I've got a power supply that I think was designed under the influence of hallucinogenic drugs. It has a +12V output that's using two STPS3045CP Schottky diodes (STPS3045CP Datasheet pdf - POWER SCHOTTKY RECTIFIER - SGS Thomson Microelectronics) in series for rectification. But that's not all. A1 of diode one, and A2 of diode two, are connected to ground. And between the two K terminals there's also a connection to the heatsink of all things, which is itself connected to ground. The remaining terminal of each diode is connected in series with the transformer output.
I have no idea how to even diagram this. What's going on, and what's the effective +12V current output of this mess?
Well, it does rectify. The power supply works, kind of. +12V regulation is horrible even at low loads (like 12.1V at 0A, 11.7V at 10A, for a PSU that claims 40A), and this is with PWM regulation.
Are you sure that the two diode packs are the same part number?
Could it be that one of them is common cathode and the other is common anode?
And the circuit actually looks more like the one in my attachment?
It'd also be a neat trick to get 40 amps out of a diode rectifier that's only rated for 15 amps.. You'd never see diodes in parallel under that high of a load without some kind of ballast resistors as well.
@JimB: That looks more reasonable. SB1 is jammed between the heatsink and the transformer so I can't get a positive ID on the part number. I assumed since it was the same package and started with "STS" that it was the same, but your idea could be the case.
This PSU managed 22A at 11.72V. At 33A one of the diodes popped and shorted after about a minute and the PSU was no more. It's obviously falsely rated. It's made by the Chinese company Golden Tiger, and I've already established that their EE doesn't know how to use Y capacitors properly (putting them in parallel after the bridge rectifier *facepalm*).
Agh, just noticed something. What I thought was a connection to the heatsink was actually a resistor buried under the heatsink. Let me get a closer look here.
That happened on an arc lamp supply we had. 40 A at 22V with a 40 kV start pulse. Rectifiers were rated at 10 Amps. I got on the phone and the company rebuilt the supply for free. New transformer and diode assembly.
Ok, I sat down, and now realizing that what I thought was a connection to the heatsink was actually a resistor, I think I've figured it out. They're not in series, they're in parallel.
**broken link removed**
Derp. Just really confusing with all the other stuff going on on this unit.
So here's the question. With each of those internal diodes capable of doing 15A, what would you say this output is actually capable of? Keeping in mind it burned at 33A.
Not exactly, after the none too clear photo and that last schematic of yours which I still think is wrong, I just sort of lost interest.
Weirdness has nothing to do with it.
Your circuit schematic as shown is still weird. One of the diodes in each group has to be reversed so it forms a bridge rectifier. That way you show it the transformer current flow is blocked.
The diodes are rated at 15A so it's not surprising they blew at 33A. For reliable operation I would keep the maximum output current below 15A. (I know each diodes only conducts for a half-cycle but you still should not exceed their average current rating for good reliability.)