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Deck 9: Multistage,CC,and CB Amplifiers

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Question
One of the major differences between the CB amplifier and other amplifier configurations is its

A) low input impedance.
B) low output impedance.
C) high input impedance.
D) input and output phase difference.
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Question
Used with a zener diode,an emitter follower can produce regulated output voltages with much larger currents.
Question
A common-base circuit can be used to couple a

A) high impedance source to a low impedance load.
B) low impedance source to a high impedance load.
C) high impedance source to a high impedance load.
D) low impedance source to a low impedance load.
Question
A zener follower provides the regulation of a zener diode with the increased current-handling capability of an emitter follower.
Question
A Darlington connection is a connection of two transistors whose overall current gain equals the sum of the individual gains.
Question
The emitter follower is also called a common-collector amplifier.
Question
It is very difficult to get a small output impedance with a common-collector amplifier.
Question
The CB amplifier is most often used

A) as an audio amplifier.
B) in low frequency applications.
C) in high frequency applications.
D) in high fidelity audio applications.
Question
A complementary Darlington is a connection of npn and pnp transistors.
Question
A zener follower is a circuit that combines a zener regulator and a common emitter.
Question
An emitter follower can act as a buffer between the high output impedance of a common-emitter amplifier and a low resistance load.
Question
The output voltage of a common-base amplifier is out of phase with its input.
Question
One of the advantages of an emitter follower is its high output impedance.
Question
The common-base amplifier is also called a grounded-base amplifier.
Question
In a common-collector amplifier,the emitter is always connected to ground.
Question
The voltage gain of a common-collector amplifier is ________.

A) infinite
B) 1
C) 10
D) 100
Question
Small load resistances that would overload a CE amplifier can be used with an emitter follower because an emitter follower

A) steps up impedance.
B) amplifies high frequencies better.
C) has a higher voltage gain.
D) cannot amplify current.
Question
The emitter-follower amplifier has a

A) low input impedance and low distortion.
B) high input impedance and high distortion.
C) high input impedance and low distortion.
D) low input impedance and high distortion.
Question
With a common-collector amplifier,the input signal is

A) coupled to the base and the output signal is taken from the emitter.
B) coupled to the base and the output signal is taken from the collector.
C) coupled to the emitter and the output signal is taken from the collector.
D) coupled to the emitter and the output signal is taken from the base.
Question
The emitter follower can be considered a

A) voltage amplifier.
B) power amplifier.
C) a current attenuator.
D) a power supply.
Question
The amplifier configuration in which the input signal drives the emitter and the output signal is taken from the collector is the

A) common collector.
B) common emitter.
C) common base.
D) emitter follower.
Question
The zener follower provides the regulation of a zener diode with the increased current-handling capability of a

A) common-collector circuit.
B) common-emitter circuit.
C) common-base circuit.
D) common-follower circuit.
Question
When an emitter follower is configured between a high output impedance and a low resistance load,it is referred to as

A) an attenuator.
B) a clamper.
C) a constant current source.
D) a buffer.
Question
A circuit that combines a zener regulator and an emitter follower is referred to as

A) an emitter regulator.
B) a follower regulator.
C) a zener follower.
D) a zener diode.
Question
The collector voltage for the circuit shown in Figure 9-6 (a)is

A) dc only.
B) ac only.
C) ac riding on dc.
D) 0 V.
Question
In conjunction with a zener diode,the emitter follower can

A) provide amplified full-wave rectification.
B) provide amplified and filtered dc voltages.
C) produce regulated voltages with large output currents.
D) produce unregulated voltages.
Question
A Darlington connection comprised of npn and pnp transistors is called a

A) stationary Darlington.
B) Duo-Darlington.
C) supplementary Darlington.
D) complementary Darlington.
Question
With the amplifier configuration shown in Figure 9-6 (a)

A) ac output is 90° out of phase with the input.
B) ac output is 180° out of phase with the input.
C) ac output is 270° out of phase with the input.
D) ac output is in phase with the input.
Question
What is the emitter voltage for the circuit shown in Figure 9-8?

