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Deck 2: Diodes and Applications

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Question
<strong> Figure 4 Refer to Figure 4. Assume the diode is a practical diode. If the diode is reversed, the current in the diode will be</strong> A)0 mA B)4.7 mA C)5.7 mA D)0.2 mA <div style=padding-top: 35px> Figure 4
Refer to Figure 4. Assume the diode is a practical diode. If the diode is reversed, the current in the diode will be

A)0 mA
B)4.7 mA
C)5.7 mA
D)0.2 mA
Use Space or
up arrow
down arrow
to flip the card.
Question
To convert the rms value of a sine wave to a peak value,

A)multiply the rms value by 0.637
B)divide the rms value by 0.707
C)multiply the rms value by 0.707
D)divide the rms value by 0.637
Question
A voltage regulator compensates for changes in

A)temperature effects
B)load conditions
C)input voltage changes
D)all of the above
Question
<strong> Figure 8 The maximum output voltage for the circuit in Figure 8 is approximately (Assume an ideal diode.)</strong> A)Vp(in) B)2Vp(in) C)-Vp(in) D)0 V <div style=padding-top: 35px> Figure 8
The maximum output voltage for the circuit in Figure 8 is approximately (Assume an ideal diode.)

A)Vp(in)
B)2Vp(in)
C)-Vp(in)
D)0 V
Question
<strong> Figure 5 Refer to the circuit in Figure 5. The rms primary current is approximately</strong> A)5.0 mA B)500 mA C)50 mA D)0.5 mA <div style=padding-top: 35px> Figure 5
Refer to the circuit in Figure 5. The rms primary current is approximately

A)5.0 mA
B)500 mA
C)50 mA
D)0.5 mA
Question
Reverse current in a diode increases if

A)voltage increases
B)temperature increases
C)both A and B
D)none of the above
Question
The ripple frequency of a bridge rectifier is

A)equal to the input frequency
B)double the input frequency
C)four times the input frequency
D)half the input frequency
Question
<strong> Figure 2 Refer to Figure 2. The circuit that will produce a positive output is</strong> A)(a) B)(b) C)(c) D)(d) <div style=padding-top: 35px> Figure 2
Refer to Figure 2. The circuit that will produce a positive output is

A)(a)
B)(b)
C)(c)
D)(d)
Question
The ideal dc output voltage of a capacitor- input filter equals the

A)one- half of the peak of the rectified voltage
B)average value of the rectified voltage
C)peak value of the rectified voltage
D)rms value of the rectified voltage
Question
Another name for a diode limiter circuit is

A)clipper
B)clamper
C)dc restorer
D)rectifier
Question
A capacitor filtered half- wave rectifier has a ripple frequency that is

A)half that of the input frequency
B)twice that of the input frequency
C)the same as the input frequency
D)1.5 times the input frequency
Question
<strong> Figure 1 The circuit in Figure 1 is a</strong> A)clamping circuit B)bridge rectifier C)center- tapped full- wave rectifier D)half- wave rectifier <div style=padding-top: 35px> Figure 1
The circuit in Figure 1 is a

A)clamping circuit
B)bridge rectifier
C)center- tapped full- wave rectifier
D)half- wave rectifier
Question
<strong> Figure 5 Refer to the circuit in Figure 5. The purpose of Rsurge is to</strong> A)prevent load current from exceeding safe limits B)prevent overheating the transformer C)prevent an inrush of current that could damage diodes D)all of the above <div style=padding-top: 35px> Figure 5
Refer to the circuit in Figure 5. The purpose of Rsurge is to

A)prevent load current from exceeding safe limits
B)prevent overheating the transformer
C)prevent an inrush of current that could damage diodes
D)all of the above
Question
Assume an ideal diode has a series 10 k▲ resistor and is reverse- biased with a 5.0 V source. The current in the diode is

A)0 mA
B)0.5 mA
C)2.0 mA
D)1.0 mA
Question
The VRRM specification on a manufacturer's data sheet is the same as the

A)forward voltage at maximum power
B)reverse breakdown voltage
C)forward voltage with 1 A of current
D)PIV
Question
In a full wave bridge rectifier with a capacitor filter, assume a diode has opened. You expect to see

