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Deck 16: RL Circuits

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Question
Most diodes are made from a semiconductor material called silicon.
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Question
A zener diode is used as a constant voltage regulator.
Question
The ripple frequency of a half-wave rectifier equals the supply frequency.
Question
Photodiodes will conduct more as the light intensity upon them increases.
Question
Diode clampers cut off voltage above or below specified levels.
Question
A forward-biased silicon diode normally drops about 16 V.
Question
Ripple voltage is caused by the charging and discharging of the diodes.
Question
Zener diodes can conduct very large currents.
Question
A common name for a PN junction is the transistor.
Question
A forward-biased silicon diode normally drops about 0.7 V.
Question
Adding impurities to semiconductor materials is called doping.
Question
Reverse breakdown usually occurs when a diode is forward biased by about 0.7 V.
Question
Most diodes are made from a semiconductor material called germanium.
Question
A forward-biased germanium diode normally drops about 0.3 V.
Question
A half-wave rectifier uses four diodes as rectifiers.
Question
LEDs will emit light if a reverse voltage is applied to them.
Question
To rectify is to convert dc to pulsating ac.
Question
The movement of free electrons is called electron current.
Question
Current flow through a diode is normally caused by ________.

A)depletion layer breakdown
B)a reverse voltage across the diode
C)forward voltage across the diode
D)thermally produced electron-hole pairs
Question
Varactor diodes are used as voltage-variable capacitors.
Question
<strong> What is the current through R2 in Figure 16-1(c) if the diode is silicon?</strong> A)0.7 mA B)0 A C)0.3 mA D)25 mA <div style=padding-top: 35px>
What is the current through R2 in Figure 16-1(c) if the diode is silicon?

A)0.7 mA
B)0 A
C)0.3 mA
D)25 mA
Question
If you measure the voltage across a diode and it measures 0.3 V, the diode is probably made of ________ and is ________ biased.

A)germanium, reverse
B)silicon, forward
C)germanium, forward
D)silicon, reverse
Question
<strong> If you measure 17 V across a diode, it is probably ________.</strong> A)in heavy conduction B)reverse biased C)forward biased D)shorted <div style=padding-top: 35px>
If you measure 17 V across a diode, it is probably ________.

A)in heavy conduction
B)reverse biased
C)forward biased
D)shorted
Question
<strong> If the polarity of the silicon diode is reversed in Figure 16-1(c), is ________.</strong> A)25 V B)49.3 V C)0.7 V D)0 V <div style=padding-top: 35px>
If the polarity of the silicon diode is reversed in Figure 16-1(c), <strong> If the polarity of the silicon diode is reversed in Figure 16-1(c), is ________.</strong> A)25 V B)49.3 V C)0.7 V D)0 V <div style=padding-top: 35px> is ________.

A)25 V
B)49.3 V
C)0.7 V
D)0 V
Question
<strong> What is the current through if the diode is silicon?</strong> A)49.7 mA B)49.3 mA C)25 mA D)0 A <div style=padding-top: 35px>
What is the current through <strong> What is the current through if the diode is silicon?</strong> A)49.7 mA B)49.3 mA C)25 mA D)0 A <div style=padding-top: 35px> if the diode is silicon?

A)49.7 mA
B)49.3 mA
C)25 mA
D)0 A
Question
<strong> If the diode is silicon, what is the voltage across the resistor in Figure 16-1(a)?</strong> A)0 V B)20 V C)0.7 V D)19.3 V <div style=padding-top: 35px>
If the diode is silicon, what is the voltage across the resistor in Figure 16-1(a)?

A)0 V
B)20 V
C)0.7 V
D)19.3 V
Question
<strong> If an ohmmeter check of a diode indicates a high resistance in one direction and low resistance in the other, the diode is probably ________.</strong> A)open B)shorted C)bad D)good <div style=padding-top: 35px>
If an ohmmeter check of a diode indicates a high resistance in one direction and low resistance in the other, the diode is probably ________.

A)open
B)shorted
C)bad
D)good
Question
You test a diode with an ohmmeter. The two readings indicate a very low value of resistance. The diode is probably ________.

A)conducting heavily
B)open
C)normal
D)shorted
Question
<strong> If the diode is made of silicon in Figure 16-1(b), what is the current?</strong> A)9.4 mA B)0 A C)10 mA D)8.6 mA <div style=padding-top: 35px>
If the diode is made of silicon in Figure 16-1(b), what is the current?

A)9.4 mA
B)0 A
C)10 mA
D)8.6 mA
Question
<strong> What is the voltage across if the diode is silicon?</strong> A)49.3 V B)50 V C)25 V D)49.7 V <div style=padding-top: 35px>
What is the voltage across <strong> What is the voltage across if the diode is silicon?</strong> A)49.3 V B)50 V C)25 V D)49.7 V <div style=padding-top: 35px> if the diode is silicon?

