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

900 kHz

2100 kHz

1650 kHz

750 kHz

900 kHz

2100 kHz

1650 kHz

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

Double conversion is used to improve image rejection

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

Variable sensitivity is used to eliminate selective fading

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

Double conversion is used to improve image rejection

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

Variable sensitivity is used to eliminate selective fading

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

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Radio Receivers
The image frequency of a superheterodyne receiver

Is due to insufficient adjacent channel rejection

Is not rejected be the IF tuned circuits

Is independent of the frequency to which the receiver is tuned

Is created within the receiver itself

Is due to insufficient adjacent channel rejection

Is not rejected be the IF tuned circuits

Is independent of the frequency to which the receiver is tuned

Is created within the receiver itself

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Radio Receivers
Indicate the false statement. Noting that no carrier is transmitter with J3E, we see that

The receiver cannot use a phase comparator for AFC

Adjacent-channel rejection is more difficult

The transmission is not compatible with A3E

Production of AGC is a rather complicated process

The receiver cannot use a phase comparator for AFC

Adjacent-channel rejection is more difficult

The transmission is not compatible with A3E

Production of AGC is a rather complicated process

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Radio Receivers
One of the following cannot be used to demodulate SSB:

Diode Balance modulator

Product detector

Bipolar transistor balanced modulator

Complete phase-shift generator

Diode Balance modulator

Product detector

Bipolar transistor balanced modulator

Complete phase-shift generator

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Radio Receivers
A low ratio of the ac to the dc load impedance of a diode detector results in

Negative-peak clipping

Poor AF response

Diagonal clipping

Poor AGC operation

Negative-peak clipping

Poor AF response

Diagonal clipping

Poor AGC operation

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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 image frequency of a superheterodyne receiver

Radio Receivers Indicate the false statement. Noting that no carrier is transmitter with J3E, we see that

Radio Receivers One of the following cannot be used to demodulate SSB:

Radio Receivers A low ratio of the ac to the dc load impedance of a diode detector results in

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 image frequency of a superheterodyne receiver

Radio Receivers
Indicate the false statement. Noting that no carrier is transmitter with J3E, we see that

Radio Receivers
One of the following cannot be used to demodulate SSB:

Radio Receivers
A low ratio of the ac to the dc load impedance of a diode detector results in