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Deck 7: BJT Biasing

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Question
Emitter bias is used to stabilize the Q point on the load line against current gain changes.
Use Space or
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to flip the card.
Question
Collector-feedback bias is still sensitive to changes in current gain,but it is used because of its

A) small size.
B) low cost.
C) simplicity.
D) complexity.
Question
A firm voltage divider means that the collector current will be approximately 10 percent lower than the stiff value.
Question
With the switch in the position as shown in Figure 7-4 (a),the LED is on.
With the switch in the position as shown in Figure 7-4 (a),the LED is on. <div style=padding-top: 35px>
Question
If RE is adjusted to its maximum value in Figure 7-16,the Q point moves toward saturation.
If R<sub>E</sub> is adjusted to its maximum value in Figure 7-16,the Q point moves toward saturation. <div style=padding-top: 35px>
Question
Emitter-feedback bias uses a resistor that provides negative feedback in attempt to stabilize the operating point.
Question
Emitter-feedback bias is also called self-bias.
Question
Emitter-feedback and collector-feedback are typically not adequate because

A) there is too much negative feedback.
B) there is not enough negative feedback.
C) circuitry is too complex.
D) there is not enough positive feedback.
Question
The emitter-base junction voltage of the silicon transistor shown in Figure 7-12 is approximated to be 0.3 V.
The emitter-base junction voltage of the silicon transistor shown in Figure 7-12 is approximated to be 0.3 V. <div style=padding-top: 35px>
Question
In the circuit shown in Figure 7-26,if the base voltage measured 0 V and the emitter voltage measured 0 V,what should the troubleshooter do? <strong>In the circuit shown in Figure 7-26,if the base voltage measured 0 V and the emitter voltage measured 0 V,what should the troubleshooter do? </strong> A) replace the transistor B) replace R<sub>E</sub> C) check R<sub>1</sub> D) check voltage source and leads <div style=padding-top: 35px>

A) replace the transistor
B) replace RE
C) check R1
D) check voltage source and leads
Question
In the circuit shown in Figure 7-26,if R1 opens <strong>In the circuit shown in Figure 7-26,if R<sub>1</sub> opens </strong> A) the collector voltage will be 10 V. B) the collector voltage will be 0 V. C) the base voltage will be 10 V. D) the emitter voltage will be 10 V. <div style=padding-top: 35px>

A) the collector voltage will be 10 V.
B) the collector voltage will be 0 V.
C) the base voltage will be 10 V.
D) the emitter voltage will be 10 V.
Question
In the circuit shown in Figure 7-12,the first step in finding the emitter current is to determine the voltage across R2.
In the circuit shown in Figure 7-12,the first step in finding the emitter current is to determine the voltage across R<sub>2</sub>. <div style=padding-top: 35px>
Question
Voltage-divider bias is really emitter bias in disguise.
Question
Collector-feedback bias is also called

A) self-bias.
B) collector follower.
C) negative collector.
D) voltage-divider.
Question
A well-designed voltage-divider bias circuit is one in which the voltage divider appears stiff to the input resistance of the base.
Question
Since voltage-divider bias is derived from emitter bias,the Q point is virtually immune to changes in current gain.
Since voltage-divider bias is derived from emitter bias,the Q point is virtually immune to changes in current gain. <div style=padding-top: 35px>
Question
Some electronic equipment has a power supply that produces both positive and negative supply voltages.
Question
The emitter current in the circuit shown in Figure 7-12 can be calculated by dividing +10 V by 1 kW.
The emitter current in the circuit shown in Figure 7-12 can be calculated by dividing +10 V by 1 kW. <div style=padding-top: 35px>
Question
If RE is adjusted it its minimum value in Figure 7-16,the Q point moves toward cut-off.
If R<sub>E</sub> is adjusted it its minimum value in Figure 7-16,the Q point moves toward cut-off. <div style=padding-top: 35px>
Question
With the values shown at the operating point labeled Q,the voltage across RC would be 10 V.
Question
A well-designed voltage-divider bias circuit is one in which the voltage divider appears

A) stiff to the input resistance of the base.
B) soft to the input resistance of the base.
C) stiff to the output resistance of the collector.
D) stiff to the input resistance of the emitter.
Question
To prevent meter loading,a voltmeter used to make transistor circuit voltage measurements should have an input impedance of ________.

