Deck 3: Special-Purpose Diodes

A)operated in the breakdown region.
B)reverse- biased.
C)unbiased.
D)forward- biased.

A)a zener diode.
B)an LED.
C)a Schottky diode.
D)a photodiode.
E)a tunnel diode.

A)the impurities added during doping to control wavelength.
B)the LED current.
C)the material used for the incandescent filament.
D)the applied LED voltage.

A)contains a pn junction.
B)emits light of a single color.
C)emits incoherent light.
D)emits monochromatic light.

A)avalanche and forward.
B)charge and discharge.
C)avalanche and zener.
D)avalanche and reverse.

A)silicon
B)zener
C)germanium
D)None of the above.

A)exhibits a voltage drop of VZ + 0.7 V.
B)conducts no current.
C)emits visible light.
D)operates like a rectifier diode.

A)varies its resistance with temperature.
B)changes its capacitance with voltage.
C)emits light when forward- biased.
D)switches very fast.
E)exhibits an increase in reverse current with light intensity.

A)that the power supply voltage is too high.
B)that the series resistor is too small.
C)none; the diode should be off if forward- biased.
D)that the diode is open.

A)a zener diode.
B)an LED.
C)a Schottky diode.
D)a photodiode.
E)a tunnel diode.

A)increase.
B)remain the same.
C)decrease.
D)Unable to determine.

A)the size of the dot.
B)its color.
C)the dot polarity.
D)its frequency.

A)Rectifier diode
B)Schottky diode
C)Tunnel diode
D)LED

A)a negative resistance
B)extremely light doping
C)a linear
D)an extremely wide depletion region

A)focus LEDs for fiber optic systems.
B)limit bandwidth.
C)make white LEDs look more like incandescent lights.
D)increase the blue content of an LED lighting system.

A)place the LED in series with a resistor and a 5 V dc supply with the anode toward the positive side of the supply.
B)place the LED in series with a resisitor and a 5 V dc supply with the cathode toward the positive side of the supply.
C)place the LED in forward bias directly across a 5 V dc supply.
D)place the LED in reverse bias directly across a 5 V dc supply.

A)decreases as the reverse bias voltage increases.
B)remains constant as the bias voltage varies.
C)increases as the reverse bias voltage increases.
D)is usually 1000 µF or more.

A)only C must be lighted.
B)only F must be on.
C)G must be off.
D)all segments must be on.

A)varies its resistance with temperature.
B)changes its capacitance with voltage.
C)emits light when forward- biased.
D)switches very fast.
E)exhibits an increase in reverse current with light intensity.

A)total current.
B)series current.
C)zener current.
D)load current.

A)remain the same, increase
B)increase, remain the same
C)decrease, remain the same
D)remain the same, decrease

A)forward- biased.
B)not biased.
C)used to regulate voltage.
D)reverse- biased.

A)Gunn diode.
B)tunnel diode.
C)varactor diode.
D)Schottky diode.

A)avalanche light emission.
B)electrophosphorescence.
C)photonic light emission.
D)organic light emission.

A)current source.
B)capacitance.
C)resistance.
D)voltage source.

A)a zener diode.
B)an LED.
C)a Schottky diode.
D)a photodiode.
E)a tunnel diode.

A)there is no current through the zener.
B)VRL will be equal to 0.7 V.
C)there is no current through RL.
D)the current IRL)remains constant.

A)The zener opens.
B)Vin has decreased.
C)The zener shorts.
D)R opens.

A)IZT.
B)IS.
C)IZK.
D)IZM.

A)decreases.
B)equals the source voltage divided by the series resistance.
C)stays the same.
D)increases.

A)reverses direction.
B)decreases.
C)increases.
D)is unaffected.

A)has a metal- to- semiconductor junction.
B)cannot operate properly at high frequencies.
C)has no limit on maximum current.
D)has a forward voltage drop of about 2 V.

A)16.1 mA.
B)1.61 A.
C)1.61 mA.
D)161 mA.

A)1 V and 1.4 V.
B)0 V and 0.7 V.
C)1.2 V and 3.2 V.
D)3.2 V and 10 V.

A)It is approximately constant.
B)It destroys the diode.
C)It decreases when current increases.
D)It occurs only in the forward region.

A)hot filament bulbs.
B)infrared photodiodes.
C)PIN diodes.
D)high intensity LED arrays.

A)decreases.
B)stays the same.
C)equals the source voltage divided by the series resistance.
D)increases.

A)varies its resistance with temperature.
B)changes its capacitance with light intensity.
C)emits light when forward- biased.
D)switches very fast.
E)exhibits an increase in reverse current with light intensity.

A)remain the same.
B)increase.
C)decrease.
D)Unable to determine.

A)the zener current increases.
B)the series current increases.
C)the series current remains the same.
D)Both B and C above.

A)negative for breakdown voltages less than 5 V and positive for breakdown voltages greater than 6 V.
B)always zero.
C)always negative.
D)always positive.

A)a Schottky diode.
B)a varactor.
C)an LED.
D)a Gunn diode.

A)shows how directional the light is.
B)shows the wavelength of the light.
C)visually shows the color of the light.
D)shows the current vs. voltage curve of the LED.