5. [Pass-Transistor Logic and Transmission Gate] Consider the circuit in Figure 5(a). pass transistor network VoD B M2 Out BL M1 Mn2 Figure 5(a) (a) What is the logic function performed by this circuit? (b) Explain why this circuit has non-zero static dissipation. (c) Figure 5(b) implements the same function as the above one, but adds one additional transistor to avoid static dissipation. Please explain the reason. VDD VoO VoD M, M2 A Out M, Mn2 Figure 5(b) (d) Implement the same function using transmission gates. Hint: Besides the transmission gates, you also need other transistors.
5. [Pass-Transistor Logic and Transmission Gate] Consider the circuit in Figure 5(a). pass transistor network VoD B M2 Out BL M1 Mn2 Figure 5(a) (a) What is the logic function performed by this circuit? (b) Explain why this circuit has non-zero static dissipation. (c) Figure 5(b) implements the same function as the above one, but adds one additional transistor to avoid static dissipation. Please explain the reason. VDD VoO VoD M, M2 A Out M, Mn2 Figure 5(b) (d) Implement the same function using transmission gates. Hint: Besides the transmission gates, you also need other transistors.
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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![5. [Pass-Transistor Logic and Transmission Gate] Consider the circuit in Figure 5(a).
pass transistor network
VDD
M2
Out
Mn2
Figure 5(a)
(a) What is the logic function performed by this circuit?
(b) Explain why this circuit has non-zero static dissipation.
(c) Figure 5(b) implements the same function as the above one, but adds one additional transistor
to avoid static dissipation. Please explain the reason.
VDD
Voo
M,
M2
A
Mn1
Out
M1
Mn2
Figure 5(b)
(d) Implement the same function using transmission gates.
Hint: Besides the transmission gates, you also need other transistors.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F40fcc70f-775e-4741-8507-dd44e1e11495%2F22a26392-4780-46e5-8b1b-c073351aef8e%2Fd2r3sen_processed.png&w=3840&q=75)
Transcribed Image Text:5. [Pass-Transistor Logic and Transmission Gate] Consider the circuit in Figure 5(a).
pass transistor network
VDD
M2
Out
Mn2
Figure 5(a)
(a) What is the logic function performed by this circuit?
(b) Explain why this circuit has non-zero static dissipation.
(c) Figure 5(b) implements the same function as the above one, but adds one additional transistor
to avoid static dissipation. Please explain the reason.
VDD
Voo
M,
M2
A
Mn1
Out
M1
Mn2
Figure 5(b)
(d) Implement the same function using transmission gates.
Hint: Besides the transmission gates, you also need other transistors.
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