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Test: MOSFET Amplifier with CD Configuration - Electronics and Communication Engineering (ECE) MCQ


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15 Questions MCQ Test GATE ECE (Electronics) Mock Test Series 2025 - Test: MOSFET Amplifier with CD Configuration

Test: MOSFET Amplifier with CD Configuration for Electronics and Communication Engineering (ECE) 2024 is part of GATE ECE (Electronics) Mock Test Series 2025 preparation. The Test: MOSFET Amplifier with CD Configuration questions and answers have been prepared according to the Electronics and Communication Engineering (ECE) exam syllabus.The Test: MOSFET Amplifier with CD Configuration MCQs are made for Electronics and Communication Engineering (ECE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: MOSFET Amplifier with CD Configuration below.
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Test: MOSFET Amplifier with CD Configuration - Question 1

If channel length modulation is present, what is the voltage gain?

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 1

M2 behaves as a Source follower i.e. it is being used in a C.D. configuration. M1 provides a output resistance of ro1 but M2 provides an impedance of (1/gm2||ro2). Thus, from the voltage gain of a follower stage, we conclude the overall voltage gain is ro1 / {(1/gm1 || ro2) + ro1}.

Test: MOSFET Amplifier with CD Configuration - Question 2

If channel length modulation is present, what is the voltage gain?

Find the voltage gain for channel length modulation in C.D. configuration

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 2

M2 behaves as a Source follower i.e. it is being used in a C.D. configuration. M1 provides a output resistance of ro1 but M2 provides an impedance of (1/gm2||ro2). Thus, from the voltage gain of a follower stage, we conclude the overall voltage gain is ro1 / {(1/gm1 || ro2) + ro1}.

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Test: MOSFET Amplifier with CD Configuration - Question 3

The output impedance of the follower is _______

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 3

The output impedance of the follower is a function of the transconductance. But it’s also a function of the channel length modulation. But the resistance offered due to channel length modulation is much greater than the inverse of the transconductance. It can be concluded that the output of the follower depends on the transconductance and it’s low.

Test: MOSFET Amplifier with CD Configuration - Question 4

Assume µnCox = 100 µA/V2 and supply current is 5mA, what should be the aspect ratio so that a 50 Ω load can be used to give a voltage gain of .25 in C.D. configuration?

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 4

The voltage gain is given by RL/(1/gm + RL) where RL is the 50 Ω load. Now, we see that if the voltage gain is .25, gm is 1/175. Now, gm is  where (W/L) is the aspect ratio, Id is the drain current. We have all the values and the aspect ratio becomes 32.6.

Test: MOSFET Amplifier with CD Configuration - Question 5

If g is the transconductance and r is the resistance due to channel length modulation – what is the total voltage gain if only M1 has channel length modulation?

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 5

This is a cascade of a follower stage follower by a CS stage which precedes another follower stage. The gain due to each stage gets multiplied until we reach the output. For the first stage, the gain is R/ ((1/g || r)+ R) since M1 has channel length modulation. The second stage has a gain of g * R while the final stage has a gain of R/ (1/g + R). After multiplying the gains, we get R/ ((1/g || r )+ R) * g *R * R/ (1/g + R).

Test: MOSFET Amplifier with CD Configuration - Question 6

If channel length modulation is present, what is the impedance looking into node X?

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 6

The source of M1 and M2 are connected at node X. The impedance looking into the source of a MOSFET is (1/gm || ro). If we look at node X, M1 and M2 are connected from Node X to ground. Hence, they are parallel to each other and the overall impedance becomes (1/gm2 || ro2 || 1/gm1 || ro1).

Test: MOSFET Amplifier with CD Configuration - Question 7

The follower stage provides _____ input impedance.

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 7

The input to the follower stage is applied to the gate of the MOSFET. The gate of the MOSFET is made of SiO2, which is a dielectric and provides very high impedance to the input.

Test: MOSFET Amplifier with CD Configuration - Question 8

The follower stage is mostly used as a ____________

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 8

The C.D. configuration offers high input impedance to the input signal and low output impedance while sensing the output signal. Thus, it is used as a buffer stage.

Test: MOSFET Amplifier with CD Configuration - Question 9

If maximum power is transferred to the load R1, the transconductance is .02 and channel length modulation is neglected, what should be the value of the load?

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 9

Since the transconductance is .02, it’s inverse is 50. From the general expression of voltage gain of a source follower, we conclude that the load should be 50 Ω since the inverse of the transconductance is the impedance looking into the source of the MOSFET. For maximum power transfer, we have to match both the impedance.

Test: MOSFET Amplifier with CD Configuration - Question 10

If g is the transconductance and r is the resistance due to channel length modulation – what is the total voltage gain if both M2 and M3 has channel length modulation?

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 10

This is a cascade of a follower stage follower by a CS stage which precedes another follower stage. The gain due to each stage gets multiplied until we reach the output. For the first stage, the gain is R / ((1/g+ R). The second stage has a gain of g * (R || r) while the final stage has a gain of R/ ((1/g || r) + R)- the effect of r is simply due to channel length modulation. After multiplying the gains, we get R/ ((1/g + R) * g * (R || r) * R/ ((1/g || r) + R).

Test: MOSFET Amplifier with CD Configuration - Question 11

Neglecting Channel Length Modulation, if the transconductance of the MOSFET increases, the gain of the follower stage will _________

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 11

The gain of the follower stage is given by Rs/(1/gm + Rs). Hence, we readily conclude that if the transconductance (gm) increases, the gain will increase.

Test: MOSFET Amplifier with CD Configuration - Question 12

Neglecting Channel Length Modulation, if the transconductance increases, the input impedance of a follower stage ___________

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 12

The input impedance is extremely high for a follower stage because the input is applied to the gate of the MOSFET. The SiO2 layer is the primary reason for such a high impedance value.

Test: MOSFET Amplifier with CD Configuration - Question 13

If g is the transconductance and r is the resistance due to channel length modulation – what is the total voltage gain if both M1 and M3 has channel length modulation?

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 13

This is a cascade of a follower stage follower by a CS stage which precedes another follower stage. The gain due to each stage gets multiplied until we reach the output. For the first stage, the gain is R/ ((1/g || r) + R). The second stage has a gain of g * R while the final stage has a gain of R/ ((1/g || r) + R). The presence of r is due to channel length modulation. After multiplying the gains, we get R/ ((1/g || r) + R) * g * R * R / ((1/gm || r)).

Test: MOSFET Amplifier with CD Configuration - Question 14

Neglecting Channel Length Modulation, if the aspect ratio of the MOSFET increases, the gain of the follower stage will _________

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 14

The square root of the aspect ratio is directly proportional to the transconductance of the MOSFET. If it increases, the transconductance increases and hence according to the expression of the voltage gain of a follower stage gain increases.

Test: MOSFET Amplifier with CD Configuration - Question 15

Neglecting Channel Length Modulation, if the transconductance of a MOSFET increases, the output impedance of the follower stage can _________

Detailed Solution for Test: MOSFET Amplifier with CD Configuration - Question 15

The output impedance of a follower stage is (1/gm || Rd). If the transconductance increases, the output impedance will decrease, as can be seen from the formulae.

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