A) 10 V
B) 5 V
C) 1 V
D) 4.3 V
Question
The reason a common-collector amplifier is called an emitter follower is because

A) the output voltage follows the input voltage.
B) the output voltage is taken from the collector.
C) the emitter is grounded.
D) the output voltage is out of phase with the input.
Question
What is the base voltage for the circuit shown in Figure 9-8?

A) 10 V
B) 5 V
C) 1 V
D) 4.3 V
Question
What amplifier configuration is shown in Figure 9-6 (a)?

A) common emitter
B) common collector
C) common base.
D) base follower
Question
In the circuit shown in Figure 9-8,what is the purpose of the capacitor connected to the emitter?

A) filter
B) bypass
C) coupling
D) to block ac
Question
Semiconductor manufacturers make Darlington pairs inside a single case.What is this device known as?

A) Semiconductor single case
B) Darlington transistor
C) power transistor
D) regulator transistor
Question
In any amplifier,maximum power transfer occurs when the

A) load impedance is much higher than the source impedance.
B) load impedance is much lower than the source impedance.
C) load impedance is made equal to the source impedance.
D) load impedance is infinite and source impedance is zero.
Question
An advantage of a zener follower is

A) low output impedance.
B) high output impedance.
C) large zener diode.
D) low cost.
Question
The low impedance of a speaker can be matched to the output impedance of

A) a common collector to deliver maximum power.
B) a common base to deliver maximum power.
C) a common emitter to deliver maximum power.
D) a coupling capacitor.
Question
If each transistor in a Darlington pair has a gain of 100,what is the overall current gain?

A) 100
B) 200
C) 1000
D) 10,000
Question
A connection of two transistors whose overall current gain equals the product of the individual current gains is called a

A) complementing connection.
B) cascade connection.
C) Darlington connection.
D) Quiescent connection.
Question
A Darlington connection typically has a

A) very high input impedance and can produce large output currents.
B) very low input impedance and can produce large output currents.
C) very high input impedance and can produce only small output currents.
D) very low input impedance and can produce only small output currents.
Question
A multistage amplifier using two common-emitter amplifiers will provide a total phase inversion of ________.

A) 360°
B) 270°
C) 180°
D) 90°
Question
It is very difficult to get a small output impedance with a

A) common-collector amplifier.
B) common-emitter amplifier.
C) common-base amplifier.
D) emitter-follower amplifier.
Question
How is the total voltage gain of a multistage amplifier calculated?

A) sum of individual gains
B) difference of individual gains
C) product of individual gains
D) it is the gain of one amplifier
Question
A multistage amplifier can be created by cascading two or more filter circuits.
Question
What is the circuit shown in Figure 9-16 (c)?

A) two cascaded common-emitter amplifiers
B) a small-signal amplifier
C) a supplementary Darlington
D) a complementary Darlington
Question
What is a multistage amplifier?

A) a single stage amplifier
B) a single stage attenuator
C) two or more attenuators cascaded
D) two or more amplifiers cascaded
Question
If the output voltage across RL increases in the circuit shown in Figure 9-15,what will the voltage at the base of Q2 do?

A) increase
B) decrease
C) remain the same
D) drops to zero
Question
Voltage gain can be increased by using a multistage amplifier.
Question
If two or more amplifiers are connected to form a multistage amplifier

A) gain remains constant.
B) gain increases.
C) gain is reduced.
D) more attenuation results.
Question
What is the circuit shown in Figure 9-20?

