Understanding the Role of D1, C1, and Lm in a Boost-Flyback Converter

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In a Boost-Flyback converter, D1 and C1 are crucial for delivering energy stored in the transformer's leakage inductance (Ld) to the output. The role of Lm, representing the non-ideal leakage inductance of the transformer, is to indicate how energy is managed within the circuit as the magnetic field collapses. Leakage inductance can include not only the transformer's properties but also the inductance from the wiring or PCB traces connecting components, which can affect performance if not properly designed. Capturing the stored energy with D1 and C1 enhances efficiency, as dissipative snubbers can generate excessive heat in less optimized designs. Understanding these inductances is essential for improving converter performance and reliability.
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I am reading about Boost-Flyback converter and this is a bit confusing.
Could you explain the role of D1 and C1 here?
The lecture says that "D1 and C1deliver to the output the energy stored in the transformer leakage inductance Ld." I can't understand what is meant here.
And could you explain why there is Lm there?

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Lm is the (non-ideal) leakage inductance of the transformer. You need to understand that first.
http://en.wikipedia.org/wiki/Leakage_inductance

The leakage inductance stores energy the same as Ld does, and that energy needs to go somewhere as the field collapses. It doesn't go through the transformer because that's what Lm is representing, the inductance of the transformer as seen from the primary.
 
I don't know your source for that circuit so take this as speculation.

I'd wager leakage inductance includes not only transformer leakage as pointed out by mBGuy, but inductance of the loop (of wires or pc traces) connecting transistor S to the power supply and transformer as well.
That inductance can be quite troublesome if the layout is not very good as in the first switcher i ever built.
That's clever, capturing its stored energy with D1-C1 and adding it to output. The dissipative snubbers in my amateur project got quite hot.
 
this isn't my field of expertise
so just wanting to learn...

mebigguy ... You are saying that Ld and Lm are not physical inductors but are the "product" of the primary of the 1:n transformer ?
At least I think that's what you are saying ?

Dave
 
I am saying Lm is inside the transformer. I think Ld is a real inductor.
http://www.ijrte.org/attachments/File/v2i6/F0948012614.pdf uses a series inductor for boost.
 
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