A)49.3 V
B)50 V
C)25 V
D)49.7 V
Question
<strong> If the polarity of the source voltage is reversed in Figure 16-1(c), is ________.</strong> A)49.3 V B)0 V C)0.7 V D)25 V <div style=padding-top: 35px>
If the polarity of the source voltage is reversed in Figure 16-1(c), <strong> If the polarity of the source voltage is reversed in Figure 16-1(c), is ________.</strong> A)49.3 V B)0 V C)0.7 V D)25 V <div style=padding-top: 35px> is ________.

A)49.3 V
B)0 V
C)0.7 V
D)25 V
Question
<strong> What is the voltage across the resistor in Figure 16-1(a) if the diode is germanium?</strong> A)0.7 V B)0 V C)20 V D)19.7 V <div style=padding-top: 35px>
What is the voltage across the resistor in Figure 16-1(a) if the diode is germanium?

A)0.7 V
B)0 V
C)20 V
D)19.7 V
Question
<strong> If the diode opens in Figure 16-1(b), the voltage across the diode is ________.</strong> A)4.3 V B)0 V C)0.7 V D)1 V <div style=padding-top: 35px>
If the diode opens in Figure 16-1(b), the voltage across the diode is ________.

A)4.3 V
B)0 V
C)0.7 V
D)1 V
Question
<strong> What is the current in Figure 16-1(b) if the diode is made of silicon and the polarity of the source voltage is reversed?</strong> A)0.6 mA B)5 mA C)0 A D)10 mA <div style=padding-top: 35px>
What is the current in Figure 16-1(b) if the diode is made of silicon and the polarity of the source voltage is reversed?

A)0.6 mA
B)5 mA
C)0 A
D)10 mA
Question
If the <strong>If the lead on an ohmmeter is connected to a diodeʹs anode and the lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.</strong> A)very low B)very high C) D) <div style=padding-top: 35px> lead on an ohmmeter is connected to a diodeʹs anode and the <strong>If the lead on an ohmmeter is connected to a diodeʹs anode and the lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.</strong> A)very low B)very high C) D) <div style=padding-top: 35px> lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.

A)very low
B)very high
C) <strong>If the lead on an ohmmeter is connected to a diodeʹs anode and the lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.</strong> A)very low B)very high C) D) <div style=padding-top: 35px>
D) <strong>If the lead on an ohmmeter is connected to a diodeʹs anode and the lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.</strong> A)very low B)very high C) D) <div style=padding-top: 35px>
Question
If the cathode voltage of a forward biased silicon diode is 4.5 V, what is the anode voltage?

A)0.7 V
B)-5.2 V
C)5.2 V
D)-0.7 V
Question
<strong> What is the voltage across the silicon diode in Figure 16-1(b)?</strong> A)0.3 V B)-0.7 V C)1.0 V D)0.7 V <div style=padding-top: 35px>
What is the voltage across the silicon diode in Figure 16-1(b)?

A)0.3 V
B)-0.7 V
C)1.0 V
D)0.7 V
Question
A forward biased silicon diode is in series with a 1 <strong>A forward biased silicon diode is in series with a 1 resistor. The source voltage is 5 V. The voltage across the diode is ________ and the voltage across the resistor is ________.</strong> A)0.7 V, 4.3 V B)0.3 V, 4.7 V C)4.7 V, 0.3 V D)4.3 V, 0.7 V <div style=padding-top: 35px> resistor. The source voltage is 5 V. The voltage across the diode is ________ and the voltage across the resistor is ________.

A)0.7 V, 4.3 V
B)0.3 V, 4.7 V
C)4.7 V, 0.3 V
D)4.3 V, 0.7 V
Question
To forward bias a silicon diode with -1.6 V on the anode, you must apply a voltage of ________ on the cathode.

A)-0.9 V
B)2.3 V
C)0.9 V
D)-2.3 V
Question
<strong> What is the current through if the diode is germanium?</strong> A)49.3 mA B)49.7 mA C)25 mA D)0 A <div style=padding-top: 35px>
What is the current through <strong> What is the current through if the diode is germanium?</strong> A)49.3 mA B)49.7 mA C)25 mA D)0 A <div style=padding-top: 35px> if the diode is germanium?

A)49.3 mA
B)49.7 mA
C)25 mA
D)0 A
Question
If the measured resistance of a diode is very low in both directions, the diode is probably ________.

A)conducting heavily
B)normal
C)open
D)shorted
Question
If the cathode voltage of a forward-biased silicon diode equals 6.5 V, the anode voltage equals ________.

