Modern RF remote controls use a coded transmission that should not trigger on random noise etc. The code from the remote is paired with the unit to be controlled.
However, I agree that most of these units, e.g. the Sonoffs, are not suitable for controlling inductive machinery , i.e. stuff with motors.
I use Sonoff RFR3s for all my workshop lighting, and they're great, especially if after working late on a rainy night I get back to the house (about 100mtrs away) before realising I've left the lights on... with the RFR3s I can control the workshop lights from my phone or via a remote switch.
Where this all goes a bit wrong is in the design of these cheap controllers. They're cheap for a reason - they've been "Muntzed", i.e. any part that's not absolutely necessary is removed.
Specifically, whilst the relay & the adverts say "10A", that means maybe 10A non-inductive load. These devices contain no snubbing across the relay contacts, which means that if you stick a decent inductive load on them, e.g. a 2KW extractor, the contacts will arc and in due course fail. either by welding themselves together or simply not turning on any more due to carbonisation.
Another grim bit of design in them is that the supposed 10A capacity is carried by PCB traces that have been built up a bit by lumping bits of solder not very evenly onto them. THIS IS NOT CAPABLE OF CONTINUOUSLY CARRYING 10A SAFELY! In practice, the PCB traces are likely to blow way before that, i.e. an uncontained fuse wire.
They are simply not designed for workshop equipment - if you want to remotely control inductive loads with one of these, use the RF switch to control a proper DIN-rail contactor and let the contactor safely do the heavy lifting which it is designed for.
Never in your wildest dreams should you put 10A, inductive or non-inductive, through these devices. Even the terminal block (screw connectors) are so small they're only rated for 5 or 6A.
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