A) full-wave rectifier
B) zener follower
C) two-transistor amplifier
D) two-transistor regulator
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Deck 9: Multistage,CC,and CB Amplifiers
1
One of the major differences between the CB amplifier and other amplifier configurations is its

A) low input impedance.
B) low output impedance.
C) high input impedance.
D) input and output phase difference.
A
2
Used with a zener diode,an emitter follower can produce regulated output voltages with much larger currents.
True
3
A common-base circuit can be used to couple a

A) high impedance source to a low impedance load.
B) low impedance source to a high impedance load.
C) high impedance source to a high impedance load.
D) low impedance source to a low impedance load.
B
4
A zener follower provides the regulation of a zener diode with the increased current-handling capability of an emitter follower.
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k this deck
5
A Darlington connection is a connection of two transistors whose overall current gain equals the sum of the individual gains.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
6
The emitter follower is also called a common-collector amplifier.
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7
It is very difficult to get a small output impedance with a common-collector amplifier.
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8
The CB amplifier is most often used

A) as an audio amplifier.
B) in low frequency applications.
C) in high frequency applications.
D) in high fidelity audio applications.
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k this deck
9
A complementary Darlington is a connection of npn and pnp transistors.
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10
A zener follower is a circuit that combines a zener regulator and a common emitter.
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11
An emitter follower can act as a buffer between the high output impedance of a common-emitter amplifier and a low resistance load.
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12
The output voltage of a common-base amplifier is out of phase with its input.
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13
One of the advantages of an emitter follower is its high output impedance.
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14
The common-base amplifier is also called a grounded-base amplifier.
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15
In a common-collector amplifier,the emitter is always connected to ground.
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16
The voltage gain of a common-collector amplifier is ________.

A) infinite
B) 1
C) 10
D) 100
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17
Small load resistances that would overload a CE amplifier can be used with an emitter follower because an emitter follower

A) steps up impedance.
B) amplifies high frequencies better.
C) has a higher voltage gain.
D) cannot amplify current.
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k this deck
18
The emitter-follower amplifier has a

A) low input impedance and low distortion.
B) high input impedance and high distortion.
C) high input impedance and low distortion.
D) low input impedance and high distortion.
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19
With a common-collector amplifier,the input signal is

A) coupled to the base and the output signal is taken from the emitter.
B) coupled to the base and the output signal is taken from the collector.
C) coupled to the emitter and the output signal is taken from the collector.
D) coupled to the emitter and the output signal is taken from the base.
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20
The emitter follower can be considered a

A) voltage amplifier.
B) power amplifier.
C) a current attenuator.
D) a power supply.
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21
The amplifier configuration in which the input signal drives the emitter and the output signal is taken from the collector is the

A) common collector.
B) common emitter.
C) common base.
D) emitter follower.
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22
The zener follower provides the regulation of a zener diode with the increased current-handling capability of a

A) common-collector circuit.
B) common-emitter circuit.
C) common-base circuit.
D) common-follower circuit.
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23
When an emitter follower is configured between a high output impedance and a low resistance load,it is referred to as

A) an attenuator.
B) a clamper.
C) a constant current source.
D) a buffer.
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k this deck
24
A circuit that combines a zener regulator and an emitter follower is referred to as

A) an emitter regulator.
B) a follower regulator.
C) a zener follower.
D) a zener diode.
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25
The collector voltage for the circuit shown in Figure 9-6 (a)is

A) dc only.
B) ac only.
C) ac riding on dc.
D) 0 V.
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26
In conjunction with a zener diode,the emitter follower can

A) provide amplified full-wave rectification.
B) provide amplified and filtered dc voltages.
C) produce regulated voltages with large output currents.
D) produce unregulated voltages.
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
27
A Darlington connection comprised of npn and pnp transistors is called a

A) stationary Darlington.
B) Duo-Darlington.
C) supplementary Darlington.
D) complementary Darlington.
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k this deck
28
With the amplifier configuration shown in Figure 9-6 (a)

A) ac output is 90° out of phase with the input.
B) ac output is 180° out of phase with the input.
C) ac output is 270° out of phase with the input.
D) ac output is in phase with the input.
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29
What is the emitter voltage for the circuit shown in Figure 9-8?