A)-0.7 V
B)7.2 V
C)-7.2 V
D)0.7 V
Question
In a semiconductor diode, the two bias conditions are ________.

A)forward and reverse
B)open and closed
C)positive and negative
D)blocking and non-blocking
Question
Materials whose molecules arrange themselves into a crystal structure are bound together by:

A)full valence shells.
B)covalent bonding.
C)sharing valence electrons.
D)all of these.
Question
To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.

A) <strong>To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.</strong> A) B) C) D) <div style=padding-top: 35px>
Question
Current through a diode is blocked by ________.

A)thermally produced electron-hole pairs
B)reverse voltage across the diode
C)forward voltage across the diode
D)depletion layer breakdown
Question
The forward bias on a P-N diode to make the diode conduct must be greater than the:

A)barrier potential.
B)conduction bond.
C)volence bond.
D)reverse bias.
Question
Applying the reverse breakdown voltage to a diode will ________.

A)cause it to act like a capacitor
B)never do any harm
C)cause it to act like a switch
D)usually damage the diode
Question
If you measure 0.7 V across a diode, the diode is probably made of ________ and is ________ biased.

A)germanium, reverse
B)silicon, forward
C)silicon, reverse
D)germanium, forward
Question
In a P-N diode, the region near the P-N junction is called:

A)the diffusion region.
B)the recombination region.
C)the neutral region.
D)the depletion region.
Question
When a diode is forward biased it is ________.

A)blocking current
B)conducting current
C)similar to an open switch
D)similar to a closed switch
E)both B and D
Question
Reverse breakdown current is carried by:

A)minority carriers.
B)pentavalent impurity atoms.
C)majority carrier.
D)trivalent impurity atoms.
Question
When the positive lead of an ohmmeter is connected to the cathode of a diode and the negative lead is connected to the anode, the meter reads ________.

A)an infinitely high resistance
B)a very low resistance
C) <strong>When the positive lead of an ohmmeter is connected to the cathode of a diode and the negative lead is connected to the anode, the meter reads ________.</strong> A)an infinitely high resistance B)a very low resistance C) D)a gradually increasing resistance <div style=padding-top: 35px>
D)a gradually increasing resistance
Question
The arrowhead in the schematic symbol for a diode represents:

A)the semiconductor lead.
B)the cathode.
C)the anode.
D)all of these.
Question
Doping a semiconductor material with pentavalent impurities results in:

A)P-type material.
B)N-P type material.
C)P-N type material.
D)N-type material.
Question
If the measured resistance of a diode is high in both directions, the diode is probably ________.

A)reverse biased
B)open
C)forward biased
D)shorted
Question
If a half-wave rectifier outputs 58 VP, the diodeʹs PIV should be more than ________.

A)116 V
B)15 V
C)29 V
D)58 V
Question
A DC voltage that sets the operating conditions of a semiconductor device is called the ________.

A)battery
B)bias
C)barrier potential
D)depletion voltage
Question
The PN junction is found in ________.

A)transistors
B)semiconductor diodes
C)all semiconductor materials
D)both A and B
Question
If a forward biased silicon diode is in series with a <strong>If a forward biased silicon diode is in series with a resistor and a 10 V source, the voltage across the diode is ________ and the voltage across the resistor is ________.</strong> A)0.3 V, 9.7 V B)9.7 V, 0.3 V C)0.7 V, 9.3 V D)9.3 V, 0.7 V <div style=padding-top: 35px> resistor and a 10 V source, the voltage across the diode is ________ and the voltage across the resistor is ________.

A)0.3 V, 9.7 V
B)9.7 V, 0.3 V
C)0.7 V, 9.3 V
D)9.3 V, 0.7 V
Question
<strong> A full-wave bridge rectifier requires ________.</strong> A)four diodes and a transformer with a single secondary B)a high voltage to operate it C)two diodes and a transformer with a single secondary D)a center-tapped transformer <div style=padding-top: 35px>
A full-wave bridge rectifier requires ________.

A)four diodes and a transformer with a single secondary
B)a high voltage to operate it
C)two diodes and a transformer with a single secondary
D)a center-tapped transformer
Question
A full-wave rectifier requires ________.

A)two diodes and a center-tapped transformer
B)four diodes and a center-tapped transformer
C)a high voltage to operate it
D)two diodes and a transformer with a single secondary
Question
<strong> Which block in Figure 16-2 will change the amplitude of the ac voltage?</strong> A)1 B)2 C)3 D)4 <div style=padding-top: 35px>
Which block in Figure 16-2 will change the amplitude of the ac voltage?

