R3 0.5 mA 3 k2 3.5 V Mз 1.63 V M4 R; R2 M1 M2 OV 1 k2 10 k2 R1 10 k2 R4 13 k2 2 mA 1 mA = 4 mA/V?, VrN = 1 V, Figure 18.12 Three-stage MOSFET series-shunt feedback amplifier (K, = 10 mA/V?, K, VTP = -1 V).

R3 0.5 mA 3 k2 3.5 V Mз 1.63 V M4 R; R2 M1 M2 OV 1 k2 10 k2 R1 10 k2 R4 13 k2 2 mA 1 mA = 4 mA/V?, VrN = 1 V, Figure 18.12 Three-stage MOSFET series-shunt feedback amplifier (K, = 10 mA/V?, K, VTP = -1 V).

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter12: Power System Controls

Section: Chapter Questions

Problem 12.3P

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Concept explainers

Multistage Amplifier

The multistage amplifier is generally a voltage or power amplifier. The multistage amplifier has a number of single stage amplifier that are cascaded together. Since a single stage amplifier output is not useful, they are being replaced with multistage amplifiers or multistage transistor amplifiers. The multistage amplifier are used where the gain required is high or the input signal is very small such that only a single stage amplifier cannot amplify it.

Question

For the circuit as shown, find R₃ to set I_D3 = 0.8 mA with V_DD = V_SS = 10 V, and I_D4 = 4 mA. Calculate a new R₄ to maintain V_o = 0 V. Calculate the poles of the amplifier and calculate R_Z to cancel the right-half plane zero. Find the unitygain frequency such that the phase margin is set to 70^◦. For the phase margin calculation, assume the dominant pole contributes 90^◦ of phase shift at the unity-gain frequency. Calculate the C_C required to achieve the desired unity-gain frequency and phase margin.

R3
0.5 mA
3 k2
3.5 V
Mз
1.63 V
M4
R;
R2
M1
M2
OV
1 k2
10 k2
R1
10 k2
R4
13 k2
2 mA
1 mA
= 4 mA/V?, VrN = 1 V,
Figure 18.12 Three-stage MOSFET series-shunt feedback amplifier (K, = 10 mA/V?, K,
VTP = -1 V).

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