A) 10 V
B) 5 V
C) 1 V
D) 4.3 V
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30
The reason a common-collector amplifier is called an emitter follower is because

A) the output voltage follows the input voltage.
B) the output voltage is taken from the collector.
C) the emitter is grounded.
D) the output voltage is out of phase with the input.
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Unlock Deck
k this deck
31
What is the base voltage for the circuit shown in Figure 9-8?

A) 10 V
B) 5 V
C) 1 V
D) 4.3 V
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k this deck
32
What amplifier configuration is shown in Figure 9-6 (a)?

A) common emitter
B) common collector
C) common base.
D) base follower
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33
In the circuit shown in Figure 9-8,what is the purpose of the capacitor connected to the emitter?

A) filter
B) bypass
C) coupling
D) to block ac
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k this deck
34
Semiconductor manufacturers make Darlington pairs inside a single case.What is this device known as?

A) Semiconductor single case
B) Darlington transistor
C) power transistor
D) regulator transistor
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
35
In any amplifier,maximum power transfer occurs when the

A) load impedance is much higher than the source impedance.
B) load impedance is much lower than the source impedance.
C) load impedance is made equal to the source impedance.
D) load impedance is infinite and source impedance is zero.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
36
An advantage of a zener follower is

A) low output impedance.
B) high output impedance.
C) large zener diode.
D) low cost.
Unlock Deck
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Unlock Deck
k this deck
37
The low impedance of a speaker can be matched to the output impedance of

A) a common collector to deliver maximum power.
B) a common base to deliver maximum power.
C) a common emitter to deliver maximum power.
D) a coupling capacitor.
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
38
If each transistor in a Darlington pair has a gain of 100,what is the overall current gain?

A) 100
B) 200
C) 1000
D) 10,000
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Unlock Deck
k this deck
39
A connection of two transistors whose overall current gain equals the product of the individual current gains is called a

A) complementing connection.
B) cascade connection.
C) Darlington connection.
D) Quiescent connection.
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
40
A Darlington connection typically has a

A) very high input impedance and can produce large output currents.
B) very low input impedance and can produce large output currents.
C) very high input impedance and can produce only small output currents.
D) very low input impedance and can produce only small output currents.
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
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41
A multistage amplifier using two common-emitter amplifiers will provide a total phase inversion of ________.

A) 360°
B) 270°
C) 180°
D) 90°
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
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k this deck
42
It is very difficult to get a small output impedance with a

A) common-collector amplifier.
B) common-emitter amplifier.
C) common-base amplifier.
D) emitter-follower amplifier.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
43
How is the total voltage gain of a multistage amplifier calculated?

A) sum of individual gains
B) difference of individual gains
C) product of individual gains
D) it is the gain of one amplifier
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
44
A multistage amplifier can be created by cascading two or more filter circuits.
Unlock Deck
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k this deck
45
What is the circuit shown in Figure 9-16 (c)?

A) two cascaded common-emitter amplifiers
B) a small-signal amplifier
C) a supplementary Darlington
D) a complementary Darlington
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
46
What is a multistage amplifier?

A) a single stage amplifier
B) a single stage attenuator
C) two or more attenuators cascaded
D) two or more amplifiers cascaded
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Unlock Deck
k this deck
47
If the output voltage across RL increases in the circuit shown in Figure 9-15,what will the voltage at the base of Q2 do?

A) increase
B) decrease
C) remain the same
D) drops to zero
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
48
Voltage gain can be increased by using a multistage amplifier.
Unlock Deck
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Unlock Deck
k this deck
49
If two or more amplifiers are connected to form a multistage amplifier

A) gain remains constant.
B) gain increases.
C) gain is reduced.
D) more attenuation results.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
50
What is the circuit shown in Figure 9-20?

A) full-wave rectifier
B) zener follower
C) two-transistor amplifier
D) two-transistor regulator
Unlock Deck
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Unlock Deck
k this deck
locked card icon
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