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Deck 40: Thyristors

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Question
The SCR of Fig. 40-23 has V GT =1.0 V, I GT = 2 mA, and I H = 12 mA. What is the output voltage when the SCR is off What is the input voltage that triggers the SCR If V CC is decreased until the SCR opens, what is the value of V CC The SCR of Fig. 40-23 has V GT =1.0 V, I GT = 2 mA, and I H = 12 mA. What is the output voltage when the SCR is off What is the input voltage that triggers the SCR If V CC is decreased until the SCR opens, what is the value of V CC <div style=padding-top: 35px>
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Question
A thyristor can be used as

A) a resistor.
B) an amplifier.
C) a switch.
D) a power source.
Question
What is the peak output voltage in Fig. 40-24 if R is adjusted to 500 What is the peak output voltage in Fig. 40-24 if R is adjusted to 500 <div style=padding-top: 35px>
Question
Positive feedback means that the returning signal

A) opposes the original change.
B) aids the original change.
C) is equivalent to negative feedback.
D) is amplified.
Question
If the SCR of Fig. 40-23 has a gate trigger voltage of 1.5 V, a gate trigger current of 15 mA, and a holding current of 10 mA, what is the input voltage that triggers the SCR The supply voltage that resets the SCR If the SCR of Fig. 40-23 has a gate trigger voltage of 1.5 V, a gate trigger current of 15 mA, and a holding current of 10 mA, what is the input voltage that triggers the SCR The supply voltage that resets the SCR <div style=padding-top: 35px>
Question
A latch always uses

A) transistors.
B) negative feedback.
C) current.
D) positive feedback.
Question
In Fig. 40-24, R is adjusted to 750 . What is the charging time constant for the capacitor What is the Thevenin resistance facing the gate In Fig. 40-24, R is adjusted to 750 . What is the charging time constant for the capacitor What is the Thevenin resistance facing the gate <div style=padding-top: 35px>
Question
To turn on a four-layer diode, you need

A) a positive trigger.
B) low-current dropout.
C) breakover.
D) reverse-bias triggering.
Question
The resistor R 2 in Fig. 40-25 is set to 4.6 k . What are the approximate firing and conduction angles for this circuit How much ac voltage is across C The resistor R 2 in Fig. 40-25 is set to 4.6 k . What are the approximate firing and conduction angles for this circuit How much ac voltage is across C <div style=padding-top: 35px>
Question
The minimum input current that can turn on a thyristor is called the

A) holding current.
B) trigger current.
C) breakover current.
D) low-current dropout.
Question
Using Fig. 40-25, when adjusting R 2 , what are the minimum and maximum firing angle values Using Fig. 40-25, when adjusting R 2 , what are the minimum and maximum firing angle values <div style=padding-top: 35px>
Question
The only way to stop a four-layer diode that is conducting is by

A) a positive trigger.
B) low-current dropout.
C) breakover.
D) reverse-bias triggering.
Question
What are the minimum and maximum conduction angles of the SCR in Fig. 40-25 What are the minimum and maximum conduction angles of the SCR in Fig. 40-25 <div style=padding-top: 35px>
Question
The minimum anode current that keeps a thyristor turned on is called the

A) holding current.
B) trigger current.
C) breakover current.
D) low-current dropout.
Question
Calculate the supply voltage that triggers the crowbar of Fig. 40-26. Calculate the supply voltage that triggers the crowbar of Fig. 40-26. <div style=padding-top: 35px>
Question
A silicon controlled rectifier has

A) two external leads.
B) three external leads.
C) four external leads.
D) three doped regions.
Question
If the zener voltage in Fig. 40-26 is changed from10 to 12 V, what is the voltage that triggers the SCR If the zener voltage in Fig. 40-26 is changed from10 to 12 V, what is the voltage that triggers the SCR <div style=padding-top: 35px>
Question
An SCR is usually turned on by

