I have worked with Bestec ATX-250 12E power supplies that were working OK, and I have worked on/fixed Bestec ATX-250 12E power supplies that were "blown". At last, I have one that is in between.
The critical capacitor in the 5vsb circuit is labeled C1 (see attachment). Its value is 10Mfd/50 volts. This capacitor is NOT in the 5vsb line, but in the feedback side of the 5vsb transformer. It is part of the regulation circuit. To determine if this capacitor is giving a problem, you can connect an oscilloscope across the capacitor. Two pictures are attached, a picture of a good capacitor with a nice straight line. The picture of the bad one shows a peak voltage of 16.4 volts and lots of signal. The large signal is what is confusing the regulator and causing the problem. In this case the 5vsb was measuring 8.4 volts. The critical capacitor measured ESR = 43.
Warning: when using an oscilloscope to measure this capacitor, you must have an isolated ground. If you hook the scope probe across this capacitor without proper isolation, it will blow your scope!
The critical capacitor in the 5vsb circuit is labeled C1 (see attachment). Its value is 10Mfd/50 volts. This capacitor is NOT in the 5vsb line, but in the feedback side of the 5vsb transformer. It is part of the regulation circuit. To determine if this capacitor is giving a problem, you can connect an oscilloscope across the capacitor. Two pictures are attached, a picture of a good capacitor with a nice straight line. The picture of the bad one shows a peak voltage of 16.4 volts and lots of signal. The large signal is what is confusing the regulator and causing the problem. In this case the 5vsb was measuring 8.4 volts. The critical capacitor measured ESR = 43.
Warning: when using an oscilloscope to measure this capacitor, you must have an isolated ground. If you hook the scope probe across this capacitor without proper isolation, it will blow your scope!
Attached Files
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