A) 10 kW
B) 100 kW
C) 1 MW
D) 10 MW
Question
Collector-feedback bias is also called

A) collector-follower bias.
B) emitter-feedback bias.
C) voltage-divider bias.
D) self-bias.
Question
What type transistor is used when the electronics equipment has a negative power supply?

A) field effect
B) small-signal
C) npn
D) pnp
Question
In Figure 7-18,the positive supply <strong>In Figure 7-18,the positive supply </strong> A) forward-biases the collector diode. B) reverse-biases the collector diode. C) forward-biases the emitter diode. D) reverse-biases the emitter diode. <div style=padding-top: 35px>

A) forward-biases the collector diode.
B) reverse-biases the collector diode.
C) forward-biases the emitter diode.
D) reverse-biases the emitter diode.
Question
In Figure 7-18,the negative supply <strong>In Figure 7-18,the negative supply </strong> A) forward-biases the emitter diode. B) forward-biases the collector diode. C) reverse-biases the emitter diode. D) reverse-biases the collector diode. <div style=padding-top: 35px>

A) forward-biases the emitter diode.
B) forward-biases the collector diode.
C) reverse-biases the emitter diode.
D) reverse-biases the collector diode.
Question
The intent of emitter-feedback bias is to

A) reduce the source voltage.
B) swamp out the variations in current gain.
C) swamp out the base current.
D) increase current gain.
Question
While troubleshooting the circuit shown in Figure 7-26,the base voltage measures 1.8 V and the collector voltage measures 10 V,what should the technician do? <strong>While troubleshooting the circuit shown in Figure 7-26,the base voltage measures 1.8 V and the collector voltage measures 10 V,what should the technician do? </strong> A) replace the transistor B) replace R<sub>E</sub> C) check R<sub>1</sub> D) check voltage source and leads <div style=padding-top: 35px>

A) replace the transistor
B) replace RE
C) check R1
D) check voltage source and leads
Question
By exposing a transistor's collector junction to light,a manufacturer can produce

A) an LED.
B) a seven-segment display.
C) a common-emitter circuit.
D) a phototransistor.
Question
Using a firm voltage divider means that the collector current will be approximately

A) 5 percent lower than the stiff value.
B) 10 percent lower than the stiff value.
C) 50 percent lower than the stiff value.
D) 10 percent higher than the stiff value.
Question
The most widely used transistor biasing circuit is called

A) negative bias.
B) voltage-multiplier bias.
C) voltage-divider bias.
D) full-wave bridge bias.
Question
Emitter-feedback and collector-feedback bias circuits are inadequate because

A) there is not enough negative feedback.
B) there is too much negative feedback.
C) circuits are too complex.
D) there is not enough positive feedback.
Question
Emitter-feedback bias has never become popular because the movement of the Q point is

A) stationary at cutoff.
B) stationary at saturation.
C) too large for applications that must be mass-produced.
D) too small for applications that must be mass-produced.
Question
In Figure 7-5,if the fuse blows open <strong>In Figure 7-5,if the fuse blows open </strong> A) the transistor is biased on and the green LED illuminates. B) the transistor is biased off and the green LED illuminates. C) the transistor is biased on and the red LED illuminates. D) the transistor is biased off and the red LED illuminates. <div style=padding-top: 35px>

A) the transistor is biased on and the green LED illuminates.
B) the transistor is biased off and the green LED illuminates.
C) the transistor is biased on and the red LED illuminates.
D) the transistor is biased off and the red LED illuminates.
Question
The biasing configuration shown in Figure 7-18 is derived from emitter bias and is referred to as <strong>The biasing configuration shown in Figure 7-18 is derived from emitter bias and is referred to as </strong> A) emitter derived bias (EDB). B) bi-polar emitter bias (BPEB). C) two-supply emitter bias (TSEB). D) one-supply emitter bias (OSEB). <div style=padding-top: 35px>