A) breakover.
B) a gate trigger.
C) breakdown.
D) holding current.
Question
The diac of Fig. 40-27 has a breakover voltage of 20 V, and the triac has a V GT of 2.5 V. What is the capacitor voltage that turns on the triac The diac of Fig. 40-27 has a breakover voltage of 20 V, and the triac has a V GT of 2.5 V. What is the capacitor voltage that turns on the triac <div style=padding-top: 35px>
Question
SCRs are

A) low-power devices.
B) four-layer diodes.
C) high-current devices.
D) bidirectional.
Question
What is the load current in Fig. 40-27 when the triac is conducting What is the load current in Fig. 40-27 when the triac is conducting <div style=padding-top: 35px>
Question
The usual way to protect a load from excessive supply voltage is with a

A) crowbar.
B) zener diode.
C) four-layer diode.
D) thyristor.
Question
An RC snubber protects an SCR against

A) supply over voltages.
B) false triggering.
C) breakover.
D) crowbarring.
Question
When a crowbar is used with a power supply, the supply needs to have a fuse or

A) adequate trigger current.
B) holding current.
C) filtering.
D) current limiting.
Question
The diac is a

A) transistor.
B) unidirectional device.
C) three-layer device.
D) bidirectional device.
Question
The triac is equivalent to

A) a four-layer diode.
B) two diacs in parallel.
C) a thyristor with a gate lead.
D) two SCRs in parallel.
Question
Any thyristor can be turned on with

A) breakover.
B) forward-bias triggering.
C) low-current dropout.
D) reverse-bias triggering.
Question
The trigger voltage of an SCR is closest to

A) 0 V.
B) 0.7 V.
C) 4 V.
D) Breakover voltage.
Question
Any thyristor can be turned off with

A) breakover.
B) forward-bias triggering.
C) low-current dropout.
D) reverse-bias triggering.
Question
Exceeding the critical rate of rise produces

A) excessive power dissipation.
B) false triggering.
C) low-current dropout.
D) reverse-bias triggering.
Question
A four-layer diode is sometimes called a

A) unijunction transistor.
B) diac.
C) pnpn diode.
D) switch.
Question
An SCR can switch to the on state if

A) its forward breakover voltage is exceeded.
B) I GT is applied.
C) the critical rate of voltage rise is exceeded.
D) all of the above.
Question
The maximum fi ring angle with a single RC phase control circuit is

A) 45°.
B) 90°.
C) 180°.
D) 360°.
Question
A triac is generally considered most sensitive in

A) quadrant I.
B) quadrant II.
C) quadrant III.
D) quadrant IV.
Question
An IGBT is essentially a

A) BJT on the input and MOSFET on the output.
B) MOSFET on the input and MOSFET on the output.
C) MOSFET on the input and BJT on the output.
D) BJT on the input and BJT on the output.
Question
The maximum on-state output voltage of an IGBT is

