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Product Information
Hardware Requirements:
The following hardware’s are required to realize a dc to dc buck converter.
1. Constant DC source,
2. Single switch MOSFET board.
3. Buck Inductor,
4. Controller Section (uC or FPGA),
5. Isolated MOSFET Gate Driver,
6. Load.
Working Principle:
The circuit configuration of a buck converter has a MOSFET switch in series to an inductor and load. There is a reverse freewheeling diode it is used to provide the inductor current a closed circuit path when the MSOFET is turned off.
Duty cycle of the MOSFET should be varied to control the output voltage of the buck converter. MOSFET with 0% duty cycle will result in 0V at the output, whereas MOSFET with 100% duty cycle should have a theoretical value of Vin = Vout. Practical value depends upon the inductor core, value and other circuit materials.
The following hardware’s are required to realize a dc to dc buck converter.
1. Constant DC source,
2. Single switch MOSFET board.
3. Buck Inductor,
4. Controller Section (uC or FPGA),
5. Isolated MOSFET Gate Driver,
6. Load.
Working Principle:
The circuit configuration of a buck converter has a MOSFET switch in series to an inductor and load. There is a reverse freewheeling diode it is used to provide the inductor current a closed circuit path when the MSOFET is turned off.
Duty cycle of the MOSFET should be varied to control the output voltage of the buck converter. MOSFET with 0% duty cycle will result in 0V at the output, whereas MOSFET with 100% duty cycle should have a theoretical value of Vin = Vout. Practical value depends upon the inductor core, value and other circuit materials.