A) emitter derived bias (EDB).
B) bi-polar emitter bias (BPEB).
C) two-supply emitter bias (TSEB).
D) one-supply emitter bias (OSEB).
Question
In Figure 7-5,when the fuse is not blown <strong>In Figure 7-5,when the fuse is not blown </strong> A) the transistor is biased on and the green LED illuminates. B) the transistor is biased off and the green LED illuminates. C) the transistor is biased on and the red LED illuminates. D) the transistor is biased off and the red LED illuminates. <div style=padding-top: 35px>

A) the transistor is biased on and the green LED illuminates.
B) the transistor is biased off and the green LED illuminates.
C) the transistor is biased on and the red LED illuminates.
D) the transistor is biased off and the red LED illuminates.
Question
The main advantage of an optocoupler is

A) electrical isolation between input and output circuits.
B) electrical connection between input and output circuits.
C) inexpensive manufacturing costs.
D) miniature size.
Question
Voltage-divider bias produces a fixed value of emitter current that results in a stable operating point that is

A) always located at cutoff.
B) always located at saturation.
C) dependent on the current gain.
D) independent of the current gain.
Question
With a pnp transistor,the base-emitter junction will be forward biased

A) when the emitter voltage is 0.7 V above the base voltage.
B) when the emitter voltage is 0.7 V below the base voltage.
C) when the transistor is in cut-off.
D) when the collector voltage is 0.7 V above the base voltage.
Question
Collector-feedback bias is more effective than emitter-feedback bias and is used in practice because of its

A) ability to change current gain.
B) low cost.
C) simplicity.
D) small size.
Question
The voltage measured across the base-emitter junction of the silicon transistor shown in Figure 7-29 (a)is ________. <strong>The voltage measured across the base-emitter junction of the silicon transistor shown in Figure 7-29 (a)is ________. </strong> A) 0.3 V B) 1.3 V C) 0.7 V D) 1.7 V <div style=padding-top: 35px>

A) 0.3 V
B) 1.3 V
C) 0.7 V
D) 1.7 V
Question
In order to determine the emitter current for the circuit shown in Figure 7-21,you must <strong>In order to determine the emitter current for the circuit shown in Figure 7-21,you must </strong> A) subtract 0.7 V from 15 V and then divide by 20 kW. B) subtract 0.7 V from 15 V and then divide by 10 kW. C) subtract 0.7 V from 15 V and then divide by 33 kW. D) add 0.7 V to 15 V and then divide by 20 kW. <div style=padding-top: 35px>

A) subtract 0.7 V from 15 V and then divide by 20 kW.
B) subtract 0.7 V from 15 V and then divide by 10 kW.
C) subtract 0.7 V from 15 V and then divide by 33 kW.
D) add 0.7 V to 15 V and then divide by 20 kW.
Question
The schematic diagram of a pnp transistor shows

A) the emitter as an arrow pointing in.
B) the emitter as an arrow pointing out.
C) the collector as an arrow pointing in.
D) the collector as an arrow pointing out.
Question
In Figure 7-21,what effect do the capacitors have on the bias voltage in each stage? <strong>In Figure 7-21,what effect do the capacitors have on the bias voltage in each stage? </strong> A) increase B) decrease C) causes a cutoff condition D) no effect <div style=padding-top: 35px>

A) increase
B) decrease
C) causes a cutoff condition
D) no effect
Question
In order to calculate the base voltage for the circuit shown in Figure 7-29 (b) <strong>In order to calculate the base voltage for the circuit shown in Figure 7-29 (b) </strong> A) divide R<sub>2</sub> by the sum of R<sub>1</sub> and R<sub>2</sub> and then multiply by 10 V. B) divide R<sub>1</sub> by the sum of R<sub>1</sub> and R<sub>2</sub> and then multiply by 10 V. C) divide R<sub>C</sub> by the sum of R<sub>E</sub> and R<sub>C</sub> and then multiply by 10 V. D) divide R<sub>E</sub> by the sum of R<sub>E</sub> and R<sub>C</sub> and then multiply by 10 V. <div style=padding-top: 35px>

A) divide R2 by the sum of R1 and R2 and then multiply by 10 V.
B) divide R1 by the sum of R1 and R2 and then multiply by 10 V.
C) divide RC by the sum of RE and RC and then multiply by 10 V.
D) divide RE by the sum of RE and RC and then multiply by 10 V.
Question
With ambiguous troubles,the troubleshooter very often must

A) replace all suspected components.
B) memorize the circuit diagram.
C) disconnect one suspected component and test it.
D) disconnect all suspected components and apply power.
Question
What should a troubleshooter do if the base,collector,and emitter voltages in a transistor circuit all measure 0 V?