A)1
B)2
C)3
D)4
Question
The ripple voltage from a power supply ________.

A)varies with load
B)is very high
C)is about 1 V
D)is zero
Question
<strong> Which block in Figure 16-2 changes ac to pulsating dc?</strong> A)1 B)2 C)3 D)4 <div style=padding-top: 35px>
Which block in Figure 16-2 changes ac to pulsating dc?

A)1
B)2
C)3
D)4
Question
If a 75 VP sine wave is applied to a half-wave rectifier, the diodeʹs peak inverse voltage is ________.

A)37.5 V
B)75 V
C)150 V
D)0 V
Question
If the load current increases in a simple zener regulator, the ________.

A)total current increases
B)zener current decreases
C)current through the series resistor increases
D)voltage across the series resistor decreases
Question
<strong> If the load current decreases in a simple zener regulator, the ________.</strong> A)zener current decreases B)zener current increases C)current through the series resistor decreases D)voltage across the series resistor decreases <div style=padding-top: 35px>
If the load current decreases in a simple zener regulator, the ________.

A)zener current decreases
B)zener current increases
C)current through the series resistor decreases
D)voltage across the series resistor decreases
Question
If a full-wave rectifier outputs 38 VP, its average output equals ________.

A)76.7 V
B)38 V
C)19.3 V
D)24.2 V
Question
<strong> Which block will smooth out the pulsating dc in Figure 16-2?</strong> A)1 B)2 C)3 D)4 <div style=padding-top: 35px>
Which block will smooth out the pulsating dc in Figure 16-2?

A)1
B)2
C)3
D)4
Question
<strong> If the filter capacitor opens in Figure 16-2, ________.</strong> A)the ripple voltage increases B)a loud hum will be heard C)the diodes would open D)the output dc will be very low <div style=padding-top: 35px>
If the filter capacitor opens in Figure 16-2, ________.

A)the ripple voltage increases
B)a loud hum will be heard
C)the diodes would open
D)the output dc will be very low
Question
<strong> If a diode in a half-wave rectifier opens in Figure 16-2, ________.</strong> A)the output dc voltage increases and the ripple frequency decreases B)the output dc voltage decreases and the ripple voltage increases C)the output dc voltage increases and the ripple voltage decreases D)the output dc voltage decreases and the ripple voltage decreases <div style=padding-top: 35px>
If a diode in a half-wave rectifier opens in Figure 16-2, ________.

A)the output dc voltage increases and the ripple frequency decreases
B)the output dc voltage decreases and the ripple voltage increases
C)the output dc voltage increases and the ripple voltage decreases
D)the output dc voltage decreases and the ripple voltage decreases
Question
If a diode in a full-wave rectifier opens, ________.

A)the dc output voltage will increase and the ripple frequency will decrease
B)the dc output voltage will decrease and the ripple frequency will decrease
C)the dc output voltage will decrease and the ripple voltage will decrease
D)the dc output voltage will increase and the ripple voltage will decrease
Question
If the diode in a half-wave rectifier shorts, the ________.

A)output voltage would be zero
B)output voltage would equal the transformer secondary voltage
C)output ripple would be very small
D)output voltage would not change
Question
<strong> If the filter capacitor becomes leaky in Figure 16-2, ________.</strong> A)the ripple voltage will increase B)the output dc will be very low C)a loud hum will be heard D)the diodes would open <div style=padding-top: 35px>
If the filter capacitor becomes leaky in Figure 16-2, ________.

A)the ripple voltage will increase
B)the output dc will be very low
C)a loud hum will be heard
D)the diodes would open
Question
<strong> The purpose of Block 4 in Figure 16-2 is to ________.</strong> A)keep the dc output voltage constant as the load changes B)adjust the output voltage to the correct ac value C)make sure that the fuse will not blow D)maintain a constant output current when the load current changes <div style=padding-top: 35px>
The purpose of Block 4 in Figure 16-2 is to ________.

A)keep the dc output voltage constant as the load changes
B)adjust the output voltage to the correct ac value
C)make sure that the fuse will not blow
D)maintain a constant output current when the load current changes
Question
If a 60 Hz sine wave is input to a half-wave rectifier, its output frequency is ________.

A)60 Hz
B)0 Hz
C)30 Hz
D)120 Hz
Question
<strong> Which block in Figure 16-2 will keep the output voltage nearly constant under varying load?</strong> A)1 B)2 C)3 D)4 <div style=padding-top: 35px>
Which block in Figure 16-2 will keep the output voltage nearly constant under varying load?

A)1
B)2
C)3
D)4
Question
If the source voltage increases in a simple zener regulator, ________.

