Q. Following figure is a signal conditioning Amplifier, changes gain depending upon the polarity of Vs. What will be circuit voltage gain for + Vs and for - Vs if D2 is ideal.

View solution

Q. The circuit of the figure is an example of feedback of the following type

View solution

Q. Oscillation frequency in Wein bridge oscillator is

View solution

Q. In figure VCC = + 30 V, IC corresponding to Q point is 1 mA. If RC = 5 kΩ and RE = 5 kΩ, VCE corresponding to Q point is

View solution

Q. Symbol shown in figure represents a

View solution

Q. In the op-amp circuit of figure, V0 =

View solution

Q. The re model equivalent circuit shown in figure is for

View solution

Q. For the circuit of figure the input and output Miller resistances are

View solution

Q. In the circuit of figure for sinusoidal input the waveform of the output will be as shown in

View solution

Q. In the case of an amplifier, the normalised voltage gain is given by following equation.
where f0 is zero frequency, fP is pole frequency. For a standard frequency response of the amplifier,

View solution

Q. Figure shows a

View solution

Q. In a CC circuit the current gain is

View solution

Q. For the circuit shown in figure low cut-off frequency is

View solution

Q. In the amplifier circuit figure the quiescent point voltage and current are

View solution

Q. For a BJT, β and a are related as

View solution

Q. The circuit diagram shown in the figure consists of transistors in

View solution

Q. The circuit of figure is called

View solution

Q. In the equivalent circuit of figure voltage gain is

View solution

Q. Figure represents a

View solution

Q. In a closed loop non-inverting amplifier, constructed using single break-frequency op-amp, bandwidth with feedback can be written as. (f0 - break frequency, β - gain of the feedback circuit, A - open loop voltage gain, Af - closed loop voltage gain)

View solution