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Deck 13: Mosfets
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The circuit in Figure is an amplifier.
A) Voltage-divider biased common-emitter
B) Voltage-divider biased common-drain
C) Voltage-divider biased common-source
D) Drain-feedback biased common-source
Question
The symbol labeled C is an .
A) E-MOSFET
B) JFET
C) D-MOSFET
D) None of the above.
Question
The symbol labeled A is an .
A) E-MOSFET
B) JFET
C) D-MOSFET
D) None of the above.
Question
The symbol labeled B is an .
A) E-MOSFET
B) JFET
C) D-MOSFET
D) None of the above.
Question
The MOSFET in Figure has the following specifications: IDon) = 10 mA @ VGSon) = 10 V and VGSTh) = 2 V. Determine the value of ID for this circuit.
A) 2.5 mA
B) 3mA
C) 5 mA
D) 10 mA
Question
The MOSFET in Figure has the following specifications: IDon) = 10 mA @ VGSon) = 10 V and VGSTh) = 2 V. Determine the value of VDS for this circuit.
A) 2 V
B) 4.5 V
C) 7.5 V
D) 12 V
Question
The MOSFET in Figure has the following specifications: IDon) = 10 mA @ VGSon) = 10 V and VGSTh) = 2 V. Determine the value of VGS for this circuit.
A) 2 V
B) 6 V
C) 10V
D) 12 V
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Question
The term packing density refers to:
A) the number of IC chips that can be shipped in one package.
B) the number of circuits or components that can be fabricated in a given amount of space.
C) a particular design method that results in a complex circuit
D) CMOS circuits but not BJT circuits.
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Question
Question
The MOSFET in Figure has the following specifications: IDon) = 10 mA @ VGSon) = 10 V and VGSTh) = 2 V. Determine the minimum value of k for this circuit.
A) 1.56
B) 1.56 × 10-4
C) 0.001
D) 1.25 × 10-3
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Deck 13: Mosfets
1
D-MOSFETs can operate in
A) the depletion mode only.
B) the enhancement mode only.
C) the depletion mode and the enhancement mode.
A) the depletion mode only.
B) the enhancement mode only.
C) the depletion mode and the enhancement mode.
the depletion mode and the enhancement mode.
2
MOSFETs typically have input impedance than JFETs.
A) higher
B) lower
C) similar
A) higher
B) lower
C) similar
higher
3
Groups of digital circuits with nearly identical characteristics are called
A) logic groups.
B) logic families.
C) logic subgroups.
D) logic subfamilies.
A) logic groups.
B) logic families.
C) logic subgroups.
D) logic subfamilies.
logic families.
4
The main drawback to JFET operation is the fact that
A) JFETs have low input impedance.
B) JFETs are restricted to depletion-mode operation.
C) JFETs are restricted to enhancement-mode operation.
D) JFET amplifiers are poor buffers.
A) JFETs have low input impedance.
B) JFETs are restricted to depletion-mode operation.
C) JFETs are restricted to enhancement-mode operation.
D) JFET amplifiers are poor buffers.
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5
Which of the following is true for a D-MOSFET that is being operated in the depletion mode?
A) ID > IDSS
B) ID < IDSS
C) ID = IDSS
A) ID > IDSS
B) ID < IDSS
C) ID = IDSS
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6
A CMOS inverter has a +10 V supply and an input that varies between 0 V and +10 V. What is the circuit output when the input to the circuit is +10 V?
A) -10 V.
B) 0 V.
C) +10 V.
D) Cannot be determined with the information given.
A) -10 V.
B) 0 V.
C) +10 V.
D) Cannot be determined with the information given.
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7
A D-MOSFET has values of IDSS = 10 mA and VGSoff) = -6V. What is the value of ID when VGS = 0 V?
A) 0 mA
B) 5 mA
C) 10 mA
D) Cannot be determined from the information given.
A) 0 mA
B) 5 mA
C) 10 mA
D) Cannot be determined from the information given.
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8
When used in an RF amplifier, dual-gate MOSFETs provide for the use of
A) fading.
B) automatic gain control AGC).
C) CMOS logic family.
D) None of the above.
A) fading.
B) automatic gain control AGC).
C) CMOS logic family.
D) None of the above.
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9
The cascode amplifier is used primarily in
A) high frequency applications.
B) digital switching circuits.
C) audio amplifiers.
D) CMOS applications.
A) high frequency applications.
B) digital switching circuits.
C) audio amplifiers.
D) CMOS applications.
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10
The dual-gate MOSFET makes a poor cascode amplifier device.
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11
CMOS stands for
A) complementary MOS.
B) current MOS.
C) capacitive MOS.
D) conductive MOS.
A) complementary MOS.
B) current MOS.
C) capacitive MOS.
D) conductive MOS.
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12
Which of the following biasing circuits can be used with E-MOSFETs?
A) self bias
B) zero bias
C) drain-feedback bias
D) current-source bias
A) self bias
B) zero bias
C) drain-feedback bias
D) current-source bias
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13
bias may be used with D-MOSFETs but not with JFETs.