A)an increase in the ripple frequency
B)an increase in the ripple voltage
C)both A and B
D)none of the above
Question
<strong> Figure 8 The circuit in Figure 8 is a</strong> A)negative clipping circuit B)negative clamping circuit C)positive clipping circuit D)positive clamping circuit <div style=padding-top: 35px> Figure 8
The circuit in Figure 8 is a

A)negative clipping circuit
B)negative clamping circuit
C)positive clipping circuit
D)positive clamping circuit
Question
The forward resistance of a diode is

A)constant
B)extremely high at all points
C)lower above the knee
D)lower below the knee
Question
C:\User <strong>C:\User Figure 7 For questions 34, 35, and 36, assume ideal diodes Which circuit in Figure 6 will produce the waveform in Figure 7(c)?</strong> A)(a) B)(b) C)(c) D)(d) <div style=padding-top: 35px> Figure 7
For questions 34, 35, and 36, assume ideal diodes
Which circuit in Figure 6 will produce the waveform in Figure 7(c)?

A)(a)
B)(b)
C)(c)
D)(d)
Question
A capacitor filtered full- wave rectifier has a ripple frequency that is

A)1.5 times the input frequency
B)twice that of the input frequency
C)the same as the input frequency
D)half that of the input frequency
Question
The anode of a diode is usually marked by a band, a tab, or some other feature.
Question
<strong> Figure 1 For the circuit in Figure 1, assume ideal diodes. The peak inverse voltage is approximately</strong> A)42 V B)21 V C)36 V D)0 V <div style=padding-top: 35px> Figure 1
For the circuit in Figure 1, assume ideal diodes. The peak inverse voltage is approximately

A)42 V
B)21 V
C)36 V
D)0 V
Question
<strong> Figure 1 For the circuit in Figure 1, assume ideal diodes. The average voltage you should observe across RL is</strong> A)13.5 V B)19.2 V C)9.6 V D)27.0 V <div style=padding-top: 35px> Figure 1
For the circuit in Figure 1, assume ideal diodes. The average voltage you should observe across RL is

A)13.5 V
B)19.2 V
C)9.6 V
D)27.0 V
Question
To forward bias a diode, the n- region is connected to the positive side of a voltage source.
Question
<strong> Figure 3 For the circuit in Figure 3, assume practical diodes. The peak output voltage across the load is</strong> A)16.3 V B)17.7 V C)7.8 V D)9.2 V <div style=padding-top: 35px> Figure 3
For the circuit in Figure 3, assume practical diodes. The peak output voltage across the load is

A)16.3 V
B)17.7 V
C)7.8 V
D)9.2 V
Question
<strong> Figure 2 Refer to Figure 2. The circuit that will produce a negative output is</strong> A)(a) B)(b) C)(c) D)(d) <div style=padding-top: 35px> Figure 2
Refer to Figure 2. The circuit that will produce a negative output is

A)(a)
B)(b)
C)(c)
D)(d)
Question
<strong> Figure 3 For the circuit in Figure 3, assume a diode opens. As a result, the peak output voltage will be</strong> A)larger B)zero C)approximately the same D)halved <div style=padding-top: 35px> Figure 3
For the circuit in Figure 3, assume a diode opens. As a result, the peak output voltage will be

A)larger
B)zero
C)approximately the same
D)halved
Question
An ideal diode is considered to have a small forward voltage drop across the junction.
Question
When a diode is forward- biased, the depletion region narrows.
Question
A silicon diode measures a very high value of resistance in one direction and very low resistance in the other. This indicates the diode is probably

A)good
B)open
C)shorted
Question
The component(s)immediately preceding the voltage regulation stage in a power supply is

A)a filter capacitor
B)the fuse
C)the transformer
D)the diodes
Question
<strong> Figure 9 The circuit in Figure 9 is a</strong> A)clipping circuit B)voltage doubler C)voltage tripler D)limiter circuit <div style=padding-top: 35px> Figure 9
The circuit in Figure 9 is a

