Question 1

Figure 1&#10;Refer to Figure 1. The voltage gain, Av, to the load is approximately&#10;A)11&#10;B)7.5&#10;C)5.4&#10;D)2.0

Accepted Answer

D

Question 2

The amplifier type that frequently has a resonant circuit load is&#10;A)class- AB&#10;B)class- C&#10;C)class- B&#10;D)class- A

Accepted Answer

Class-C amplifiers often use a resonant circuit (LC circuit) as their load to achieve high efficiency, especially in applications like RF transmission where tuning to a specific frequency is crucial.

Question 3

The amplifier type that has the worst efficiency is&#10;A)class- B&#10;B)class- A&#10;C)class- C&#10;D)class- AB

Accepted Answer

Class-A amplifiers have the worst efficiency among the options listed because they conduct over the entire input signal cycle, leading to constant power dissipation even when there is no input signal. This results in a maximum theoretical efficiency of only 25-30% for pure Class-A designs.

Question 4

In a single- stage class- A amplifier, the quiescent current is the same as the&#10;A)ac load current&#10;B)dc collector current&#10;C)ac collector current&#10;D)bias current

Accepted Answer

The quiescent current is the dc collector current.

Question 5

Figure 7&#10;Refer to Figure 7. The expected dc emitter voltage for Q1 is&#10;A)0 V&#10;B)9.0 V&#10;C)0.7 V&#10;D)8.3 V

Accepted Answer

The answer of   Figure 7&#10;Refer to Figure 7....

Question 6

A heat sink is used to&#10;A)prevent excessive current&#10;B)reduce the junction temperature&#10;C)reduce ambient temperature&#10;D)all of the above

Accepted Answer

Heat sinks are used to reduce the junction temperature of electronic components by dissipating heat away from them, ensuring they operate within safe temperature limits.

Question 7

Figure 2 This is modification of Figure 1 (added Q₂, Q₃, and R_L, deletion of C₃and a changed value of R_E1).
Refer to Figure 2. With no applied signal, the dc power dissipated in the load is approximately

A)1.1 W
B)0
C)5.5 W
D)2.8 W

Accepted Answer

The answer of   Figure 2 This is modification...

Question 8

Figure 3&#10;Refer to Figure 3. Note the input is a 5 Vrms sine wave. The ac power in RL is ideally&#10;A)1.56 W&#10;B)3.12 W&#10;C)0.31 W&#10;D)0.62 W

Accepted Answer

The ac power in RL is given by:P = Vrms^2 / R= (5 Vrms)^2 / 10 ohms= 25 / 10= 2.5 W

Question 9

A class- A amplifier has an input resistance of 520 &#9650; and a load resistance of 26 &#9650;. Assume a 1 Vrms input produces a 5 Vrms output The power gain is&#10;A)5&#10;B)100&#10;C)50&#10;D)500

Accepted Answer

The answer of A class- A amplifier has an input...

Question 10

Figure 2 This is modification of Figure 1 (added Q₂, Q₃, and R_L, deletion of C₃and a changed value of R_E1).
Refer to Figure 2. If Vin = 1 Vrms, the ac power in RL is approximately

A)2.6 W
B)4.0 W
C)680 mW
D)1.3 W

Accepted Answer

Given Vin = 1 Vrms and referring to a typical power calculation scenario in electronics, the ac power in RL can be approximated using the formula P = V^2/R, where V is the RMS voltage across the load and R is the load resistance. Without the specific details of the circuit in "Figure 2," such as the value of RL and the configuration (which might involve factors like amplification or attenuation), a precise calculation is challenging. However, the option closest to a realistic scenario, given a small input voltage like 1 Vrms, is 680 mW (C), assuming a reasonably efficient circuit and a common load resistance value. Higher power values would generally require either a higher input voltage or an amplification mechanism not specified in the question.

Question 11

Figure 1&#10;Refer to Figure 1. The input impedance is approximately&#10;A)230 &#9650;&#10;B)186 &#9650;&#10;C)125 &#9650;&#10;D)142 &#9650;

Accepted Answer

The answer of   Figure 1&#10;Refer to Figure 1....

Question 12

Figure 3&#10;Refer to Figure 3. The value of dc bias current in R1 is&#10;A)43 mA&#10;B)90 mA&#10;C)86 mA&#10;D)48 mA

Accepted Answer

The answer of   Figure 3&#10;Refer to Figure 3....

Question 13

Figure 3&#10;Refer to Figure 3. With no signal in, IC(Q1)is ideally&#10;A)0&#10;B)86 mA&#10;C)43 mA&#10;D)48 mA

Accepted Answer

The answer of   Figure 3&#10;Refer to Figure 3....

Question 14

Assume the Q point on a class- A amplifier is centered on the ac load line. The maximum peak- to- peak output voltage is&#10;A)1/2 VCEQ&#10;B)2 VCEQ&#10;C)1/2 VCC&#10;D)VCEQ

Accepted Answer

The answer of Assume the Q point on a class-...

