Product Code :Product Name :Stock : |
11104Buck Converter Available
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Option-1 : Buy this Product as it is
Option-2 : Buy this Product With Your Identity / Name / Brand
Option-3 : Customize the features of this Product as per your Need
Make Changes in the board, add or remove the features that you want. Customize this board as per your need and send us the specifications so that we can process the board and deliver them exactly as per your requirement.
Boards Will be designed with your brand name. No Manufacturer Identity. Minimum Order Quantity = 10 |
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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.