You may assume that the numerical values of the small signal

You may assume that the numerical values of the small signal parameter gm may used in large signal quiescent calculations determine the dc quiescent current in re in ma for the circuit of figure 1 determine the dc quiescent collector/emitter voltage for the transistor shown in figure 1 in volts determine the maximum voltage gain |vol.vs| of the circuit noting that the gain is frequency dependent determine the amplitude of the output voltage vo as the frequency approaches infinity determine the phase shift in degrees through the circuit from vs to vo as the frequency approaches infinity determine the phase shift in degrees from the input vs to the output vo as the frequency approaches zero hz determine the gain of the output from vs to vo at a frequency of 100khz in db determine the phase shift of the circuit from vs to vo at a frequency of 100 khz determine the average power dissipated in re in watts at 10 khz determine the average power in re in watts at 10 khz det

Solution

uploaded image

please find

 You may assume that the numerical values of the small signal parameter gm may used in large signal quiescent calculations determine the dc quiescent current in

Get Help Now

Submit a Take Down Notice

Tutor
Tutor: Dr Jack
Most rated tutor on our site