Question 15

Figure 5&#10;Refer to Figure 5. The diode&#10;A)produces class- AB operation&#10;B)compensates for the base- emitter drops of the transistors&#10;C)helps prevent crossover distortion&#10;D)all of the above

Accepted Answer

The answer of   Figure 5&#10;Refer to Figure 5....

Question 16

Figure 7&#10;Refer to Figure 7. The power delivered to the load is&#10;A)0.25 W&#10;B)1 W&#10;C)0.5 W&#10;D)2 W

Accepted Answer

The answer of   Figure 7&#10;Refer to Figure 7....

Question 17

Figure 1&#10;Refer to Figure 1. The power gain, Ap, to the load is approximately&#10;A)14&#10;B)4.5&#10;C)23&#10;D)7.9

Accepted Answer

The answer of   Figure 1&#10;Refer to Figure 1....

Question 18

Figure 3&#10;Refer to Figure 3. This type of bias is called&#10;A)current- mirror biasing&#10;B)push- pull bias&#10;C)diode biasing&#10;D)mid- point bias

Accepted Answer

The answer of   Figure 3&#10;Refer to Figure 3....

Question 19

Figure 5 Refer to Figure 5. The center tap on the output transformer (marked A)should be connected to A)-VCC B)ground C)+V_CCD)nothing, it is left open

Accepted Answer

The answer of   Figure 5&#10;Refer to Figure 5....

Question 20

Figure 6&#10;Refer to Figure 6. The combination of R1, C1, and the base- emitter diode form a&#10;A)positive clipping circuit&#10;B)clamping circuit&#10;C)negative clipping circuit&#10;D)coupling circuit

Accepted Answer

The answer of   Figure 6&#10;Refer to Figure 6....

Question 21

Figure 2 This is modification of Figure 1 (added Q₂, Q₃, and R_L, deletion of C₃and a changed value of R_E1).
Refer to Figure 2. Assume Vout has dropped to about 1/2 the expected value. A likely cause is that

A)VCC is set to +15 V
B)C2 is shorted
C)R_Lis open
D)C₂is open

Accepted Answer

The answer of   Figure 2 This is modification...

Question 22

Class- C amplifiers are frequently used as audio amplifiers.

Accepted Answer

The answer of Class- C amplifiers are frequently used as...

Question 23

Figure 1&#10;Refer to Figure 1. The dc collector current is approximately&#10;A)50 mA&#10;B)25 mA&#10;C)120 mA&#10;D)85 mA

Accepted Answer

The answer of   Figure 1&#10;Refer to Figure 1....

Question 24

A class- B amplifier with Darlington transistors can use larger bias resistors.

Accepted Answer

The answer of A class- B amplifier with Darlington transistors...

Question 25

The ratio of Pout to PDC is the efficiency of an amplifier.

Accepted Answer

The answer of The ratio of Pout to PDC is...

Question 26

The Q point of a class- C amplifier is below cutoff.

Accepted Answer

The answer of The Q point of a class- C...

Question 27

The maximum power from a class- A amplifier is equal to ICQVCEQ.

Accepted Answer

The answer of The maximum power from a class- A...

Question 28

In a class- AB amplifier, the transistors are biased slightly above cutoff to avoid&#10;A)clipping the peaks of signals&#10;B)low efficiency&#10;C)loading problems&#10;D)crossover distortion

Accepted Answer

The answer of In a class- AB amplifier, the transistors...

Question 29

Figure 6&#10;The transistor in a Class- C amplifier is biased for conduction for&#10;A)360&#176;&#10;B)90&#176;&#10;C)180&#176;&#10;D)much less than 90&#176;

Accepted Answer

The answer of   Figure 6&#10;The transistor in a...

Question 30

In a class- B amplifier, the Q- point is at cutoff.

Accepted Answer

The answer of In a class- B amplifier, the Q-...

Question 31

The maximum ideal efficiency for a class- A amplifier is&#10;A)80%&#10;B)40%&#10;C)55%&#10;D)25%

Accepted Answer

The answer of The maximum ideal efficiency for a class-...

Question 32

Figure 4&#10;Refer to Figure 4. The amplifier represented is&#10;A)class- C&#10;B)class- A&#10;C)class- B

Accepted Answer

The answer of   Figure 4&#10;Refer to Figure 4....

Question 33

A class- A amplifier the quiescent power is dissipated only when a signal is present.

Accepted Answer

The answer of A class- A amplifier the quiescent power...

Question 34

Figure 7&#10;Refer to Figure 7. The expected ac emitter voltage for Q1 is&#10;A)4.0 Vrms&#10;B)2.0 Vrms&#10;C)0 V&#10;D)none of the above

Accepted Answer

The answer of   Figure 7&#10;Refer to Figure 7....

Question 35

Figure 2 This is modification of Figure 1 (added Q₂, Q₃, and R_L, deletion of C₃and a changed value of R_E1).
Refer to Figure 2, which is a modified circuit from Figure 1. The voltage gain, AV, of this circuit is approximately

A)3.3
B)5.6
C)2.0
D)4.3

Accepted Answer

The answer of   Figure 2 This is modification...

Deck 7: BJT Power Amplifiers