+20 V RD R1 300 ka 4k7 A R2 200 ka Rs 4 kn Fig. 6.27 On graph paper, draw the transfer characteristic for the FET of figure 6:28. On the graph draw in the bias line. On the graph neatly draw the quiescent mutual conductance line. For these quiescent conditions calculate the value of mutual conductance (show all calculations). Neatly draw the simple ac small-signal equivalent circuit. 6 1 3 4 5 Analysing the small signal model, calculate: (1) (ii) (ii) voltage gain; input impedance; output impedance.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Questions 1-7

+20 V
RD
4k7 A
300 ko
R2
200 kO
Rs
4 kn
Cs
Fig. 6.27
On graph paper, draw the transfer characteristic for the FET of figure 6:28.
On the graph draw in the bias line.
On the graph neatly draw the quiescent mutual conductance line.
1
3
For these quiescent conditions calculate the value of mutual conductance (show all calculations).
_4
.5
Neatly draw the simple ac small-signal equivalent circuit.
Analysing the small signal model, calculate:
(i)
(i) input impedance;
(iii)
voltage gain;
output impedance.
-7 Briefly explain why it is not very meaningful to calculate the current gain of this circuit.
Transcribed Image Text:+20 V RD 4k7 A 300 ko R2 200 kO Rs 4 kn Cs Fig. 6.27 On graph paper, draw the transfer characteristic for the FET of figure 6:28. On the graph draw in the bias line. On the graph neatly draw the quiescent mutual conductance line. 1 3 For these quiescent conditions calculate the value of mutual conductance (show all calculations). _4 .5 Neatly draw the simple ac small-signal equivalent circuit. Analysing the small signal model, calculate: (i) (i) input impedance; (iii) voltage gain; output impedance. -7 Briefly explain why it is not very meaningful to calculate the current gain of this circuit.
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