Communications

Question 1

What does the International Telecommunications Union do?

Answer 1

Coordinates the shared global use of the radio spectrum.

Question 2

What is the Australian Communications and Media Authority responsible for?

Answer 2

The regulation of:
- broadcasting
- the internet
- radio communications
- telecommunications
- implementation of ICU policy and procedures

Question 3

What kind of wave does sound travel by?

Answer 3

Pressure waves

Question 4

What is the speed of sound?

Answer 4

Approx 340m/s or 1224 km/hr or 60 knots.

This speed will vary depending on air temperature.

Question 5

What are radio waves?

Answer 5

Electromagnetic waves.

They can be transmitted through any medium.

Can be used for communication.

Question 6

What is the speed of light?

Answer 6

300 million m/second

Question 7

What are examples of electromagnetic waves?

Answer 7

• Radio and television signals
• Microwaves
• Radar signals
• Lamp light
• Fire heat
• Radiation from the sun and radioactive materials

Question 8

What are the three main elements of wave motions?

Answer 8

• Amplitude
• Frequency
• Wavelength

Question 9

What is the amplitude of a wave?

Answer 9

The distance from one extremity of the oscillation (or vibration) to the middle point or neutral value.

Question 10

What is the frequency of a wave?

Answer 10

The number of complete waves (or cycles) passing a point per second.

Measured in Hertz (Hz).

One complete wave cycle past a given point = 1 Hz.

Question 11

What is wavelength?

Answer 11

The length of one single wave.

Can also be expressed as the distance travelled by the wave during the transmission of one cycle.

Wavelength = Velocity/Frequency

Question 12

What frequency and wavelength is HF?

Answer 12

3 - 30MHz
100m - 10m

Question 13

What frequency and wavelength is VHF?

Answer 13

30 - 300MHz
10m - 1m

Question 14

What frequency and wavelength is UHF?

Answer 14

300 - 3000MHz
1m - 100mm

Question 15

At what rate does increasing transmitter power increase range?

Answer 15

The square root factor.

e.g. doubling power will increase range by 1.414

Question 16

What is interference?

Answer 16

The reinforcement or cancellation that occurs when two waves overlap.

Question 17

What are the advantages of the HF communications?

Answer 17

Allows communication with aircraft in:
- remote areas
- over the horizon
- out to sea beyond line-of-sight

Question 18

What are the limitations of HF communications?

Answer 18

• Very susceptible to interference
• Fading due to interaction of ground and sky waves, particularly at night
• Coverage unreliable - affected by the Ionosphere
• Difficult to silence receivers during ‘no signal’ periods (annoying ‘hash’ when strong interference is present)
• HF antenna arrays are very large

Question 19

What are the advantages of VHF communication?

Answer 19

• Principal VHF advantage is the signal quality. Static and other interference are almost non-existent.
• Waves are ‘direct’, and not refracted or reflected, so fading and garbling are also minimal.
• Requires small antenna systems, saving in space and weight in airborne equipment.
• Low transmitter power suits aircraft systems.

Question 20

True or False. UHF has the same advantages and limitations as VHF.

Answer 20

True

Question 21

What is UHF used for?

Answer 21

Military applications

Question 22

What are VHF frequencies used for?

Answer 22

• Air Traffic Control
• General aviation
• Radio navigation aids

Question 23

What is refraction?

Answer 23

The bending of radio waves across the boundary between media of differing density.

The velocity varies with density of the medium and layers can bend certain radio waves so they are effectively reflected back to Earth.

Question 24

What are three types of refraction that radio waves may be affected by?

Answer 24

Ionospheric: The Ionosphere is a high altitude layers of ionised gases (approx 30 to 300 nm). HF band waves are susceptible but this depends on the frequency and the variable state of the Ionosphere. Reflected strength can vary from hour to hour, and minute to minute.

Atmospheric: Signal paths may be bent as a result of slight variations in atmospheric density, which arise from differing temperatures, pressures, and humidity, especially in the lower levels of the atmosphere.

Coastal: Radio wave path changes as it crosses a coastline. The degree to which a signal is affected is primarily dependent upon its frequency.

Question 25

What is reflection?

Answer 25

Occurs when radio waves ‘bounce off’ a reflecting surface.

This is utilised in radar systems.

Question 26

What is attenuation?

Answer 26

When radio signals are progressively weakened as they radiate further from the transmitter.

The rate at which a signal is reduced is determined by the Inverse square law (twice the distance, the signal would be reduced by a factor of four).

Can be offset by increasing transmitter power.

Question 27

What is absorption?

Answer 27

When a radio signal is weakened or eliminated as a result of passing through, or failing to pass through, a medium such as a building.

Question 28

What is diffraction?

Answer 28

When radio waves pass close to the edge of a large solid object through which they cannot pass and their travel is bent.

Question 29

True or False. VHF signals travel in straight lines and must be able to pass directly from the transmitting antenna to the receiving antenna with no significant obstructions.

Answer 29

True

Question 30

List and define various communications systems used in aviation

Answer 30

Morse code: a simple and internationally recognisable code. Identifies radio navigation aids.

Radios: HF, VHF & UHF used for communication with aircraft.

Controller Pilot Data Link Communication (CPDLC): allows a sophisticated text based exchange between Air Traffic Control and pilots which mirrors voice communications.

Selective calling system (SELCAL): replaces voice with coded tones. Silences HF communications receiver until a relevant tone code is received.

Question 31

What are the levels of the readability scale?

Answer 31

1. Unreadable
2. Readable now and then
3. Readable but with difficulty
4. Readable
5. Perfectly readable

Question 32

Define the phonetic alphabet

Answer 32

A set of internationally accepted words that are used to clearly represent each letter of the alphabet.

Question 32

True or False. The individual digits of altitudes, cloud height, visibility and runway visual range are always transmitted.

Answer 32

False.

Numbers in these categories which contain whole hundreds and or whole thousands must be transmitted by pronouncing each digit in the number of hundreds or thousands followed by the word HUNDRED or THOUSAND as appropriate.

e.g. 1800 - wun ait hundred

Question 33

How should altitudes above the transition layer of standard pressure 1013.25HpA be expressed?

Answer 33

Flight Level ‘Altitude’

e.g. FL 185 (Flight Level wun ait fife)

Question 34

How are altimeter settings defined?

Answer 34

By either “QNH” (observational/actual) or “AREA QNH” (forecast area)

Question 35

What must headings always be prefixed by?

Answer 35

‘Heading’ and the direction of turn.

Question 36

What is group form?

Answer 36

The grouping of numbers into pairs, or where a number ending in “00” is spoken in hundreds. For three digit numbers, the second and third numbers are grouped.

EASTERN 1220 - EASTERN TWELVE TWENTY
CLASSIC 12 - CLASSIC TWELVE
VIRGIN 702 - VIRGIN SEVEN ZERO TWO
BIRDOG 021 - BIRDOG ZERO TWENTY ONE

Question 37

What is the term used when ATC procedures require a reference to UTC?

Answer 37

Zulu

e.g. 0920 UTC “ZERO NINE TWO ZERO ZULU”

Question 38

What is UTC?

Answer 38

Universal Coordinated Time.

It is the successor to Greenwich Mean Time (GMT)