A) replace the transistor
B) check supply voltage and leads
C) disconnect base resistors
D) check collector resistor
Question
Once the base voltage has been calculated for the circuit shown in Figure 7-29 (b),emitter voltage can be calculated by <strong>Once the base voltage has been calculated for the circuit shown in Figure 7-29 (b),emitter voltage can be calculated by </strong> A) adding 0.7 V to the base voltage. B) subtracting 0.7 V from the base voltage. C) adding 0.3 V to the base voltage. D) subtracting 0.3 V from the base voltage. <div style=padding-top: 35px>

A) adding 0.7 V to the base voltage.
B) subtracting 0.7 V from the base voltage.
C) adding 0.3 V to the base voltage.
D) subtracting 0.3 V from the base voltage.
Question
In the circuit shown in Figure 7-29 (a),the base voltage can be calculated by <strong>In the circuit shown in Figure 7-29 (a),the base voltage can be calculated by </strong> A) using the voltage divider rule using R<sub>1</sub> and R<sub>2</sub> and the supply voltage. B) using the voltage divider rule using R<sub>C</sub> and R<sub>E</sub> and the supply voltage. C) multiplying collector current by the collector resistor. D) multiplying emitter current by the emitter resistor. <div style=padding-top: 35px>

A) using the voltage divider rule using R1 and R2 and the supply voltage.
B) using the voltage divider rule using RC and RE and the supply voltage.
C) multiplying collector current by the collector resistor.
D) multiplying emitter current by the emitter resistor.
Question
Whenever you have a circuit with npn transistors,you can often use the same circuit with pnp transistors and

A) a negative power supply.
B) and an ac source.
C) a positive power supply.
D) a floating ground.
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Deck 7: BJT Biasing
1
Emitter bias is used to stabilize the Q point on the load line against current gain changes.
True
2
Collector-feedback bias is still sensitive to changes in current gain,but it is used because of its

A) small size.
B) low cost.
C) simplicity.
D) complexity.
C
3
A firm voltage divider means that the collector current will be approximately 10 percent lower than the stiff value.
True
4
With the switch in the position as shown in Figure 7-4 (a),the LED is on.
With the switch in the position as shown in Figure 7-4 (a),the LED is on.
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k this deck
5
If RE is adjusted to its maximum value in Figure 7-16,the Q point moves toward saturation.
If R<sub>E</sub> is adjusted to its maximum value in Figure 7-16,the Q point moves toward saturation.
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k this deck
6
Emitter-feedback bias uses a resistor that provides negative feedback in attempt to stabilize the operating point.
Unlock Deck
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k this deck
7
Emitter-feedback bias is also called self-bias.
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k this deck
8
Emitter-feedback and collector-feedback are typically not adequate because

A) there is too much negative feedback.
B) there is not enough negative feedback.
C) circuitry is too complex.
D) there is not enough positive feedback.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
9
The emitter-base junction voltage of the silicon transistor shown in Figure 7-12 is approximated to be 0.3 V.
The emitter-base junction voltage of the silicon transistor shown in Figure 7-12 is approximated to be 0.3 V.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
10
In the circuit shown in Figure 7-26,if the base voltage measured 0 V and the emitter voltage measured 0 V,what should the troubleshooter do? <strong>In the circuit shown in Figure 7-26,if the base voltage measured 0 V and the emitter voltage measured 0 V,what should the troubleshooter do? </strong> A) replace the transistor B) replace R<sub>E</sub> C) check R<sub>1</sub> D) check voltage source and leads

A) replace the transistor
B) replace RE
C) check R1
D) check voltage source and leads
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k this deck
11
In the circuit shown in Figure 7-26,if R1 opens <strong>In the circuit shown in Figure 7-26,if R<sub>1</sub> opens </strong> A) the collector voltage will be 10 V. B) the collector voltage will be 0 V. C) the base voltage will be 10 V. D) the emitter voltage will be 10 V.