A)the voltage across the zener increases
B)the voltage across the series resistor decreases
C)the load current increases
D)the zener current increases
Question
<strong> The output of Block 2 in Figure 16-2 is:</strong> A)a steady DC voltage. B)a pulsating DC voltage. C)a steady DC current. D)a pulsating AC voltage. <div style=padding-top: 35px>
The output of Block 2 in Figure 16-2 is:

A)a steady DC voltage.
B)a pulsating DC voltage.
C)a steady DC current.
D)a pulsating AC voltage.
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Deck 16: RL Circuits
1
Most diodes are made from a semiconductor material called silicon.
True
2
A zener diode is used as a constant voltage regulator.
True
3
The ripple frequency of a half-wave rectifier equals the supply frequency.
True
4
Photodiodes will conduct more as the light intensity upon them increases.
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k this deck
5
Diode clampers cut off voltage above or below specified levels.
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6
A forward-biased silicon diode normally drops about 16 V.
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7
Ripple voltage is caused by the charging and discharging of the diodes.
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8
Zener diodes can conduct very large currents.
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9
A common name for a PN junction is the transistor.
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10
A forward-biased silicon diode normally drops about 0.7 V.
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11
Adding impurities to semiconductor materials is called doping.
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12
Reverse breakdown usually occurs when a diode is forward biased by about 0.7 V.
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13
Most diodes are made from a semiconductor material called germanium.
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14
A forward-biased germanium diode normally drops about 0.3 V.
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15
A half-wave rectifier uses four diodes as rectifiers.
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16
LEDs will emit light if a reverse voltage is applied to them.
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17
To rectify is to convert dc to pulsating ac.
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18
The movement of free electrons is called electron current.
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19
Current flow through a diode is normally caused by ________.

A)depletion layer breakdown
B)a reverse voltage across the diode
C)forward voltage across the diode
D)thermally produced electron-hole pairs
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20
Varactor diodes are used as voltage-variable capacitors.
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21
<strong> What is the current through R2 in Figure 16-1(c) if the diode is silicon?</strong> A)0.7 mA B)0 A C)0.3 mA D)25 mA
What is the current through R2 in Figure 16-1(c) if the diode is silicon?

A)0.7 mA
B)0 A
C)0.3 mA
D)25 mA
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22
If you measure the voltage across a diode and it measures 0.3 V, the diode is probably made of ________ and is ________ biased.

A)germanium, reverse
B)silicon, forward
C)germanium, forward
D)silicon, reverse
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23
<strong> If you measure 17 V across a diode, it is probably ________.</strong> A)in heavy conduction B)reverse biased C)forward biased D)shorted
If you measure 17 V across a diode, it is probably ________.

A)in heavy conduction
B)reverse biased
C)forward biased
D)shorted
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24
<strong> If the polarity of the silicon diode is reversed in Figure 16-1(c), is ________.</strong> A)25 V B)49.3 V C)0.7 V D)0 V
If the polarity of the silicon diode is reversed in Figure 16-1(c), <strong> If the polarity of the silicon diode is reversed in Figure 16-1(c), is ________.</strong> A)25 V B)49.3 V C)0.7 V D)0 V is ________.

A)25 V
B)49.3 V
C)0.7 V
D)0 V
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25
<strong> What is the current through if the diode is silicon?</strong> A)49.7 mA B)49.3 mA C)25 mA D)0 A
What is the current through <strong> What is the current through if the diode is silicon?</strong> A)49.7 mA B)49.3 mA C)25 mA D)0 A if the diode is silicon?

A)49.7 mA
B)49.3 mA
C)25 mA
D)0 A
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26
<strong> If the diode is silicon, what is the voltage across the resistor in Figure 16-1(a)?</strong> A)0 V B)20 V C)0.7 V D)19.3 V
If the diode is silicon, what is the voltage across the resistor in Figure 16-1(a)?

A)0 V
B)20 V
C)0.7 V
D)19.3 V
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27
<strong> If an ohmmeter check of a diode indicates a high resistance in one direction and low resistance in the other, the diode is probably ________.</strong> A)open B)shorted C)bad D)good
If an ohmmeter check of a diode indicates a high resistance in one direction and low resistance in the other, the diode is probably ________.

A)open
B)shorted
C)bad
D)good
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28
You test a diode with an ohmmeter. The two readings indicate a very low value of resistance. The diode is probably ________.

A)conducting heavily
B)open
C)normal
D)shorted
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29
<strong> If the diode is made of silicon in Figure 16-1(b), what is the current?</strong> A)9.4 mA B)0 A C)10 mA D)8.6 mA
If the diode is made of silicon in Figure 16-1(b), what is the current?

