Figure 4(b) is the Miller equivalent circuit of the circuit in Figure 4(a). Derive a relationship between the impedance Z1, Z2 and Z and state the main hypothesis on which the derivation is based.

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Figure 4(b) is the Miller equivalent circuit of the circuit in Figure 4(a). Derive
a relationship between the impedance Z1, Z2 and Z and state the main hypothesis
on which the derivation is based.
Consider again the circuit in Figure 1 in Q1. Draw the small signal equivalent
circuit suitable for high frequency analysis before and after applying the Miller
theorem. Briefly describe the procedure to obtain the frequency dependent
voltage gain. How many poles do you expect in the corresponding Bode plot?
State any assumption.
15
Ris
ww
A
ww
sig
sig
Figure 4(a)
Figure 4(b)
Transcribed Image Text:Figure 4(b) is the Miller equivalent circuit of the circuit in Figure 4(a). Derive a relationship between the impedance Z1, Z2 and Z and state the main hypothesis on which the derivation is based. Consider again the circuit in Figure 1 in Q1. Draw the small signal equivalent circuit suitable for high frequency analysis before and after applying the Miller theorem. Briefly describe the procedure to obtain the frequency dependent voltage gain. How many poles do you expect in the corresponding Bode plot? State any assumption. 15 Ris ww A ww sig sig Figure 4(a) Figure 4(b)
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