A) the collector voltage will be 10 V.
B) the collector voltage will be 0 V.
C) the base voltage will be 10 V.
D) the emitter voltage will be 10 V.
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k this deck
12
In the circuit shown in Figure 7-12,the first step in finding the emitter current is to determine the voltage across R2.
In the circuit shown in Figure 7-12,the first step in finding the emitter current is to determine the voltage across R<sub>2</sub>.
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k this deck
13
Voltage-divider bias is really emitter bias in disguise.
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k this deck
14
Collector-feedback bias is also called

A) self-bias.
B) collector follower.
C) negative collector.
D) voltage-divider.
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k this deck
15
A well-designed voltage-divider bias circuit is one in which the voltage divider appears stiff to the input resistance of the base.
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k this deck
16
Since voltage-divider bias is derived from emitter bias,the Q point is virtually immune to changes in current gain.
Since voltage-divider bias is derived from emitter bias,the Q point is virtually immune to changes in current gain.
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k this deck
17
Some electronic equipment has a power supply that produces both positive and negative supply voltages.
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k this deck
18
The emitter current in the circuit shown in Figure 7-12 can be calculated by dividing +10 V by 1 kW.
The emitter current in the circuit shown in Figure 7-12 can be calculated by dividing +10 V by 1 kW.
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k this deck
19
If RE is adjusted it its minimum value in Figure 7-16,the Q point moves toward cut-off.
If R<sub>E</sub> is adjusted it its minimum value in Figure 7-16,the Q point moves toward cut-off.
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k this deck
20
With the values shown at the operating point labeled Q,the voltage across RC would be 10 V.
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k this deck
21
A well-designed voltage-divider bias circuit is one in which the voltage divider appears

A) stiff to the input resistance of the base.
B) soft to the input resistance of the base.
C) stiff to the output resistance of the collector.
D) stiff to the input resistance of the emitter.
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k this deck
22
To prevent meter loading,a voltmeter used to make transistor circuit voltage measurements should have an input impedance of ________.

A) 10 kW
B) 100 kW
C) 1 MW
D) 10 MW
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k this deck
23
Collector-feedback bias is also called

A) collector-follower bias.
B) emitter-feedback bias.
C) voltage-divider bias.
D) self-bias.
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k this deck
24
What type transistor is used when the electronics equipment has a negative power supply?

A) field effect
B) small-signal
C) npn
D) pnp
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k this deck
25
In Figure 7-18,the positive supply <strong>In Figure 7-18,the positive supply </strong> A) forward-biases the collector diode. B) reverse-biases the collector diode. C) forward-biases the emitter diode. D) reverse-biases the emitter diode.

A) forward-biases the collector diode.
B) reverse-biases the collector diode.
C) forward-biases the emitter diode.
D) reverse-biases the emitter diode.
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k this deck
26
In Figure 7-18,the negative supply <strong>In Figure 7-18,the negative supply </strong> A) forward-biases the emitter diode. B) forward-biases the collector diode. C) reverse-biases the emitter diode. D) reverse-biases the collector diode.

A) forward-biases the emitter diode.
B) forward-biases the collector diode.
C) reverse-biases the emitter diode.
D) reverse-biases the collector diode.
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k this deck
27
The intent of emitter-feedback bias is to

A) reduce the source voltage.
B) swamp out the variations in current gain.
C) swamp out the base current.
D) increase current gain.
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Unlock Deck
k this deck
28
While troubleshooting the circuit shown in Figure 7-26,the base voltage measures 1.8 V and the collector voltage measures 10 V,what should the technician do? <strong>While troubleshooting the circuit shown in Figure 7-26,the base voltage measures 1.8 V and the collector voltage measures 10 V,what should the technician do? </strong> A) replace the transistor B) replace R<sub>E</sub> C) check R<sub>1</sub> D) check voltage source and leads