A)9.4 mA
B)0 A
C)10 mA
D)8.6 mA
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30
<strong> What is the voltage across if the diode is silicon?</strong> A)49.3 V B)50 V C)25 V D)49.7 V
What is the voltage across <strong> What is the voltage across if the diode is silicon?</strong> A)49.3 V B)50 V C)25 V D)49.7 V if the diode is silicon?

A)49.3 V
B)50 V
C)25 V
D)49.7 V
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31
<strong> If the polarity of the source voltage is reversed in Figure 16-1(c), is ________.</strong> A)49.3 V B)0 V C)0.7 V D)25 V
If the polarity of the source voltage is reversed in Figure 16-1(c), <strong> If the polarity of the source voltage is reversed in Figure 16-1(c), is ________.</strong> A)49.3 V B)0 V C)0.7 V D)25 V is ________.

A)49.3 V
B)0 V
C)0.7 V
D)25 V
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32
<strong> What is the voltage across the resistor in Figure 16-1(a) if the diode is germanium?</strong> A)0.7 V B)0 V C)20 V D)19.7 V
What is the voltage across the resistor in Figure 16-1(a) if the diode is germanium?

A)0.7 V
B)0 V
C)20 V
D)19.7 V
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33
<strong> If the diode opens in Figure 16-1(b), the voltage across the diode is ________.</strong> A)4.3 V B)0 V C)0.7 V D)1 V
If the diode opens in Figure 16-1(b), the voltage across the diode is ________.

A)4.3 V
B)0 V
C)0.7 V
D)1 V
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34
<strong> What is the current in Figure 16-1(b) if the diode is made of silicon and the polarity of the source voltage is reversed?</strong> A)0.6 mA B)5 mA C)0 A D)10 mA
What is the current in Figure 16-1(b) if the diode is made of silicon and the polarity of the source voltage is reversed?

A)0.6 mA
B)5 mA
C)0 A
D)10 mA
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35
If the <strong>If the lead on an ohmmeter is connected to a diodeʹs anode and the lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.</strong> A)very low B)very high C) D) lead on an ohmmeter is connected to a diodeʹs anode and the <strong>If the lead on an ohmmeter is connected to a diodeʹs anode and the lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.</strong> A)very low B)very high C) D) lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.

A)very low
B)very high
C) <strong>If the lead on an ohmmeter is connected to a diodeʹs anode and the lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.</strong> A)very low B)very high C) D)
D) <strong>If the lead on an ohmmeter is connected to a diodeʹs anode and the lead on the ohmmeter is connected to the diodeʹs cathode, the measured resistance is normally ________.</strong> A)very low B)very high C) D)
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36
If the cathode voltage of a forward biased silicon diode is 4.5 V, what is the anode voltage?

A)0.7 V
B)-5.2 V
C)5.2 V
D)-0.7 V
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37
<strong> What is the voltage across the silicon diode in Figure 16-1(b)?</strong> A)0.3 V B)-0.7 V C)1.0 V D)0.7 V
What is the voltage across the silicon diode in Figure 16-1(b)?

A)0.3 V
B)-0.7 V
C)1.0 V
D)0.7 V
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38
A forward biased silicon diode is in series with a 1 <strong>A forward biased silicon diode is in series with a 1 resistor. The source voltage is 5 V. The voltage across the diode is ________ and the voltage across the resistor is ________.</strong> A)0.7 V, 4.3 V B)0.3 V, 4.7 V C)4.7 V, 0.3 V D)4.3 V, 0.7 V resistor. The source voltage is 5 V. The voltage across the diode is ________ and the voltage across the resistor is ________.

A)0.7 V, 4.3 V
B)0.3 V, 4.7 V
C)4.7 V, 0.3 V
D)4.3 V, 0.7 V
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39
To forward bias a silicon diode with -1.6 V on the anode, you must apply a voltage of ________ on the cathode.

A)-0.9 V
B)2.3 V
C)0.9 V
D)-2.3 V
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40
<strong> What is the current through if the diode is germanium?</strong> A)49.3 mA B)49.7 mA C)25 mA D)0 A
What is the current through <strong> What is the current through if the diode is germanium?</strong> A)49.3 mA B)49.7 mA C)25 mA D)0 A if the diode is germanium?

A)49.3 mA
B)49.7 mA
C)25 mA
D)0 A
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41
If the measured resistance of a diode is very low in both directions, the diode is probably ________.

A)conducting heavily
B)normal
C)open
D)shorted
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42
If the cathode voltage of a forward-biased silicon diode equals 6.5 V, the anode voltage equals ________.

A)-0.7 V
B)7.2 V
C)-7.2 V
D)0.7 V
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43
In a semiconductor diode, the two bias conditions are ________.