A)clipping circuit
B)voltage doubler
C)voltage tripler
D)limiter circuit
Question
<strong> Figure 4 Refer to Figure 4. Assume the diode is a practical diode. The current in the diode will be</strong> A)4.7 mA B)5.7 mA C)0 mA D)0.2 mA <div style=padding-top: 35px> Figure 4
Refer to Figure 4. Assume the diode is a practical diode. The current in the diode will be

A)4.7 mA
B)5.7 mA
C)0 mA
D)0.2 mA
Question
C:\User <strong>C:\User Figure 7 For questions 34, 35, and 36, assume ideal diodes Which circuit in Figure 6 will produce the waveform in Figure 7(a)?</strong> A)(a) B)(b) C)(c) D)(d) <div style=padding-top: 35px> Figure 7
For questions 34, 35, and 36, assume ideal diodes
Which circuit in Figure 6 will produce the waveform in Figure 7(a)?

A)(a)
B)(b)
C)(c)
D)(d)
Question
When a diode is reverse- biased, the current is normally extremely small.
Question
Assume an ideal diode has a series 10 k▲ resistor and is forward- biased with a 20 V source. The current in the diode is

A)2.0 mA
B)0 mA
C)1.0 mA
D)0.5 mA
Question
For a forward- biased diode, as temperature increases, forward current also increases.
Question
<strong> Figure 5 Refer to the circuit in Figure 5. The current in the load resistor is approximately</strong> A)10 mA B)5 mA C)15 mA D)2.5 mA <div style=padding-top: 35px> Figure 5
Refer to the circuit in Figure 5. The current in the load resistor is approximately

A)10 mA
B)5 mA
C)15 mA
D)2.5 mA
Question
Dynamic resistance is the same as linear resistance.
Question
C:\User <strong>C:\User Figure 7 For questions 34, 35, and 36, assume ideal diodes Which circuit in Figure 6 will produce the waveform in Figure 7(b)?</strong> A)(a) B)(b) C)(c) D)(d) <div style=padding-top: 35px> Figure 7
For questions 34, 35, and 36, assume ideal diodes
Which circuit in Figure 6 will produce the waveform in Figure 7(b)?

A)(a)
B)(b)
C)(c)
D)(d)
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Deck 2: Diodes and Applications
1
<strong> Figure 4 Refer to Figure 4. Assume the diode is a practical diode. If the diode is reversed, the current in the diode will be</strong> A)0 mA B)4.7 mA C)5.7 mA D)0.2 mA Figure 4
Refer to Figure 4. Assume the diode is a practical diode. If the diode is reversed, the current in the diode will be

A)0 mA
B)4.7 mA
C)5.7 mA
D)0.2 mA
A
2
To convert the rms value of a sine wave to a peak value,

A)multiply the rms value by 0.637
B)divide the rms value by 0.707
C)multiply the rms value by 0.707
D)divide the rms value by 0.637
B
3
A voltage regulator compensates for changes in

A)temperature effects
B)load conditions
C)input voltage changes
D)all of the above
D
4
<strong> Figure 8 The maximum output voltage for the circuit in Figure 8 is approximately (Assume an ideal diode.)</strong> A)Vp(in) B)2Vp(in) C)-Vp(in) D)0 V Figure 8
The maximum output voltage for the circuit in Figure 8 is approximately (Assume an ideal diode.)

A)Vp(in)
B)2Vp(in)
C)-Vp(in)
D)0 V
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k this deck
5
<strong> Figure 5 Refer to the circuit in Figure 5. The rms primary current is approximately</strong> A)5.0 mA B)500 mA C)50 mA D)0.5 mA Figure 5
Refer to the circuit in Figure 5. The rms primary current is approximately

A)5.0 mA
B)500 mA
C)50 mA
D)0.5 mA
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
6
Reverse current in a diode increases if

A)voltage increases
B)temperature increases
C)both A and B
D)none of the above
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
7
The ripple frequency of a bridge rectifier is

A)equal to the input frequency
B)double the input frequency
C)four times the input frequency
D)half the input frequency
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
8
<strong> Figure 2 Refer to Figure 2. The circuit that will produce a positive output is</strong> A)(a) B)(b) C)(c) D)(d) Figure 2
Refer to Figure 2. The circuit that will produce a positive output is

