This power supply is perfect for operating external circuits with constant current consumption, such as sensors or actuators. I'll show you how to build the power supply, then I'll show you how to use it to power . At the end of the video, you will have everything you need to know to make your own adjustable constant current power supply!
Discover the essentials to know to create a precision power supply in continuous and stabilized voltage, variable from 5, 6, 9, 12, and 15 Volts.
Simulation and presentation of the LM338 linear regulator. Adjustable regulator with two resistors R1 and R2. Maximum output current, 5 Amps. Dropout of 2 to 3 volts depending on junction temperature and output current. Vout is always less than Vin.
This power supply is perfect for operating external circuits with constant current consumption, such as sensors or actuators. I'll show you how to build the power supply, then I'll show you how to use it to power . At the end of the video, you will have everything you need to know to make your own adjustable constant current power supply!
Discover the essentials to know to create a precision power supply in continuous and stabilized voltage, variable from 5, 6, 9, 12, and 15 Volts.
Simulation and presentation of the LM338 linear regulator. Adjustable regulator with two resistors R1 and R2. Maximum output current, 5 Amps. Dropout of 2 to 3 volts depending on junction temperature and output current. Vout is always less than Vin.
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