@Electronic Minds regarding VOR with flyback design, it's usually something calculated/assumed very early on in the design process (maybe the first step or 2nd). With one output I get how you can get a sense of what VOR could be, but, when you have 3 or 4 outputs, how do you accurately estimate VOR?
Thanks for the comment. VOR is a primary side referenced value and is the same with multiple output flybacks. With multiple outputs, you have multiple secondary windings. In each case, the VOR is approximately Np*Vo/Ns where Vo is the output voltage each output and Ns is the number of turns of the respective output winding. Higher outputs have more secondary turns and the primary referenced VOR remains the same. I hope my explanation makes sense.
@@ElectronicmindsUK Maybe you can think of following topics: - Detailed walkthrough of evaluation boards - Magnetic design - Patent/Journal/White paper walkthrough Some of the topics you can look at.
@@ElectronicmindsUK Hi could you please make a video on three phase AC/DC converter with active PFC Circuit... input -115VAC and output 270V with 300watt output power Thanks in advance
@@biswajit681 Take a look at our AC/DC conversion video ruclips.net/video/Bw9E1YVrJDQ/видео.html as we discuss three phase to DC conversion with active PFC. The key parts are from about 33 minutes in.
@@ElectronicmindsUK Thanks for the reply.I have watched that video and it gives a great insight. But by any chance do you have any plan to make other videos on this topic or in depth videos ?
@Electronic Minds regarding VOR with flyback design, it's usually something calculated/assumed very early on in the design process (maybe the first step or 2nd). With one output I get how you can get a sense of what VOR could be, but, when you have 3 or 4 outputs, how do you accurately estimate VOR?
Thanks for the comment. VOR is a primary side referenced value and is the same with multiple output flybacks. With multiple outputs, you have multiple secondary windings. In each case, the VOR is approximately Np*Vo/Ns where Vo is the output voltage each output and Ns is the number of turns of the respective output winding. Higher outputs have more secondary turns and the primary referenced VOR remains the same. I hope my explanation makes sense.
Thank you for sharing, greatly appreciated.
You are welcome Janamejaya. What other areas do you think would be interesting for these sort of videos?
@@ElectronicmindsUK Maybe you can think of following topics:
- Detailed walkthrough of evaluation boards
- Magnetic design
- Patent/Journal/White paper walkthrough
Some of the topics you can look at.
@@ElectronicmindsUK Hi could you please make a video on three phase AC/DC converter with active PFC Circuit... input -115VAC and output 270V with 300watt output power
Thanks in advance
@@biswajit681 Take a look at our AC/DC conversion video ruclips.net/video/Bw9E1YVrJDQ/видео.html as we discuss three phase to DC conversion with active PFC. The key parts are from about 33 minutes in.
@@ElectronicmindsUK Thanks for the reply.I have watched that video and it gives a great insight. But by any chance do you have any plan to make other videos on this topic or in depth videos ?