A)(a)
B)(b)
C)(c)
D)(d)
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
9
The ideal dc output voltage of a capacitor- input filter equals the

A)one- half of the peak of the rectified voltage
B)average value of the rectified voltage
C)peak value of the rectified voltage
D)rms value of the rectified voltage
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
10
Another name for a diode limiter circuit is

A)clipper
B)clamper
C)dc restorer
D)rectifier
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
11
A capacitor filtered half- wave rectifier has a ripple frequency that is

A)half that of the input frequency
B)twice that of the input frequency
C)the same as the input frequency
D)1.5 times the input frequency
Unlock Deck
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Unlock Deck
k this deck
12
<strong> Figure 1 The circuit in Figure 1 is a</strong> A)clamping circuit B)bridge rectifier C)center- tapped full- wave rectifier D)half- wave rectifier Figure 1
The circuit in Figure 1 is a

A)clamping circuit
B)bridge rectifier
C)center- tapped full- wave rectifier
D)half- wave rectifier
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Unlock Deck
k this deck
13
<strong> Figure 5 Refer to the circuit in Figure 5. The purpose of Rsurge is to</strong> A)prevent load current from exceeding safe limits B)prevent overheating the transformer C)prevent an inrush of current that could damage diodes D)all of the above Figure 5
Refer to the circuit in Figure 5. The purpose of Rsurge is to

A)prevent load current from exceeding safe limits
B)prevent overheating the transformer
C)prevent an inrush of current that could damage diodes
D)all of the above
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
14
Assume an ideal diode has a series 10 k▲ resistor and is reverse- biased with a 5.0 V source. The current in the diode is

A)0 mA
B)0.5 mA
C)2.0 mA
D)1.0 mA
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
15
The VRRM specification on a manufacturer's data sheet is the same as the

A)forward voltage at maximum power
B)reverse breakdown voltage
C)forward voltage with 1 A of current
D)PIV
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
16
In a full wave bridge rectifier with a capacitor filter, assume a diode has opened. You expect to see

A)an increase in the ripple frequency
B)an increase in the ripple voltage
C)both A and B
D)none of the above
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
17
<strong> Figure 8 The circuit in Figure 8 is a</strong> A)negative clipping circuit B)negative clamping circuit C)positive clipping circuit D)positive clamping circuit Figure 8
The circuit in Figure 8 is a

A)negative clipping circuit
B)negative clamping circuit
C)positive clipping circuit
D)positive clamping circuit
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
18
The forward resistance of a diode is

A)constant
B)extremely high at all points
C)lower above the knee
D)lower below the knee
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
19
C:\User <strong>C:\User Figure 7 For questions 34, 35, and 36, assume ideal diodes Which circuit in Figure 6 will produce the waveform in Figure 7(c)?</strong> A)(a) B)(b) C)(c) D)(d) Figure 7
For questions 34, 35, and 36, assume ideal diodes
Which circuit in Figure 6 will produce the waveform in Figure 7(c)?

A)(a)
B)(b)
C)(c)
D)(d)
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
20
A capacitor filtered full- wave rectifier has a ripple frequency that is

A)1.5 times the input frequency
B)twice that of the input frequency
C)the same as the input frequency
D)half that of the input frequency
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
21
The anode of a diode is usually marked by a band, a tab, or some other feature.
Unlock Deck
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Unlock Deck
k this deck
22
<strong> Figure 1 For the circuit in Figure 1, assume ideal diodes. The peak inverse voltage is approximately</strong> A)42 V B)21 V C)36 V D)0 V Figure 1
For the circuit in Figure 1, assume ideal diodes. The peak inverse voltage is approximately

A)42 V
B)21 V
C)36 V
D)0 V
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
23
<strong> Figure 1 For the circuit in Figure 1, assume ideal diodes. The average voltage you should observe across RL is</strong> A)13.5 V B)19.2 V C)9.6 V D)27.0 V Figure 1
For the circuit in Figure 1, assume ideal diodes. The average voltage you should observe across RL is