A) replace the transistor
B) replace RE
C) check R1
D) check voltage source and leads
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k this deck
29
By exposing a transistor's collector junction to light,a manufacturer can produce

A) an LED.
B) a seven-segment display.
C) a common-emitter circuit.
D) a phototransistor.
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
30
Using a firm voltage divider means that the collector current will be approximately

A) 5 percent lower than the stiff value.
B) 10 percent lower than the stiff value.
C) 50 percent lower than the stiff value.
D) 10 percent higher than the stiff value.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
31
The most widely used transistor biasing circuit is called

A) negative bias.
B) voltage-multiplier bias.
C) voltage-divider bias.
D) full-wave bridge bias.
Unlock Deck
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Unlock Deck
k this deck
32
Emitter-feedback and collector-feedback bias circuits are inadequate because

A) there is not enough negative feedback.
B) there is too much negative feedback.
C) circuits are too complex.
D) there is not enough positive feedback.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
33
Emitter-feedback bias has never become popular because the movement of the Q point is

A) stationary at cutoff.
B) stationary at saturation.
C) too large for applications that must be mass-produced.
D) too small for applications that must be mass-produced.
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
34
In Figure 7-5,if the fuse blows open <strong>In Figure 7-5,if the fuse blows open </strong> A) the transistor is biased on and the green LED illuminates. B) the transistor is biased off and the green LED illuminates. C) the transistor is biased on and the red LED illuminates. D) the transistor is biased off and the red LED illuminates.

A) the transistor is biased on and the green LED illuminates.
B) the transistor is biased off and the green LED illuminates.
C) the transistor is biased on and the red LED illuminates.
D) the transistor is biased off and the red LED illuminates.
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k this deck
35
The biasing configuration shown in Figure 7-18 is derived from emitter bias and is referred to as <strong>The biasing configuration shown in Figure 7-18 is derived from emitter bias and is referred to as </strong> A) emitter derived bias (EDB). B) bi-polar emitter bias (BPEB). C) two-supply emitter bias (TSEB). D) one-supply emitter bias (OSEB).

A) emitter derived bias (EDB).
B) bi-polar emitter bias (BPEB).
C) two-supply emitter bias (TSEB).
D) one-supply emitter bias (OSEB).
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k this deck
36
In Figure 7-5,when the fuse is not blown <strong>In Figure 7-5,when the fuse is not blown </strong> A) the transistor is biased on and the green LED illuminates. B) the transistor is biased off and the green LED illuminates. C) the transistor is biased on and the red LED illuminates. D) the transistor is biased off and the red LED illuminates.

A) the transistor is biased on and the green LED illuminates.
B) the transistor is biased off and the green LED illuminates.
C) the transistor is biased on and the red LED illuminates.
D) the transistor is biased off and the red LED illuminates.
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37
The main advantage of an optocoupler is

A) electrical isolation between input and output circuits.
B) electrical connection between input and output circuits.
C) inexpensive manufacturing costs.
D) miniature size.
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38
Voltage-divider bias produces a fixed value of emitter current that results in a stable operating point that is

A) always located at cutoff.
B) always located at saturation.
C) dependent on the current gain.
D) independent of the current gain.
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39
With a pnp transistor,the base-emitter junction will be forward biased

A) when the emitter voltage is 0.7 V above the base voltage.
B) when the emitter voltage is 0.7 V below the base voltage.
C) when the transistor is in cut-off.
D) when the collector voltage is 0.7 V above the base voltage.
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40
Collector-feedback bias is more effective than emitter-feedback bias and is used in practice because of its

A) ability to change current gain.
B) low cost.
C) simplicity.
D) small size.
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41
The voltage measured across the base-emitter junction of the silicon transistor shown in Figure 7-29 (a)is ________. <strong>The voltage measured across the base-emitter junction of the silicon transistor shown in Figure 7-29 (a)is ________. </strong> A) 0.3 V B) 1.3 V C) 0.7 V D) 1.7 V

A) 0.3 V
B) 1.3 V
C) 0.7 V
D) 1.7 V
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42
In order to determine the emitter current for the circuit shown in Figure 7-21,you must <strong>In order to determine the emitter current for the circuit shown in Figure 7-21,you must </strong> A) subtract 0.7 V from 15 V and then divide by 20 kW. B) subtract 0.7 V from 15 V and then divide by 10 kW. C) subtract 0.7 V from 15 V and then divide by 33 kW. D) add 0.7 V to 15 V and then divide by 20 kW.

