For the amplifier circuit of figure below, given the following: Rc=1.8 kQ, R3=1 kQ, Rɛ=2.2 kN, and RL=3.3 kQ. B=70, Vcc=10, VeE=10 V. V3= 8mV a. Sketch ac equivelant re model of the amplifier. b. Derive and calculate the input impedance, output impedance, and no load gain. c. Determine AvL and Avs. d. Calculate the output voltage for the given input voltage. e. Determine the current gain of the amplifier. - Vcc VEE RC RE Cc R. RL
For the amplifier circuit of figure below, given the following: Rc=1.8 kQ, R3=1 kQ, Rɛ=2.2 kN, and RL=3.3 kQ. B=70, Vcc=10, VeE=10 V. V3= 8mV a. Sketch ac equivelant re model of the amplifier. b. Derive and calculate the input impedance, output impedance, and no load gain. c. Determine AvL and Avs. d. Calculate the output voltage for the given input voltage. e. Determine the current gain of the amplifier. - Vcc VEE RC RE Cc R. RL
Chapter25: Television, Telephone, And Low-voltage Signal Systems
Section25.1: Television Circuit
Problem 5R: From a cost standpoint, which system is more economical to install: a master amplifier distribution...
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