A field effect transistor (FET) A. Uses a forward bias p-n junction, B. Uses a high concentration emitter junction, C. Has a very high input resistance, D. Depends on flow of minority carrier. As compared to transistor amplifier JFET amplifier has A. Higher voltage gain, less input impedance, B. Less voltage gain, less input impedance, C. Less voltage gain, higher input impedance, D. Higher voltage gain, higher input impedance. The pinch off voltage is the voltage A. At which gate source junction breaks down, B. Which causes depletion regions to meet, C. The voltage applied between drain & source, D. Neither of these. O If properly biased JFET acts as A. Current controlled current source, B. Voltage controlled voltage source, C. Voltage controlled current source, D. Current controlled voltage source.

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A field effect transistor (FET)
A. Uses a forward bias p-n junction,
B. Uses a high concentration emitter junction,
C. Has a very high input resistance,
D. Depends on flow of minority carrier.
As compared to transistor amplifier JFET amplifier has
A. Higher voltage gain, less input impedance,
B. Less voltage gain, less input impedance,
C. Less voltage gain, higher input impedance,
D. Higher voltage gain, higher input impedance.
The pinch off voltage is the voltage
A. At which gate source junction breaks down,
B. Which causes depletion regions to meet,
C. The voltage applied between drain & source,
D. Neither of these.
O If properly biased JFET acts as
A. Current controlled current source,
B. Voltage controlled voltage source,
C. Voltage controlled current source,
D. Current controlled voltage source.
Transcribed Image Text:A field effect transistor (FET) A. Uses a forward bias p-n junction, B. Uses a high concentration emitter junction, C. Has a very high input resistance, D. Depends on flow of minority carrier. As compared to transistor amplifier JFET amplifier has A. Higher voltage gain, less input impedance, B. Less voltage gain, less input impedance, C. Less voltage gain, higher input impedance, D. Higher voltage gain, higher input impedance. The pinch off voltage is the voltage A. At which gate source junction breaks down, B. Which causes depletion regions to meet, C. The voltage applied between drain & source, D. Neither of these. O If properly biased JFET acts as A. Current controlled current source, B. Voltage controlled voltage source, C. Voltage controlled current source, D. Current controlled voltage source.
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