Overvoltage protection design ideas
Good day folks. Some of the wonderful people here may know that a while back I mucked about with one of those Ebay PSU modules and I'm just about ready to wrap the build up now, having completed a nice case for it, until I thought of something: so I'm powering it with a UPS transformer which puts out 36v, which is rectified then fed into the input pins of the module. The module says it can handle up to 50v, which I can only hold as correct, since the input does get fairly close to that (around 48-49v) and I haven't had any funny issues during testing. However, I definitely don't want to push it and I imagine if the mains input to the transformer goes up slightly (say 240v instead of 230v), the output would also increase since there's no regulation on the output of that rectifier.
So I had a look around to see how I could avoid such issue and found this....Seems simple enough and I actually thought of something like that even before running actual searches: get a zener close to the intended maximum voltage and a FET and build up that little circuit. If the output gets over the zener threshold, the zener conducts, the FET closes and blows the fuse...would this work ? Trouble is I'm not sure how stable my mains voltage really is, which means that if I set the "trip" voltage (Vz) to be too "strict", this setup would blow fuses all the time whenever the unregulated output goes a hair over Vz and the FET becomes conductive which would be a pain....imagine that happening when you're powering something on the bench and it just cuts out on you like *poof*... If Vz is too high, the output is already too high for the module also and the circuit becomes useless since it trips too LATE....
Approach no. 2 is this: I also thought of modifying this circuit a bit and build a regulator to ensure the supply NEVER goes above 50v like this: feed the unregulated 50v into a transistor, then put the zener on the base, so now, the transistor is conducting all the time under the value dictated by the zener - something like 48v (if such a value exists). I know that there must be a minimum current flow through the zener in order for it to regulate, so if my input is 48v, the zener value will have to be lower than that, but I just chose a round value for argument's sake. Problem no.2 is that the transistor would have to be HUGE. Correct me if I'm wrong, but at 15A which the maximum possible current draw through this PSU module (let's just leave it at that, since it may not be achievable in reality) the series transistor would dissipate over 700W (48v*15a = 720w !), so it's not practical in the slightest. It's unlikely I'll ever need that kind of power, plus I doubt the module could deliver it reliably to begin with, but like I said: worst case scenario for example purposes.
Which of these two would be most useful/reliable ? Probably neither, so suggestions are welcome as always
Cheers and thanks.
So I had a look around to see how I could avoid such issue and found this....Seems simple enough and I actually thought of something like that even before running actual searches: get a zener close to the intended maximum voltage and a FET and build up that little circuit. If the output gets over the zener threshold, the zener conducts, the FET closes and blows the fuse...would this work ? Trouble is I'm not sure how stable my mains voltage really is, which means that if I set the "trip" voltage (Vz) to be too "strict", this setup would blow fuses all the time whenever the unregulated output goes a hair over Vz and the FET becomes conductive which would be a pain....imagine that happening when you're powering something on the bench and it just cuts out on you like *poof*... If Vz is too high, the output is already too high for the module also and the circuit becomes useless since it trips too LATE....
Approach no. 2 is this: I also thought of modifying this circuit a bit and build a regulator to ensure the supply NEVER goes above 50v like this: feed the unregulated 50v into a transistor, then put the zener on the base, so now, the transistor is conducting all the time under the value dictated by the zener - something like 48v (if such a value exists). I know that there must be a minimum current flow through the zener in order for it to regulate, so if my input is 48v, the zener value will have to be lower than that, but I just chose a round value for argument's sake. Problem no.2 is that the transistor would have to be HUGE. Correct me if I'm wrong, but at 15A which the maximum possible current draw through this PSU module (let's just leave it at that, since it may not be achievable in reality) the series transistor would dissipate over 700W (48v*15a = 720w !), so it's not practical in the slightest. It's unlikely I'll ever need that kind of power, plus I doubt the module could deliver it reliably to begin with, but like I said: worst case scenario for example purposes.
Which of these two would be most useful/reliable ? Probably neither, so suggestions are welcome as always
Cheers and thanks.
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