How much DC leakage is allowed on 100mA or 300mA type A RCD, impact on submains supplying EVCP's and other circuits on TT earths

Alan B 1 month ago

Just thinking about EV installs on TT earths where I have a 100mA or 300mA type A RCD protecting a submain, how much DC leakage can be applied before they are blocked.

There is a lot of discussion about EVCP not sharing a 30mA type A rcd with other circuits. But when that RCD/RCBO is then protected by an upstream 100mA or 300mA type A rcd along with other circuits, is it more tolerant to DC leakage current and by how much. Or should we be installing very expensive type B or type F RCD's.

Had a bit of a look around this and from what I case see the 100mA and 300mA devices can only tolerate 6mA DC leakage (Edited). This means that from my thinking at least a type A RCD can not be used to protect a submain or DB supplying an EV and any other circuit. I and I suspect many other electricians haven't been thinking about this.

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Alan B 1 month ago

Glen,

Sorry made a mistake on previous post. Should have said the 300mA or 100mA devices can only tolerate 6mA DC, therefore if other circuits are included in the sub DB, presumably in most cases there is likely to be additional DC leakage from those circuits. Most common would be a garage with LED lights and possibly a granny charger plugged in to a socket (I am seeing this more often in multi ev households).
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AMK 1 month ago in reply to Alan B

In scenarios like these, it is wise to select Type B or Type F
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AMK 1 month ago in reply to Alan B

In scenarios like these, it is wise to select Type B or Type F
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How much DC leakage is allowed on 100mA or 300mA type A RCD, impact on submains supplying EVCP's and other circuits on TT earths

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