A superheterodyne receiver with an IF of 450 kHz is tuned to a signal at 1200 kHz. The image frequency is

Radio Receivers
A superheterodyne receiver with an IF of 450 kHz is tuned to a signal at 1200 kHz. The image frequency is

750 kHz

2100 kHz

1650 kHz

900 kHz

750 kHz

2100 kHz

1650 kHz

900 kHz

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Radio Receivers
In a radio receiver with simple AGC

An increase in signal strength produces more AGC

The faster the AGC time constant the more accurate the output

The highest AGC voltage is produced

The audio stage gain is normally controlled by the AGC

An increase in signal strength produces more AGC

The faster the AGC time constant the more accurate the output

The highest AGC voltage is produced

The audio stage gain is normally controlled by the AGC

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Radio Receivers
An AM receiver uses a diode detector for demodulation. This enables it satisfactorily to receive

ISB

Single-sideband, suppressed-carrier

Single-sideband, reduced-carrier

Single-sideband, full-carrier

ISB

Single-sideband, suppressed-carrier

Single-sideband, reduced-carrier

Single-sideband, full-carrier

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Radio Receivers
To prevent overloading of the IF amplifier in a receiver, one should use

Variable selectivity

Variable sensitivity

Squelch

Double conversion

Variable selectivity

Variable sensitivity

Squelch

Double conversion

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Radio Receivers
Show which of the following statements about the amplitude limiter is untrue:

The output must be tuned

The circuit is always biased in class C, by virtue of the leak-type bias.

When the input increases past the threshold of the limiting, the gain decreases to keep the output constant.

Leak-type bias must be used

The output must be tuned

The circuit is always biased in class C, by virtue of the leak-type bias.

When the input increases past the threshold of the limiting, the gain decreases to keep the output constant.

Leak-type bias must be used

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Radio Receivers
The local oscillator of a broadcast receiver is tuned to a frequency higher than the incoming frequency

To allow adequate frequency coverage without switching

Because otherwise an intermediate frequency could not be produced

To permit easier tracking

To help the image frequency rejection

To allow adequate frequency coverage without switching

Because otherwise an intermediate frequency could not be produced

To permit easier tracking

To help the image frequency rejection

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Radio Receivers

Radio Receivers A superheterodyne receiver with an IF of 450 kHz is tuned to a signal at 1200 kHz. The image frequency is

Radio Receivers In a radio receiver with simple AGC

Radio Receivers An AM receiver uses a diode detector for demodulation. This enables it satisfactorily to receive

Radio Receivers To prevent overloading of the IF amplifier in a receiver, one should use

Radio Receivers Show which of the following statements about the amplitude limiter is untrue:

Radio Receivers The local oscillator of a broadcast receiver is tuned to a frequency higher than the incoming frequency

Radio Receivers
A superheterodyne receiver with an IF of 450 kHz is tuned to a signal at 1200 kHz. The image frequency is

Radio Receivers
In a radio receiver with simple AGC

Radio Receivers
An AM receiver uses a diode detector for demodulation. This enables it satisfactorily to receive

Radio Receivers
To prevent overloading of the IF amplifier in a receiver, one should use

Radio Receivers
Show which of the following statements about the amplitude limiter is untrue:

Radio Receivers
The local oscillator of a broadcast receiver is tuned to a frequency higher than the incoming frequency