Element 3: General Radiotelephone

effective 6/25/2009

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3-H-058: SSB Modulation

Figure 3H17

3-58H1: In Figure 3H17, the block labeled 4 would indicate that this schematic is most likely a/an:

SSB radio transmitter.

Audio amplifier.

Shipboard RADAR.

Wireless LAN (local area network) computer.



3-58H2: In Figure 3H17, which block diagram symbol (labeled 1 through 4) represents where audio intelligence is inserted?

2

1

3

4



3-58H3: What kind of input signal could be used to test the amplitude linearity of a single-sideband phone transmitter while viewing the output on an oscilloscope?

A two-tone audio-frequency sine wave.

Whistling in the microphone.

An audio frequency sine wave.

An audio frequency square wave.



3-58H4: What does a two-tone test illustrate on an oscilloscope?

Linearity of a SSB transmitter.

Frequency of the carrier phase shift.

Percentage of frequency modulation.

Sideband suppression.



3-58H5: How can a double-sideband phone signal be produced?

By modulating the supply voltage to a class C amplifier.

By using a reactance modulator.

By varying the voltage to the varactor in an oscillator circuit.

By using a phase detector, oscillator, and filter in a feedback loop.



3-58H6: What type of signals are used to conduct an SSB two-tone test?

Two non-harmonically related audio signals that are within the modulation band pass of the transmitter.

Two audio signals of the same frequency, but shifted 90 degrees in phase.

Two different audio frequency square wave signals of equal amplitude.

Any two audio frequencies as long as they are harmonically related.





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