Reminder: K₂= Kn' (W/L) for n-MOSFETs and Kp = K₂'(W/L) for p-MOSFETs. K₂³ = H₂Cox and Kp' = μpCox 1. The problem I promised was coming in class... Consider the circuit shown in Figure 7.65 in the text. We went through the analysis of Example 7.23 in class using the switch unified model with the assumptions that M1 operates in saturation and M2 in triode. 10 V 5 V(+ 2 V S M1 Vo K = 2 mA/V² VT=1V GD K = 64 mA/V² VT = 1 V S M2 FIGURE 7.65 A circuit containing two MOSFETs. We are told that M1 operates in the saturation region and that M2 operates in the triode region. a. Solve for vo assuming that both M1 and M2 operate in saturation. Then check the assumption based on the operating point you determine, is the solution valid? b. Repeat (a) assuming that both M1 and M2 operate in triode. c. Repeat (a) assuming that M1 operates in triode and M2 operates in saturation.

Introductory Circuit Analysis (13th Edition)
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Reminder: Kn = K₂' (W/L) for n-MOSFETs and Kp = K₂'(W/L) for p-MOSFETs. Kn' =
H₂Cox and Kp' =μpCox
1. The problem I promised was coming in class... Consider the circuit shown in Figure 7.65 in the text.
We went through the analysis of Example 7.23 in class using the switch unified model with the
assumptions that M1 operates in saturation and M2 in triode.
10 V
5 V(+
2 V
S
GJD
S
M1
M2
K = 2 mA/V²
VT=1V
K = 64 mA/V²
VT = 1 V
FIGURE 7.65 A circuit
containing two MOSFETs. We are
told that M1 operates in the
saturation region and that M2
operates in the triode region.
a. Solve for vo assuming that both M1 and M2 operate in saturation. Then check the assumption
based on the operating point you determine, is the solution valid?
b.
Repeat (a) assuming that both M1 and M2 operate in triode.
c. Repeat (a) assuming that M1 operates in triode and M2 operates in saturation.
Transcribed Image Text:Reminder: Kn = K₂' (W/L) for n-MOSFETs and Kp = K₂'(W/L) for p-MOSFETs. Kn' = H₂Cox and Kp' =μpCox 1. The problem I promised was coming in class... Consider the circuit shown in Figure 7.65 in the text. We went through the analysis of Example 7.23 in class using the switch unified model with the assumptions that M1 operates in saturation and M2 in triode. 10 V 5 V(+ 2 V S GJD S M1 M2 K = 2 mA/V² VT=1V K = 64 mA/V² VT = 1 V FIGURE 7.65 A circuit containing two MOSFETs. We are told that M1 operates in the saturation region and that M2 operates in the triode region. a. Solve for vo assuming that both M1 and M2 operate in saturation. Then check the assumption based on the operating point you determine, is the solution valid? b. Repeat (a) assuming that both M1 and M2 operate in triode. c. Repeat (a) assuming that M1 operates in triode and M2 operates in saturation.
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