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Subelement G4

AMATEUR RADIO PRACTICES

Section G4A

Station configuration and operation

What is the purpose of the notch filter found on many HF transceivers?

  • To restrict the transmitter voice bandwidth
  • Correct Answer
    To reduce interference from carriers in the receiver passband
  • To eliminate receiver interference from impulse noise sources
  • To remove interfering splatter generated by signals on adjacent frequencies

The "notch filter" found on many HF transceivers is to reduce interference from carriers in the receiver passband. The "notch" refers to a narrow area of frequency interference that you want to get rid of, while being able to maintain the quality of the nearby signal you want to keep.

For more info see Wikipedia: notch filter

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What is the benefit of using the opposite or “reverse” sideband when receiving CW?

  • Interference from impulse noise will be eliminated
  • More stations can be accommodated within a given signal passband
  • Correct Answer
    It may be possible to reduce or eliminate interference from other signals
  • Accidental out-of-band operation can be prevented

When working with CW signals on a typical HF transceiver it may be beneficial to select the opposite or "reverse" sideband, as this may make it possible to reduce or eliminate interference from other signals. This method will work with CW, because it transmits just tones of dots and dashes. It won't work with a voice/phone signal because it would flip the speech pattern, making it impossible to understand.

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How does a noise blanker work?

  • By temporarily increasing received bandwidth
  • By redirecting noise pulses into a filter capacitor
  • Correct Answer
    By reducing receiver gain during a noise pulse
  • By clipping noise peaks

The noise blanker works on eliminating the annoying sound of repetitive pulses such that are heard with automotive ignition energy, some diesel engines, or the famous Russian 'Woodpecker' radar radio frequency emissions.

https://en.wikipedia.org/wiki/Noise_blanker

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What is the effect on plate current of the correct setting of a vacuum-tube RF power amplifier’s TUNE control?

  • A pronounced peak
  • Correct Answer
    A pronounced dip
  • No change will be observed
  • A slow, rhythmic oscillation

A pronounced dip or drop in the reading on the plate current meter of a vacuum tube RF amplifier shows that you have correct adjustment of the plate tuning control. This dip happens when the impedance is matched at the right frequency.

Note: It is kind of like "zero beating" a CW signal, with the reading/mismatch being higher on either side of the correct level, and reaching zero when frequencies are matched to each other.

Remember to "peak the grid, dip the plate"

What is plate current?

Plate Current is the amperage that flows across a tube from the cathode to the plate. In the case of an audio tube, the control grid and screen grid mediate the amount of current that flows from cathode to plate.

QRZ Forum: Tuning for "a dip in plate current"

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Why is automatic level control (ALC) used with an RF power amplifier?

  • To balance the transmitter audio frequency response
  • To reduce harmonic radiation
  • Correct Answer
    To prevent excessive drive
  • To increase overall efficiency

The ALC avoids feeding too much power to the amplifier. Too much power can cause the amplifier to overdrive, which causes distortion in the signal and extraneous interferences.

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What is the purpose of an antenna tuner?

  • Reduce the SWR in the feed line to the antenna
  • Reduce the power dissipation in the feedline to the antenna
  • Correct Answer
    Increase power transfer from the transmitter to the feed line
  • All these choices are correct

Maximum power transfer occurs when the antenna system (antenna plus transmission line) has the same impedance as the transmitter.

If the antenna system has too much capacitance, you can offset that by adding inductance. If it has too much inductance, you can offset that by adding capacitance. The antenna tuner adds the necessary capacitance and/or inductance so the antenna system and tuner appear to the transmitter as a perfect match.

An antenna tuner is only necessary when there's a mismatch between the transmitter and antenna system. If the antenna and transmission line have the same impedance as the transmitter, there is no need for an antenna tuner.

Most amateur radio transmitters have an impedance of 50 ohms.

Hint: The answer is the only one that does not have the word antenna!

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What happens as a receiver’s noise reduction control level is increased?

  • Correct Answer
    Received signals may become distorted
  • Received frequency may become unstable
  • CW signals may become severely attenuated
  • Received frequency may shift several kHz

As the noise reduction control is made to be more aggressive, additional parts of the signal become progressively targeted. Some of these parts are valuable to the quality of the audio.

