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

1650 kHz

2100 kHz

900 kHz

750 kHz

1650 kHz

2100 kHz

900 kHz

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Radio Receivers
Indicate the false statement in connection with communications receivers.

Variable sensitivity is used to eliminate selective fading

Double conversion is used to improve image rejection

A product demodulator could be used for the reception of Morse code.

The noise limiter cuts off the receiver’s output during a noise pulse.

Variable sensitivity is used to eliminate selective fading

Double conversion is used to improve image rejection

A product demodulator could be used for the reception of Morse code.

The noise limiter cuts off the receiver’s output during a noise pulse.

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Radio Receivers
The typical squelch circuit cuts off

An IF amplifier when the AGC is minimum

An IF amplifier when the AGC is maximum

an audio amplifier when the carrier is absent

RF interference when the signal is weak

An IF amplifier when the AGC is minimum

An IF amplifier when the AGC is maximum

an audio amplifier when the carrier is absent

RF interference when the signal is weak

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Radio Receivers
The frequency generated by each decade in a direct frequency synthesizer is much higher than the frequency shown; this is done to

Reduce the number of decades

Reduce the number of crystals required

Reduce the spurious frequency problem

Increase the frequency stability of the synthesizer

Reduce the number of decades

Reduce the number of crystals required

Reduce the spurious frequency problem

Increase the frequency stability of the synthesizer

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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

To help the image frequency rejection

Because otherwise an intermediate frequency could not be produced

To permit easier tracking

To allow adequate frequency coverage without switching

To help the image frequency rejection

Because otherwise an intermediate frequency could not be produced

To permit easier tracking

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Radio Receivers
If the intermediate frequency is very high (indicate false statement)

The selectivity will be poor

Tracking will be improved

Image frequency rejection is very good

The local oscillator need not be extremely stable

The selectivity will be poor

Tracking will be improved

Image frequency rejection is very good

The local oscillator need not be extremely stable

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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 Indicate the false statement in connection with communications receivers.

Radio Receivers The typical squelch circuit cuts off

Radio Receivers The frequency generated by each decade in a direct frequency synthesizer is much higher than the frequency shown; this is done to

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

Radio Receivers If the intermediate frequency is very high (indicate false statement)

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
Indicate the false statement in connection with communications receivers.

Radio Receivers
The typical squelch circuit cuts off

Radio Receivers
The frequency generated by each decade in a direct frequency synthesizer is much higher than the frequency shown; this is done to

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

Radio Receivers
If the intermediate frequency is very high (indicate false statement)