A)forward and reverse
B)open and closed
C)positive and negative
D)blocking and non-blocking
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44
Materials whose molecules arrange themselves into a crystal structure are bound together by:

A)full valence shells.
B)covalent bonding.
C)sharing valence electrons.
D)all of these.
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45
To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.

A) <strong>To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.</strong> A) B) C) D)
B) <strong>To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.</strong> A) B) C) D)
C) <strong>To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.</strong> A) B) C) D)
D) <strong>To forward bias a silicon diode with a -71.6 V anode voltage, apply a ________ cathode voltage.</strong> A) B) C) D)
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46
Current through a diode is blocked by ________.

A)thermally produced electron-hole pairs
B)reverse voltage across the diode
C)forward voltage across the diode
D)depletion layer breakdown
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47
The forward bias on a P-N diode to make the diode conduct must be greater than the:

A)barrier potential.
B)conduction bond.
C)volence bond.
D)reverse bias.
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48
Applying the reverse breakdown voltage to a diode will ________.

A)cause it to act like a capacitor
B)never do any harm
C)cause it to act like a switch
D)usually damage the diode
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49
If you measure 0.7 V across a diode, the diode is probably made of ________ and is ________ biased.

A)germanium, reverse
B)silicon, forward
C)silicon, reverse
D)germanium, forward
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50
In a P-N diode, the region near the P-N junction is called:

A)the diffusion region.
B)the recombination region.
C)the neutral region.
D)the depletion region.
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51
When a diode is forward biased it is ________.

A)blocking current
B)conducting current
C)similar to an open switch
D)similar to a closed switch
E)both B and D
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52
Reverse breakdown current is carried by:

A)minority carriers.
B)pentavalent impurity atoms.
C)majority carrier.
D)trivalent impurity atoms.
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53
When the positive lead of an ohmmeter is connected to the cathode of a diode and the negative lead is connected to the anode, the meter reads ________.

A)an infinitely high resistance
B)a very low resistance
C) <strong>When the positive lead of an ohmmeter is connected to the cathode of a diode and the negative lead is connected to the anode, the meter reads ________.</strong> A)an infinitely high resistance B)a very low resistance C) D)a gradually increasing resistance
D)a gradually increasing resistance
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54
The arrowhead in the schematic symbol for a diode represents:

A)the semiconductor lead.
B)the cathode.
C)the anode.
D)all of these.
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55
Doping a semiconductor material with pentavalent impurities results in:

A)P-type material.
B)N-P type material.
C)P-N type material.
D)N-type material.
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56
If the measured resistance of a diode is high in both directions, the diode is probably ________.

A)reverse biased
B)open
C)forward biased
D)shorted
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57
If a half-wave rectifier outputs 58 VP, the diodeʹs PIV should be more than ________.

A)116 V
B)15 V
C)29 V
D)58 V
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58
A DC voltage that sets the operating conditions of a semiconductor device is called the ________.

A)battery
B)bias
C)barrier potential
D)depletion voltage
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59
The PN junction is found in ________.

A)transistors
B)semiconductor diodes
C)all semiconductor materials
D)both A and B
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60
If a forward biased silicon diode is in series with a <strong>If a forward biased silicon diode is in series with a resistor and a 10 V source, the voltage across the diode is ________ and the voltage across the resistor is ________.</strong> A)0.3 V, 9.7 V B)9.7 V, 0.3 V C)0.7 V, 9.3 V D)9.3 V, 0.7 V resistor and a 10 V source, the voltage across the diode is ________ and the voltage across the resistor is ________.

A)0.3 V, 9.7 V
B)9.7 V, 0.3 V
C)0.7 V, 9.3 V
D)9.3 V, 0.7 V
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61
<strong> A full-wave bridge rectifier requires ________.</strong> A)four diodes and a transformer with a single secondary B)a high voltage to operate it C)two diodes and a transformer with a single secondary D)a center-tapped transformer
A full-wave bridge rectifier requires ________.

A)four diodes and a transformer with a single secondary
B)a high voltage to operate it
C)two diodes and a transformer with a single secondary
D)a center-tapped transformer
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62
A full-wave rectifier requires ________.

A)two diodes and a center-tapped transformer
B)four diodes and a center-tapped transformer
C)a high voltage to operate it
D)two diodes and a transformer with a single secondary
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63
<strong> Which block in Figure 16-2 will change the amplitude of the ac voltage?</strong> A)1 B)2 C)3 D)4
Which block in Figure 16-2 will change the amplitude of the ac voltage?

A)1
B)2
C)3
D)4
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64
The ripple voltage from a power supply ________.

