| Electronics > Beginners |
| Understanding feedback circuit |
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| gkmaia:
I got a flyback power supply that outputs 8V. Circuit seems very simple with just a MOS on the primary to oscillate and a diode on the secondary to rectify. My question is. I want to bring it down from 8V to 6.5V. Looking at the secondary (market in red) I can see a Zener A2-11 with Vz 9.7~10.1v I am wondering. If I were to replace this Zener with a 8v Zener it would reduce the voltage output? Maybe other option would be to unwind the transformer secondary a few turns to reduce the voltage output? Am I right on my assumptions? Any advise? |
| fzabkar:
AFAICS, the voltage sensing happens on the primary side. The 10V Zener might be an overvoltage crowbar :? What are the markings on D16 and D17? Is one of them a Zener? Edit: I can't make sense of your circuit. Could it be something like Fig 7 in the following datasheet? If so, then you could wind additional turns in phase and in series with the secondary control winding. The more turns you add, the lower will be the output voltage. However, a better approach would be to add an optocoupler and TL431 to provide much better regulation. There are examples in the datasheet. http://pdf.datasheetcatalog.com/datasheet_pdf/power-integrations-inc/TOP100YAI_to_TOP103YAI.pdf |
| gkmaia:
I've updated the schematic The schematic you send based on TOP100 is very similar to the example MIP2E7D which is the MOS used on my adapter. Looking at my PCB there is a slot for an optocoupler and seems they designed it to support multiple topographies. I could try that, but that would be quite a big task and I am trying to avoid it. I was trying to find a way to get this done without refactoring the circuit too much. |
| fzabkar:
Your circuit looks very similar to the TOP100Y application circuit. However, you have drawn the transformer taps incorrectly. ISTM that the upper secondary winding should be connected to taps 3 and 4, not 2 and 3. The primary winding (bottom) should be connected to taps 3 and 4. The lower secondary winding (the control winding) should connect to taps 1 and 2. MIP2E7D, Panasonic, IPD, 700V, 3A, TO220, 100kHz, 40W - 60W: http://pdf.datasheetcatalog.com/datasheets/480/467388_DS.pdf http://datasheet.elcodis.com/pdf2/118/25/1182521/mip2e4d.pdf Edit: The bottom end of the control winding connects to the 0V reference. If we open this end of the winding and insert two silicon diodes in series with the winding, then the control voltage (at the winding) will be 6V - 1.2V = 4.8V. This should then reduce the output voltage by the same ratio, ie Vout = 8 x (4.8 / 6) = 6.4V. Of course these diodes need to be biased in the same direction as D3 in the application circuit. Small signal diodes should suffice (the current draw is very low). Edit #2: My suggestion would increase Vout, not decrease it. Sorry. However, my original suggestion regarding additional turns for the control winding should work. |
| gkmaia:
Ok, so one last question them... That seems like a very simple one transistor oscillator flyback that hands all the voltage regulation to the DC/DC transformer. Is that right? |
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