FesZ Electronics | Electronics Tutorial - Synchronous Buck Converters @FesZElectronics | Uploaded April 2020 | Updated October 2024, 8 minutes ago.
#67 In this video I look at what makes the typical buck converter inefficient - where are most of the losses coming from. And to counter act that I look at the buck converters big brother - the Synchronous Buck Converter. I simulate the circuit using LTspice but I also build it and test it.
Simulation used in the video:
drive.google.com/open?id=19u8dbBy4dAJD0zQyXD4dmZtHgnD6DTYf
Transistor datasheet:
https://www.onsemi.cn/pub/Collateral/NTD20N06-D.PDF
nxp.com/docs/en/data-sheet/BFU520.pdf
More on buck converters:
High side drivers - youtu.be/2LlT0-S9KvI
If you liked this video be sure to check out my other videos and you can also subscribe to be up to date with all the new ones!
If you want to support the creation of more and better videos you can at: patreon.com/feszelectronics
#67 In this video I look at what makes the typical buck converter inefficient - where are most of the losses coming from. And to counter act that I look at the buck converters big brother - the Synchronous Buck Converter. I simulate the circuit using LTspice but I also build it and test it.
Simulation used in the video:
drive.google.com/open?id=19u8dbBy4dAJD0zQyXD4dmZtHgnD6DTYf
Transistor datasheet:
https://www.onsemi.cn/pub/Collateral/NTD20N06-D.PDF
nxp.com/docs/en/data-sheet/BFU520.pdf
More on buck converters:
High side drivers - youtu.be/2LlT0-S9KvI
If you liked this video be sure to check out my other videos and you can also subscribe to be up to date with all the new ones!
If you want to support the creation of more and better videos you can at: patreon.com/feszelectronics