A) V GS(on ).
B) V CE(Sat).
C) R DS(on).
D) V CES.
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Deck 40: Thyristors
1
The SCR of Fig. 40-23 has V GT =1.0 V, I GT = 2 mA, and I H = 12 mA. What is the output voltage when the SCR is off What is the input voltage that triggers the SCR If V CC is decreased until the SCR opens, what is the value of V CC The SCR of Fig. 40-23 has V GT =1.0 V, I GT = 2 mA, and I H = 12 mA. What is the output voltage when the SCR is off What is the input voltage that triggers the SCR If V CC is decreased until the SCR opens, what is the value of V CC
Refer to circuit diagram of SCR in Figure 40-23 in the textbook.
The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Here, Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . is the output voltage of the circuit Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . is the input voltage of the circuit
Write the expression for the input voltage needed to trigger an SCR. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Here, Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . is the gate triggering voltage Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . is the gate triggering current Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . is the gate resistance
After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Here, Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . is the holding current Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . is the load resistance
Convert the units for gate triggering current from mA to A. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Convert the units for holding current from mA to A. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Convert the units for gate resistance from Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . to Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . . Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Input voltage is equal to the output voltage when the SCR is off. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Substitute 12 V for Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . in the equation. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Therefore, the output voltage, Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . when the SCR is off is Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . .
Write the expression for the input voltage needed to trigger an SCR. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Substitute, 1.0 V for Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . , Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . for Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . , and Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . for Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . in the equation. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Therefore, the input voltage, Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . needed to trigger the SCR is Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . .
Calculate the decreased value of Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . . Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Substitute, Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . for Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . , and Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . for Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . in the equation. Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . Therefore, the decreased value of Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . is Refer to circuit diagram of SCR in Figure 40-23 in the textbook. The SCR is off means no current flows through the circuit. In such cases, input voltage is equal to the output voltage. Here, is the output voltage of the circuit is the input voltage of the circuit Write the expression for the input voltage needed to trigger an SCR. Here, is the gate triggering voltage is the gate triggering current is the gate resistance After the SCR is triggered on, it can be turned off only when the supply voltage is reduced to a lower value and it is the turn off voltage of the thyristor and is given by, Here, is the holding current is the load resistance Convert the units for gate triggering current from mA to A. Convert the units for holding current from mA to A. Convert the units for gate resistance from to . Input voltage is equal to the output voltage when the SCR is off. Substitute 12 V for in the equation. Therefore, the output voltage, when the SCR is off is . Write the expression for the input voltage needed to trigger an SCR. Substitute, 1.0 V for , for , and for in the equation. Therefore, the input voltage, needed to trigger the SCR is . Calculate the decreased value of . Substitute, for , and for in the equation. Therefore, the decreased value of is . .
2
A thyristor can be used as

A) a resistor.
B) an amplifier.
C) a switch.
D) a power source.
A Thyristor is a semi-conducting device which can be used as a switch. The different types of thyristors are silicon controlled rectifier, triac etc.
Thus, a thyristor can be used as a switch.
Hence, the correct option is A Thyristor is a semi-conducting device which can be used as a switch. The different types of thyristors are silicon controlled rectifier, triac etc. Thus, a thyristor can be used as a switch. Hence, the correct option is . A thyristor is not a resistor, it does not amplify and it is not a power source. Hence, the other options are not correct. .
A thyristor is not a resistor, it does not amplify and it is not a power source. Hence, the other options are not correct.
3
What is the peak output voltage in Fig. 40-24 if R is adjusted to 500 What is the peak output voltage in Fig. 40-24 if R is adjusted to 500
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4
Positive feedback means that the returning signal

A) opposes the original change.
B) aids the original change.
C) is equivalent to negative feedback.
D) is amplified.
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5
If the SCR of Fig. 40-23 has a gate trigger voltage of 1.5 V, a gate trigger current of 15 mA, and a holding current of 10 mA, what is the input voltage that triggers the SCR The supply voltage that resets the SCR If the SCR of Fig. 40-23 has a gate trigger voltage of 1.5 V, a gate trigger current of 15 mA, and a holding current of 10 mA, what is the input voltage that triggers the SCR The supply voltage that resets the SCR
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6
A latch always uses

A) transistors.
B) negative feedback.
C) current.
D) positive feedback.
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7
In Fig. 40-24, R is adjusted to 750 . What is the charging time constant for the capacitor What is the Thevenin resistance facing the gate In Fig. 40-24, R is adjusted to 750 . What is the charging time constant for the capacitor What is the Thevenin resistance facing the gate
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8
To turn on a four-layer diode, you need

A) a positive trigger.
B) low-current dropout.
C) breakover.
D) reverse-bias triggering.
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9
The resistor R 2 in Fig. 40-25 is set to 4.6 k . What are the approximate firing and conduction angles for this circuit How much ac voltage is across C The resistor R 2 in Fig. 40-25 is set to 4.6 k . What are the approximate firing and conduction angles for this circuit How much ac voltage is across C
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10
The minimum input current that can turn on a thyristor is called the

A) holding current.
B) trigger current.
C) breakover current.
D) low-current dropout.
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11
Using Fig. 40-25, when adjusting R 2 , what are the minimum and maximum firing angle values Using Fig. 40-25, when adjusting R 2 , what are the minimum and maximum firing angle values
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12
The only way to stop a four-layer diode that is conducting is by