A) subtract 0.7 V from 15 V and then divide by 20 kW.
B) subtract 0.7 V from 15 V and then divide by 10 kW.
C) subtract 0.7 V from 15 V and then divide by 33 kW.
D) add 0.7 V to 15 V and then divide by 20 kW.
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43
The schematic diagram of a pnp transistor shows

A) the emitter as an arrow pointing in.
B) the emitter as an arrow pointing out.
C) the collector as an arrow pointing in.
D) the collector as an arrow pointing out.
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44
In Figure 7-21,what effect do the capacitors have on the bias voltage in each stage? <strong>In Figure 7-21,what effect do the capacitors have on the bias voltage in each stage? </strong> A) increase B) decrease C) causes a cutoff condition D) no effect

A) increase
B) decrease
C) causes a cutoff condition
D) no effect
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45
In order to calculate the base voltage for the circuit shown in Figure 7-29 (b) <strong>In order to calculate the base voltage for the circuit shown in Figure 7-29 (b) </strong> A) divide R<sub>2</sub> by the sum of R<sub>1</sub> and R<sub>2</sub> and then multiply by 10 V. B) divide R<sub>1</sub> by the sum of R<sub>1</sub> and R<sub>2</sub> and then multiply by 10 V. C) divide R<sub>C</sub> by the sum of R<sub>E</sub> and R<sub>C</sub> and then multiply by 10 V. D) divide R<sub>E</sub> by the sum of R<sub>E</sub> and R<sub>C</sub> and then multiply by 10 V.

A) divide R2 by the sum of R1 and R2 and then multiply by 10 V.
B) divide R1 by the sum of R1 and R2 and then multiply by 10 V.
C) divide RC by the sum of RE and RC and then multiply by 10 V.
D) divide RE by the sum of RE and RC and then multiply by 10 V.
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46
With ambiguous troubles,the troubleshooter very often must

A) replace all suspected components.
B) memorize the circuit diagram.
C) disconnect one suspected component and test it.
D) disconnect all suspected components and apply power.
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47
What should a troubleshooter do if the base,collector,and emitter voltages in a transistor circuit all measure 0 V?

A) replace the transistor
B) check supply voltage and leads
C) disconnect base resistors
D) check collector resistor
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48
Once the base voltage has been calculated for the circuit shown in Figure 7-29 (b),emitter voltage can be calculated by <strong>Once the base voltage has been calculated for the circuit shown in Figure 7-29 (b),emitter voltage can be calculated by </strong> A) adding 0.7 V to the base voltage. B) subtracting 0.7 V from the base voltage. C) adding 0.3 V to the base voltage. D) subtracting 0.3 V from the base voltage.

A) adding 0.7 V to the base voltage.
B) subtracting 0.7 V from the base voltage.
C) adding 0.3 V to the base voltage.
D) subtracting 0.3 V from the base voltage.
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49
In the circuit shown in Figure 7-29 (a),the base voltage can be calculated by <strong>In the circuit shown in Figure 7-29 (a),the base voltage can be calculated by </strong> A) using the voltage divider rule using R<sub>1</sub> and R<sub>2</sub> and the supply voltage. B) using the voltage divider rule using R<sub>C</sub> and R<sub>E</sub> and the supply voltage. C) multiplying collector current by the collector resistor. D) multiplying emitter current by the emitter resistor.

A) using the voltage divider rule using R1 and R2 and the supply voltage.
B) using the voltage divider rule using RC and RE and the supply voltage.
C) multiplying collector current by the collector resistor.
D) multiplying emitter current by the emitter resistor.
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50
Whenever you have a circuit with npn transistors,you can often use the same circuit with pnp transistors and

A) a negative power supply.
B) and an ac source.
C) a positive power supply.
D) a floating ground.
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