A)13.5 V
B)19.2 V
C)9.6 V
D)27.0 V
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
24
To forward bias a diode, the n- region is connected to the positive side of a voltage source.
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
25
<strong> Figure 3 For the circuit in Figure 3, assume practical diodes. The peak output voltage across the load is</strong> A)16.3 V B)17.7 V C)7.8 V D)9.2 V Figure 3
For the circuit in Figure 3, assume practical diodes. The peak output voltage across the load is

A)16.3 V
B)17.7 V
C)7.8 V
D)9.2 V
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
26
<strong> Figure 2 Refer to Figure 2. The circuit that will produce a negative output is</strong> A)(a) B)(b) C)(c) D)(d) Figure 2
Refer to Figure 2. The circuit that will produce a negative output is

A)(a)
B)(b)
C)(c)
D)(d)
Unlock Deck
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Unlock Deck
k this deck
27
<strong> Figure 3 For the circuit in Figure 3, assume a diode opens. As a result, the peak output voltage will be</strong> A)larger B)zero C)approximately the same D)halved Figure 3
For the circuit in Figure 3, assume a diode opens. As a result, the peak output voltage will be

A)larger
B)zero
C)approximately the same
D)halved
Unlock Deck
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k this deck
28
An ideal diode is considered to have a small forward voltage drop across the junction.
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
29
When a diode is forward- biased, the depletion region narrows.
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
30
A silicon diode measures a very high value of resistance in one direction and very low resistance in the other. This indicates the diode is probably

A)good
B)open
C)shorted
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
31
The component(s)immediately preceding the voltage regulation stage in a power supply is

A)a filter capacitor
B)the fuse
C)the transformer
D)the diodes
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
32
<strong> Figure 9 The circuit in Figure 9 is a</strong> A)clipping circuit B)voltage doubler C)voltage tripler D)limiter circuit Figure 9
The circuit in Figure 9 is a

A)clipping circuit
B)voltage doubler
C)voltage tripler
D)limiter circuit
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
33
<strong> Figure 4 Refer to Figure 4. Assume the diode is a practical diode. The current in the diode will be</strong> A)4.7 mA B)5.7 mA C)0 mA D)0.2 mA Figure 4
Refer to Figure 4. Assume the diode is a practical diode. The current in the diode will be

A)4.7 mA
B)5.7 mA
C)0 mA
D)0.2 mA
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
34
C:\User <strong>C:\User Figure 7 For questions 34, 35, and 36, assume ideal diodes Which circuit in Figure 6 will produce the waveform in Figure 7(a)?</strong> A)(a) B)(b) C)(c) D)(d) Figure 7
For questions 34, 35, and 36, assume ideal diodes
Which circuit in Figure 6 will produce the waveform in Figure 7(a)?

A)(a)
B)(b)
C)(c)
D)(d)
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
35
When a diode is reverse- biased, the current is normally extremely small.
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
36
Assume an ideal diode has a series 10 k▲ resistor and is forward- biased with a 20 V source. The current in the diode is

A)2.0 mA
B)0 mA
C)1.0 mA
D)0.5 mA
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
37
For a forward- biased diode, as temperature increases, forward current also increases.
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
38
<strong> Figure 5 Refer to the circuit in Figure 5. The current in the load resistor is approximately</strong> A)10 mA B)5 mA C)15 mA D)2.5 mA Figure 5
Refer to the circuit in Figure 5. The current in the load resistor is approximately

A)10 mA
B)5 mA
C)15 mA
D)2.5 mA
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
39
Dynamic resistance is the same as linear resistance.
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Unlock Deck
k this deck
40
C:\User <strong>C:\User Figure 7 For questions 34, 35, and 36, assume ideal diodes Which circuit in Figure 6 will produce the waveform in Figure 7(b)?</strong> A)(a) B)(b) C)(c) D)(d) Figure 7
For questions 34, 35, and 36, assume ideal diodes
Which circuit in Figure 6 will produce the waveform in Figure 7(b)?

A)(a)
B)(b)
C)(c)
D)(d)
Unlock Deck
Unlock for access to all 40 flashcards in this deck.
Unlock Deck
k this deck
locked card icon
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