A) a positive trigger.
B) low-current dropout.
C) breakover.
D) reverse-bias triggering.
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13
What are the minimum and maximum conduction angles of the SCR in Fig. 40-25 What are the minimum and maximum conduction angles of the SCR in Fig. 40-25
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14
The minimum anode current that keeps a thyristor turned on is called the

A) holding current.
B) trigger current.
C) breakover current.
D) low-current dropout.
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15
Calculate the supply voltage that triggers the crowbar of Fig. 40-26. Calculate the supply voltage that triggers the crowbar of Fig. 40-26.
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16
A silicon controlled rectifier has

A) two external leads.
B) three external leads.
C) four external leads.
D) three doped regions.
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17
If the zener voltage in Fig. 40-26 is changed from10 to 12 V, what is the voltage that triggers the SCR If the zener voltage in Fig. 40-26 is changed from10 to 12 V, what is the voltage that triggers the SCR
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18
An SCR is usually turned on by

A) breakover.
B) a gate trigger.
C) breakdown.
D) holding current.
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19
The diac of Fig. 40-27 has a breakover voltage of 20 V, and the triac has a V GT of 2.5 V. What is the capacitor voltage that turns on the triac The diac of Fig. 40-27 has a breakover voltage of 20 V, and the triac has a V GT of 2.5 V. What is the capacitor voltage that turns on the triac
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20
SCRs are

A) low-power devices.
B) four-layer diodes.
C) high-current devices.
D) bidirectional.
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21
What is the load current in Fig. 40-27 when the triac is conducting What is the load current in Fig. 40-27 when the triac is conducting
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22
The usual way to protect a load from excessive supply voltage is with a

A) crowbar.
B) zener diode.
C) four-layer diode.
D) thyristor.
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23
An RC snubber protects an SCR against

A) supply over voltages.
B) false triggering.
C) breakover.
D) crowbarring.
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24
When a crowbar is used with a power supply, the supply needs to have a fuse or

A) adequate trigger current.
B) holding current.
C) filtering.
D) current limiting.
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25
The diac is a

A) transistor.
B) unidirectional device.
C) three-layer device.
D) bidirectional device.
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26
The triac is equivalent to

A) a four-layer diode.
B) two diacs in parallel.
C) a thyristor with a gate lead.
D) two SCRs in parallel.
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27
Any thyristor can be turned on with

A) breakover.
B) forward-bias triggering.
C) low-current dropout.
D) reverse-bias triggering.
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28
The trigger voltage of an SCR is closest to

A) 0 V.
B) 0.7 V.
C) 4 V.
D) Breakover voltage.
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29
Any thyristor can be turned off with

A) breakover.
B) forward-bias triggering.
C) low-current dropout.
D) reverse-bias triggering.
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30
Exceeding the critical rate of rise produces

A) excessive power dissipation.
B) false triggering.
C) low-current dropout.
D) reverse-bias triggering.
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31
A four-layer diode is sometimes called a

A) unijunction transistor.
B) diac.
C) pnpn diode.
D) switch.
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32
An SCR can switch to the on state if

A) its forward breakover voltage is exceeded.
B) I GT is applied.
C) the critical rate of voltage rise is exceeded.
D) all of the above.
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33
The maximum fi ring angle with a single RC phase control circuit is

A) 45°.
B) 90°.
C) 180°.
D) 360°.
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34
A triac is generally considered most sensitive in

A) quadrant I.
B) quadrant II.
C) quadrant III.
D) quadrant IV.
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35
An IGBT is essentially a

A) BJT on the input and MOSFET on the output.
B) MOSFET on the input and MOSFET on the output.
C) MOSFET on the input and BJT on the output.
D) BJT on the input and BJT on the output.
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36
The maximum on-state output voltage of an IGBT is

A) V GS(on ).
B) V CE(Sat).
C) R DS(on).
D) V CES.
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Unlock Deck
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