A) Source
B) Zero
C) Drain-feedback
D) Current-source
A) Source
B) Zero
C) Drain-feedback
D) Current-source
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14
One advantage that CMOS has over TTL is the fact that
A) CMOS circuits have better power dissipation ratings.
B) CMOS circuits have a lower packing density than TTL.
C) CMOS circuits can be used with positive supply voltages.
D) CMOS circuits are cheaper than TTL circuits.
A) CMOS circuits have better power dissipation ratings.
B) CMOS circuits have a lower packing density than TTL.
C) CMOS circuits can be used with positive supply voltages.
D) CMOS circuits are cheaper than TTL circuits.
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15
An E-MOSFET has values of VGSth) = 2 V and IDon) = 8 mA @ VGS = 10 V. What is the value of k for the device?
A) 1 × 10-3
B) 1.25 × 10-4
C) 8 × 10-4
D) Cannot be determined with the information given.
A) 1 × 10-3
B) 1.25 × 10-4
C) 8 × 10-4
D) Cannot be determined with the information given.
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16
What type of MOSFETs are designed to be used at high frequencies?
A) VMOS
B) LDMOS
C) E-MOSFETs
D) Dual-gate MOSFETs
A) VMOS
B) LDMOS
C) E-MOSFETs
D) Dual-gate MOSFETs
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17
The E-MOSFET can operate in
A) the depletion mode only.
B) the enhancement mode only.
C) the depletion mode and the enhancement mode.
A) the depletion mode only.
B) the enhancement mode only.
C) the depletion mode and the enhancement mode.
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18
An E-MOSFET has values of VGSth) = 4 V and IDon) = 12 mA @ VGS = 10 V. The device is being used in a circuit that has a value of VGS = 6 V. What is the value of ID for the circuit?
A) 13.33 mA
B) 1 mA
C) 1.33 mA
D) 0 mA
A) 13.33 mA
B) 1 mA
C) 1.33 mA
D) 0 mA
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19
Which of the following devices would normally have the highest current-handling capability?
A) E-MOSFETs
B) D-MOSFETs
C) LDMOS
D) Dual-gate MOSFETs
A) E-MOSFETs
B) D-MOSFETs
C) LDMOS
D) Dual-gate MOSFETs
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20
The operation of standard MOSFETs is limited at high frequencies because of
A) low maximum values of ID.
B) high maximum values of ID.
C) high gate-to-channel capacitance.
D) low gate-to-channel capacitance.
A) low maximum values of ID.
B) high maximum values of ID.
C) high gate-to-channel capacitance.
D) low gate-to-channel capacitance.
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21
The circuit in Figure is an amplifier.
A) Voltage-divider biased common-emitter
B) Voltage-divider biased common-drain
C) Voltage-divider biased common-source
D) Drain-feedback biased common-source
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22
The symbol labeled C is an .
A) E-MOSFET
B) JFET
C) D-MOSFET
D) None of the above.
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23
The symbol labeled A is an .
A) E-MOSFET
B) JFET
C) D-MOSFET
D) None of the above.
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24
The symbol labeled B is an .
A) E-MOSFET
B) JFET
C) D-MOSFET
D) None of the above.
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25
The MOSFET in Figure has the following specifications: IDon) = 10 mA @ VGSon) = 10 V and VGSTh) = 2 V. Determine the value of ID for this circuit.
A) 2.5 mA
B) 3mA
C) 5 mA
D) 10 mA
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26
The MOSFET in Figure has the following specifications: IDon) = 10 mA @ VGSon) = 10 V and VGSTh) = 2 V. Determine the value of VDS for this circuit.
A) 2 V
B) 4.5 V
C) 7.5 V
D) 12 V
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27
The MOSFET in Figure has the following specifications: IDon) = 10 mA @ VGSon) = 10 V and VGSTh) = 2 V. Determine the value of VGS for this circuit.
A) 2 V
B) 6 V
C) 10V
D) 12 V
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28
To protect MOSFETs from static electricity, you should store them in conductive foam.
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29
The term packing density refers to:
A) the number of IC chips that can be shipped in one package.
B) the number of circuits or components that can be fabricated in a given amount of space.
C) a particular design method that results in a complex circuit
D) CMOS circuits but not BJT circuits.
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30
LDMOS is a special-purpose type of
A) D-MOSFET.
B) E-MOSFET.
C) JFET.
D) BJT.
A) D-MOSFET.
B) E-MOSFET.
C) JFET.
D) BJT.
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31
VMOS is a special-purpose type of
A) D-MOSFET.
B) E-MOSFET.
C) JFET.
D) BJT.
A) D-MOSFET.
B) E-MOSFET.
C) JFET.
D) BJT.
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32
The MOSFET in Figure has the following specifications: IDon) = 10 mA @ VGSon) = 10 V and VGSTh) = 2 V. Determine the minimum value of k for this circuit.
A) 1.56
B) 1.56 × 10-4
C) 0.001
D) 1.25 × 10-3
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33
Many MOSFET devices now contain internal that protect them from static electricity.
A) BJTs
B) zener diodes
C) pn junction diodes
D) capacitors
A) BJTs
B) zener diodes
C) pn junction diodes
D) capacitors
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