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What is the correct adjustment for the LOAD or COUPLING control of a vacuum tube RF power amplifier?

  • Minimum SWR on the antenna
  • Minimum plate current without exceeding maximum allowable grid current
  • Highest plate voltage while minimizing grid current
  • Correct Answer
    Desired power output without exceeding maximum allowable plate current

The load or coupling control of a vacuum tube RF power amplifier should be adjusted so that it is at the maximum power output usable without exceeding the maximum allowable plate current. The Load control for the RF power amplifier should be adjusted alternately with the Tune control adjusting the plate current until the highest matching amplifier power output level can be found without overloading the plate current.

HINT: both the question and answer use the word "power"

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What is the purpose of delaying RF output after activating a transmitter’s keying line to an external amplifier?

  • To prevent key clicks on CW
  • To prevent transient overmodulation
  • Correct Answer
    To allow time for the amplifier to switch the antenna between the transceiver and the amplifier output
  • To allow time for the amplifier power supply to reach operating level

The purpose of delaying RF output after activating a transmitter's keying line to an external amplifier is to allow time for the amplifier to switch the antenna between the transceiver and the amplifier output.

When the keying line of a transmitter is activated, it signals the external amplifier to start transmitting. However, there is a slight delay introduced to ensure that the amplifier has enough time to switch the antenna connection between the transceiver and the amplifier output.

While it is true that it can take the amplifier power supply some brief time to reach operating level the worst case there is for the signal to be a bit off at first; if the antenna is fully switched over or particularly if there is any way for energy to leak from the transmitter into the receiver then it could cause actual damage to the transceiver.

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What is the function of an electronic keyer?

  • Automatic transmit/receive switching
  • Correct Answer
    Automatic generation of dots and dashes for CW operation
  • To allow time for switching the antenna from the receiver to the transmitter
  • Computer interface for PSK and RTTY operation

An electronic keyer makes CW communications easier in that it automatically generates the strings of dots and dashes for CW operation. This type of keyer produces a wonderfully consistant signal, as the dots, dashes and spaces all are produced with the correct length and timing.

For more info see Wikipedia: Telegraph key

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Why should the ALC system be inactive when transmitting AFSK data signals?

  • ALC will invert the modulation of the AFSK mode
  • Correct Answer
    The ALC action distorts the signal
  • When using digital modes, too much ALC activity can cause the transmitter to overheat
  • All these choices are correct

Improper action of ALC distorts the signal and can cause spurious emissions


The Automatic Level Control (ALC) makes sure signals do not clip by compressing them. If you've dealt with audio production, this is a similar process to dynamic compression. The compressed signal sounds similar to the original signal, but it usually comes with distortion.

This distortion is acceptable in voice communication, but in digital modes, compression may generate emissions not intended by the pure signal from your computer.

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Which of the following is a common use of the dual-VFO feature on a transceiver?

  • To allow transmitting on two frequencies at once
  • To permit full duplex operation -- that is, transmitting and receiving at the same time
  • Correct Answer
    To transmit on one frequency and listen on another
  • To improve frequency accuracy by allowing variable frequency output (VFO) operation

SILLY HINT: In a "Dual" relationship, one person needs to listen (receiver), while the other partner talks (transmitter) and for best communication either person should not try to talk and listen at the same time.

SILLY HINT2: It's "common use" - we don't commonly use full duplex, but we do "commonly" transmit and then receive.

VFO = variable frequency oscillator

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What is the purpose of using a receive attenuator?

  • Correct Answer
    To prevent receiver overload from strong incoming signals
  • To reduce the transmitter power when driving a linear amplifier
  • To reduce power consumption when operating from batteries
  • To reduce excessive audio level on strong signals

Attenuators are used in HF transceivers to reduce signal overload due to strong incoming signals. An attenuator acts as the opposite of an amplifier. Its purpose is to reduce the power or amplitude of a signal rather than increasing it, while still keeping the signal strong. This keeps the signal from having the distortion that would be experienced with too much incoming signal energy. Think of the attenuator as a downward volume control for the signal power.

SILLY HINT: The only answer with "receive" in it. You attenuate the incoming strong signal to something less dangerous.

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