Definitely sounds like a 'cumulative load' of multiple earth leakages all adding up to trip the RCD... (especially if you have a lot of things plugged in on multiple spurs or if the workshop is connected to the house ring, as many are...)
One advantage of being an Aussie- ring circuits aren't used here at all unlike back in the UK...- every circuit is a radial (with or without spurs, depending on usage and the outlets it is feeding...)
A '10A powerpoint' can have up to a dozen outlets off the one breaker (each MCB has to be a combined circuit breaker and RCD these days here) but 15A or 20A single phase outlets (and a 20A or 32A 3 phase if your place has 3 phase run to it) all have to be on their own individual breaker/RCD
So here, you would have a 'shed supply' breaker in the main fusebox (no RCD) rated for the cable going to the shed from the house- its only job is protecting that spur supply cable- nothing else)- then a subboard at the shed, with the 'workbench' powerpoints on one (or more) RCD's, the lighting circuit on a second, and then each machine on its own RCD protected 15A or 20A powerpoint...
(another advantage with the Aussie GPO's is that they are 'plug interchangable'- a 20A outlet looks like a 15A or 10A one- and indeed a 10A plug or 15A plug will plug right into a 20A even, but not vice versa- same with a 10A plug will go into a 15A powerpoint, but not the other way round)
10A/2400W ie 'standard household powerpoint'- note all the 'pins' are the same width/height, only the earth one is longer (for safety- first in, last out)
15A/3600W (individual RCD for each outlet at the shed subboard required by law here)- larger earth pin stops the plug going into a 10a GPO but 10a plug still goes in safely into the 15a outlet)
20A/4800W (all three 'pins' are now the size of the 15A earth one- the 10A and 15A plugs still go in and are firm due the correct spacing of the holes, one side and one edge of the pin is still firm against the plastic to support them and guide them in when plugging it in)
Very handy in a workshop shed, as if a 10A powerpoint isn't handy, just use a 15A or 20A one nearby instead to plug in a hand tool like a drill or whatever...
With each 15A or 20A on its own RCD, cumulative leakage isn't an issue and 'false triggering' is pretty much a non issue...
That might be a way forward, not too sure on the current BS standards, (been a long time since I looked at them LOL) but is a MCB at the main consumer unit (fusebox in Oz) and a subboard with seperate RCD's in the workshop acceptable still there??? (ETA appears it is)- split those outlets off and have independent outlets each on their own RCD for the bigger machines acceptable practice there???
ie same feed from the house, but each of the big machine outlets on its own spur on its own RCD from a subboard located at the shed...
Would cut down on 'excessive' cumulative loads making the RCDs trigger early
It would have been acceptable in 'ye olden days' back before RCDs became the norm when I regularly checked the BS standards but like I said, its been a while since they had any application to me personally lol
