set-2

Answer: 3. Both positive and negative

Explanation:

• A Wien bridge oscillator uses both positive and negative feedback to achieve stable oscillations.
• Therefore, the correct answer is Both positive and negative.

Answer: 1. A voltage developed because of mechanical stress

Explanation:

• The piezoelectric effect in a crystal refers to the generation of a voltage when mechanical stress is applied.
• Therefore, the correct answer is A voltage developed because of mechanical stress.

Answer: 1. Positive

Explanation:

• If the crystal frequency increases with temperature, it has a positive temperature coefficient.
• Therefore, the correct answer is Positive.

Answer: 4. High Q

Explanation:

• The high Q factor of a crystal ensures very stable frequency generation in a crystal oscillator.
• Therefore, the correct answer is High Q.

Answer: 2. Requires no input signal

Explanation:

• An oscillator generates its own output signal without requiring an external input signal, unlike an amplifier.
• Therefore, the correct answer is Requires no input signal.

Answer: 2. Greater than 1

Explanation:

• For an oscillator to start, the gain around the feedback loop must initially be greater than 1 to build up oscillations.
• Therefore, the correct answer is Greater than 1.

Answer: 2. One transistor

Explanation:

• A class A power amplifier typically uses one transistor to amplify the entire input signal cycle.
• Therefore, the correct answer is One transistor.

Answer: 3. 25%

Explanation:

• The maximum efficiency of a resistance-loaded class A power amplifier is 25%.
• Therefore, the correct answer is 25%.

Answer: 1. 50%

Explanation:

• The maximum efficiency of a transformer-coupled class A power amplifier is 50%.
• Therefore, the correct answer is 50%.

Answer: 2. Large

Explanation:

• Power amplifiers handle large signals compared to voltage amplifiers, which handle small signals.
• Therefore, the correct answer is Large.

Answer: 2. At the middle

Explanation:

• In class A operation, the operating point is generally located at the middle of the D.C. load line to allow maximum symmetrical swing.
• Therefore, the correct answer is At the middle.

Answer: 1. Small

Explanation:

• A power amplifier typically has a small β (current gain) because it is designed to handle large currents and power.
• Therefore, the correct answer is Small.

Answer: 2. Single - ended

Explanation:

• A class A power amplifier is sometimes called a single-ended amplifier because it uses a single transistor to amplify the entire input signal cycle.
• Therefore, the correct answer is Single - ended.

Answer: 3. 0%

Explanation:

• When no signal is applied, the collector efficiency of a class A power amplifier is 0% because no useful power is delivered to the load.
• Therefore, the correct answer is 0%.

Answer: 1. 20W

Explanation:

• The minimum power rating of the transistor should be at least twice the maximum A.C. power output to handle peak power demands.
• Therefore, the correct answer is 20W.

Answer: 1. Transformer

Explanation:

• Transformer coupling is the most costly due to the complexity and cost of the transformer.
• Therefore, the correct answer is Transformer.

Answer: 2. Cut off

Explanation:

• In a class B amplifier, the Q point lies at cut off to allow each transistor to conduct for only half of the input signal cycle.
• Therefore, the correct answer is Cut off.

Answer: 1. No current flows through the transistor

Explanation:

• In the quiescent state of a class B amplifier, no current flows through the transistor because the Q point is at cut off.
• Therefore, the correct answer is No current flows through the transistor.

Answer: 4. 50% to 70%

Explanation:

• The maximum efficiency of a class B amplifier is 50% to 70%, depending on the design and load conditions.
• Therefore, the correct answer is 50% to 70%.

Answer: 3. Complementary symmetry

Explanation:

• Complementary symmetry design is used to avoid the need for a transformer in class B amplifiers.
• Therefore, the correct answer is Complementary symmetry.

Answer: 1. Effect occurred during switching of transistor after every half cycle

Explanation:

• Cross over distortion occurs during the switching of transistors in a class B amplifier when one transistor turns off and the other turns on.
• Therefore, the correct answer is Effect occurred during switching of transistor after every half cycle.

Answer: 4. By shifting the Q point above cut off

Explanation:

• Cross over distortion can be avoided by shifting the Q point slightly above cut off, which is done in class AB amplifiers.
• Therefore, the correct answer is By shifting the Q point above cut off.

Answer: 2. 60%

Explanation:

• The efficiency is given by:
  $\eta = \frac{\text{Load Power}}{\text{DC Power}} \times 100 = \frac{300}{500} \times 100 = 60\%$
• Therefore, the correct answer is 60%.

Answer: 3. 180°

Explanation:

• In a class B push-pull amplifier, each transistor conducts for 180° of the input signal cycle.
• Therefore, the correct answer is 180°.

Answer: 2. Three layer, two junction device

Explanation:

• A power transistor is a three-layer, two-junction device (e.g., NPN or PNP).
• Therefore, the correct answer is Three layer, two junction device.

Answer: 1. Ic increases

Explanation:

• In a power transistor, increasing the base current ($I_B$) while keeping $V_{CC}$ constant causes the collector current ($I_C$) to increase.
• Therefore, the correct answer is Ic increases.

Answer: 2. BJTs and MOSFETs

Explanation:

• An IGBT combines the advantages of BJTs (high current handling) and MOSFETs (high input impedance).
• Therefore, the correct answer is BJTs and MOSFETs.

Answer: 1. Positive gate signal

Explanation:

• A GTO can be turned on by applying a positive gate signal.
• Therefore, the correct answer is Positive gate signal.

Answer: 1. Turn On

Explanation:

• With a pulse train frequency of 2.5 KHz and a mark/space ratio of 1/10, the SCR will turn on because the pulse duration is sufficient to trigger the SCR.
• Therefore, the correct answer is Turn On.

Answer: 2. Drain, source, gate

Explanation:

• A power MOSFET has three terminals: Drain, Source, and Gate.
• Therefore, the correct answer is Drain, source, gate.

Answer: 2. DC switch

Explanation:

• A thyristor is primarily used as a DC switch because it can control DC power by turning on and off.
• Therefore, the correct answer is DC switch.

Answer: 3. $\omega^2 LC = 1$

Explanation:

• At resonance in a series R-L-C circuit, the condition is:
  $\omega^2 LC = 1$
• Therefore, the correct answer is $\omega^2 LC = 1$.

Answer: 4. Lagging or leading

Explanation:

At the half-power points of a series R-L-C circuit, the power factor can be either lagging or leading, depending on whether the frequency is below or above resonance. Therefore, the correct answer is Lagging or leading.