) was indicating removal of SWA as an option.

    Conversely if armour should never be used on DI systems surely neither should steel trunking?

    Well, I don't 100 % agree - if the cable inside the metallic containment is 'insulated and sheathed', the requirements of BS 7671 for Class II wiring systems may be met, but if insulated (unsheathed) cables are used, the containment would have to be non-conductive.

    The issue with armoured cable, is that there is only insulation between conductor and armour, not conductor+sheath (or conductor+non-metallic protection)

  • Thanks Graham.

    Appreciate that there is a difference between bedding and sheath, although presumably this depends on the constructon and material of both.

    But what I am trying to angle at is not whether AWA to BS5467/6724 is specifcally acceptable (though your suggestion that it is not is noted), but whether the presence of a concentric metallic component in the cable is prohibited dull-stop, or if one has a cable specifically built with an "inner sheath" twixt the conductor and the metallic component that then equivalent protection is provided and it can be used where required as a potential solution.

    I am thinking along the lines of TUV Rheinland 2PfG2642/11.17. I appreciate that that's not a BS or even EN but we might not need to cross that bridge if the principle is verboten.

  • or if one has a cable specifically built with an "inner sheath" twixt the conductor and the metallic component that then equivalent protection is provided and it can be used where required as a potential solution.

    That might work .... but like yourself, I'm not aware of a cable constructional standard that covers such a cable ... so agree we would be going down the "non-standard cables" discussion, of having extra "due diligence" and confirming on certification its "at least as safe" etc.

  • Hi Graham,

    I'm curious if there is any more news on whether the use of SWA for solar DC will be (or is) removed from the CoP? 

  • I'm curious if there is any more news on whether the use of SWA for solar DC will be (or is) removed from the CoP? 

    Well, the 2nd Edition of the CoP is due to publish on 29 November.

    But ... I hope to be able to share a link to a presentation I gave at a public event a couple of weeks back ... which covers this question.

    Please bear with me.

  • Thanks. It seems to me that there are legitimate safety and maintenance concerns with running DC from PV long distances in SWA . It's a tempting option considering cost especially with ground mount arrays long distance from the intake. So it will be good to have it covered in the CoP.

    MCS advice to keep DC cabling to a minimum can be interpreted many ways. But in the end you are weighing cost against safety. The latter better be the one that wins.

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  • Thanks. It seems to me that there are legitimate safety and maintenance concerns with running DC from PV long distances in SWA . It's a tempting option considering cost especially with ground mount arrays long distance from the intake. So it will be good to have it covered in the CoP.

    MCS advice to keep DC cabling to a minimum can be interpreted many ways. But in the end you are weighing cost against safety. The latter better be the one that wins.

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