A)varies with load
B)is very high
C)is about 1 V
D)is zero
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65
<strong> Which block in Figure 16-2 changes ac to pulsating dc?</strong> A)1 B)2 C)3 D)4
Which block in Figure 16-2 changes ac to pulsating dc?

A)1
B)2
C)3
D)4
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66
If a 75 VP sine wave is applied to a half-wave rectifier, the diodeʹs peak inverse voltage is ________.

A)37.5 V
B)75 V
C)150 V
D)0 V
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67
If the load current increases in a simple zener regulator, the ________.

A)total current increases
B)zener current decreases
C)current through the series resistor increases
D)voltage across the series resistor decreases
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68
<strong> If the load current decreases in a simple zener regulator, the ________.</strong> A)zener current decreases B)zener current increases C)current through the series resistor decreases D)voltage across the series resistor decreases
If the load current decreases in a simple zener regulator, the ________.

A)zener current decreases
B)zener current increases
C)current through the series resistor decreases
D)voltage across the series resistor decreases
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69
If a full-wave rectifier outputs 38 VP, its average output equals ________.

A)76.7 V
B)38 V
C)19.3 V
D)24.2 V
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70
<strong> Which block will smooth out the pulsating dc in Figure 16-2?</strong> A)1 B)2 C)3 D)4
Which block will smooth out the pulsating dc in Figure 16-2?

A)1
B)2
C)3
D)4
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71
<strong> If the filter capacitor opens in Figure 16-2, ________.</strong> A)the ripple voltage increases B)a loud hum will be heard C)the diodes would open D)the output dc will be very low
If the filter capacitor opens in Figure 16-2, ________.

A)the ripple voltage increases
B)a loud hum will be heard
C)the diodes would open
D)the output dc will be very low
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72
<strong> If a diode in a half-wave rectifier opens in Figure 16-2, ________.</strong> A)the output dc voltage increases and the ripple frequency decreases B)the output dc voltage decreases and the ripple voltage increases C)the output dc voltage increases and the ripple voltage decreases D)the output dc voltage decreases and the ripple voltage decreases
If a diode in a half-wave rectifier opens in Figure 16-2, ________.

A)the output dc voltage increases and the ripple frequency decreases
B)the output dc voltage decreases and the ripple voltage increases
C)the output dc voltage increases and the ripple voltage decreases
D)the output dc voltage decreases and the ripple voltage decreases
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73
If a diode in a full-wave rectifier opens, ________.

A)the dc output voltage will increase and the ripple frequency will decrease
B)the dc output voltage will decrease and the ripple frequency will decrease
C)the dc output voltage will decrease and the ripple voltage will decrease
D)the dc output voltage will increase and the ripple voltage will decrease
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74
If the diode in a half-wave rectifier shorts, the ________.

A)output voltage would be zero
B)output voltage would equal the transformer secondary voltage
C)output ripple would be very small
D)output voltage would not change
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75
<strong> If the filter capacitor becomes leaky in Figure 16-2, ________.</strong> A)the ripple voltage will increase B)the output dc will be very low C)a loud hum will be heard D)the diodes would open
If the filter capacitor becomes leaky in Figure 16-2, ________.

A)the ripple voltage will increase
B)the output dc will be very low
C)a loud hum will be heard
D)the diodes would open
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76
<strong> The purpose of Block 4 in Figure 16-2 is to ________.</strong> A)keep the dc output voltage constant as the load changes B)adjust the output voltage to the correct ac value C)make sure that the fuse will not blow D)maintain a constant output current when the load current changes
The purpose of Block 4 in Figure 16-2 is to ________.

A)keep the dc output voltage constant as the load changes
B)adjust the output voltage to the correct ac value
C)make sure that the fuse will not blow
D)maintain a constant output current when the load current changes
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77
If a 60 Hz sine wave is input to a half-wave rectifier, its output frequency is ________.

A)60 Hz
B)0 Hz
C)30 Hz
D)120 Hz
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78
<strong> Which block in Figure 16-2 will keep the output voltage nearly constant under varying load?</strong> A)1 B)2 C)3 D)4
Which block in Figure 16-2 will keep the output voltage nearly constant under varying load?

A)1
B)2
C)3
D)4
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79
If the source voltage increases in a simple zener regulator, ________.

A)the voltage across the zener increases
B)the voltage across the series resistor decreases
C)the load current increases
D)the zener current increases
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80
<strong> The output of Block 2 in Figure 16-2 is:</strong> A)a steady DC voltage. B)a pulsating DC voltage. C)a steady DC current. D)a pulsating AC voltage.
The output of Block 2 in Figure 16-2 is:

A)a steady DC voltage.
B)a pulsating DC voltage.
C)a steady DC current.
D)a pulsating AC voltage.
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