- Part C In The Circuit Below The Input Control Signal Is A Digital 0 Or 5v Voltage Source 12v Lamp 6v 1 8w R1 Mm P 5 1 (137.83 KiB) Viewed 14 times
PART C In the circuit below, the input control signal is a digital 0 or +5V voltage source. +12V Lamp 6V/1.8W R1 mm P +5
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PART C In the circuit below, the input control signal is a digital 0 or +5V voltage source. +12V Lamp 6V/1.8W R1 mm P +5
PART C In the circuit below, the input control signal is a digital 0 or +5V voltage source. +12V Lamp 6V/1.8W R1 mm P +5V: ON OV: OFF S 1. Select an NPN BJT transistor to drive the lamp at its rated power while using the transistor in saturation mode. 2. Using the data sheet of a transistor that you obtain from the lab that corresponds to the type that is mentioned above, obtain necessary parameters of the transistor for the design of the following. Use those values when necessary for the rest (do necessary assumptions). 3. Calculate the values of R1 and R2 and required input current from input signal Vin to drive the lamp at its rated power using the transistor in saturation mode. 4. Calculate the dissipated power on R2 and transistor (do necessary assumptions). 5. Construct the circuit in the lab. Use a resistor to represent the lamp, and the power and the voltage of this resistor should match to that of the lamp. Analyze your findings and discuss your results. mm b R2