Question 1
How do we calculate the output voltage of a differential amplifier with active load?
A. VO = -Ad × Vd + AC × VC
B. VO = -Ad × Vd – AC × VC
C. VO = Ad × Vd + AC × VC
D. VO = Ad × Vd – AC × VC
View Answer
Answer: Option C
Explanation:
The differential gain of a differential amplifier with active load is defined as the gain obtained at the output signal with respect to the difference in the input signals applied. To calculate the output voltage of a differential amplifier with active load we use Ad × Vd + AC × VC. Where, Ad is the differential gain and AC and VC represent the common mode gain.
Question 2
How is the voltage gain measured in a differential amplifier with active load?
A. Volts
B. Ampere
C. Decibels
D. Dimensionless
View Answer
Answer: Option C
Explanation:
The voltage gain is measured in terms of decibels. The total voltage gain is calculated as the product of individual stages or as a sum of all the stages if the gain calculated at each intermediate stage was measured in decibels as well.
Question 3
How many methods of coupling are used for a differential amplifier with active load?
A. 3
B. 4
C. 2
D. 5
View Answer
Answer: Option B
Explanation:
There are four types of coupling mechanisms used. They are Resistance – capacitance coupling, thermal coupling, impedance coupling and transformer coupling. Resistance – capacitance coupling is the most vastly used mechanism.
Question 4
The coupling device is essential for a differential amplifier with active load.
A. TRUE
B. FALSE
View Answer
Answer: Option A
Explanation:
One of the main functions of the coupling device in a differential amplifier with active load is to block the direct current from passing through to the input of next stage from the output of the first stage. Another function of the coupling device is to transfer the current from the output of first stage to the input of the second stage.
Question 5
What is the problem with a single operational differential amplifier with active load?
A. High input resistance
B. Low input resistance
C. Low output resistance
D. High output resistance
View Answer
Answer: Option B
Explanation:
The problem with a single operational differential amplifier with active load is its low input resistance. This low input resistance results in a loss of a major component of the signal. Operational Amplifier is internally a Differential amplifier with active load with features like High Input Impedance, Low Output Impedance.
Question 6
What is the purpose of using a differential amplifier with active load?
A. Increase voltage gain
B. Decrease voltage gain
C. Increase current gain
D. Decrease current gain
View Answer
Answer: Option A
Explanation:
A circuit having a single transistor configuration does not provide suitable bandwidth or gain. The purpose of a differential amplifier with active load is to provide an increase in the voltage gain. The total gain of a differential amplifier with active load is the product of the voltage gains of the discrete stages.
Question 7
What is the total voltage gain of a differential amplifier with active load if input of first stage is 50V and the output of the second stage is 100V?
A. 20
B. 0.2
C. 2.5
D. 2
View Answer
Answer: Option D
Explanation:
The total gain of a differential amplifier with active load is the ratio of the output of second stage amplifier to the input of first stage amplifier. Where, Voutput = 100V and Vinput = 50V.AV = Voutput / Vinput = 100V / 50V = 2
Question 8
What is the total voltage gain of a differential amplifier with active load if the gain of first stage is 10dB, gain of the second stage is 20dB and gain of third stage is 30dB?
A. 60.32dB
B. 50dB
C. 60dB
D. 50.32dB
View Answer
Answer: Option C
Explanation:
The total gain of a differential amplifier with active load is the sum of the multiple stages when the gain is calculated is decibels. Given, AV1 = 10dB, AV2 = 20dB and AV3 = 30dBAV = AV1 + AV2 + AV3 = 10dB + 20dB + 30dB = 60dB.
Question 9
What is the total voltage gain of a differential amplifier with active load if the gain of first stage is 4.8 and the gain of the second stage is 1.2?
A. 6.75
B. 6.55
C. 5.76
D. 5.65
View Answer
Answer: Option C
Explanation:
The total gain of a differential amplifier with active load can be calculated by the formula given below. Where, AV = overall gain, AV1 = voltage gain of first stage and AV2 = voltage gain of second stage.AV = AV1 × AV2 = 4.8 × 1.2 = 5.76
Question 10
What is the voltage gain of a differential amplifier with active load?
A. 1
B. 0
C. ∞
D. Cannot be determined
View Answer
Answer: Option A
Explanation:
If all the resistor values are of the equal value, then the circuit will have a voltage gain equal to exactly one or unity. Hence it is also called as a Unity Gain Differential amplifier with active load. The output voltage expression would be the difference between the two voltages.