1 / 37

Uncontrolled copy not subject to amendment

Uncontrolled copy not subject to amendment. Airmanship Knowledge for Air Cadets Learning Outcome 1 Know types of airfield operations used for the control of aircraft. Revision 2.00. Contents. Control Towers Controllers Communication Systems Visual Communications RADAR Radio Aids.

ahenderson
Download Presentation

Uncontrolled copy not subject to amendment

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Uncontrolled copy not subject to amendment Airmanship Knowledge for Air CadetsLearning Outcome 1Know types of airfield operations used for the control of aircraft Revision 2.00

  2. Contents Control Towers Controllers Communication Systems Visual Communications RADAR Radio Aids

  3. Introduction On RAF Airfields all movements of aircraft, both on the ground and in the air are monitored by Air Traffic Control (ATC)

  4. 1. Control Towers

  5. The Control Tower Is always in a prominent position in the aircraft manoeuvring area Houses electronic and radio equipment May have a Bird Control Unit (BCU)

  6. The size and design of Air Traffic Control Towers vary considerably.

  7. 2. Controllers

  8. Aerodrome Controller Is in charge of movements: On the ground In the air Is sometimes called: Airfield Controller Local Controller

  9. Approach Controller The Approach Controller controls aircraft: departing the airfield making instrument approaches Uses Radar displays, RT and landline communications

  10. Runway Controller For more effective control a Runway Controller may be used at airfields with a lot of take-offs and landings The Runway Controller is in direct contact with Air Traffic Controller

  11. The Runway controller can refuse aircraft permission to move onto the runway, land or take-off in some circumstances

  12. For example the Runway Controller might: Prevent an aircraft from landing with its undercarriage retracted by firing a REDflare. Stop an aircraft from taking-off which had for example a panel unlocked or a fuel leak, by showing a steady RED on the signalling lamp.

  13. The Runway Controller will also: Warn vehicles or aircraft on the ground to move clear of the landing area, by showing RED flashes on the signalling lamp Give permission to take-off, with a steady GREENon the signalling lamp

  14. 3. Commnication Systems

  15. Communication Systems Good Communications are essential to Air Traffic Control

  16. Swift and accurate contact is achieved through the use of: Special Telephones Tele-Talk Systems Radio Telephony (RT) (Ground To Air) Uses VHF and UHF to talk to aircraft and vehicles VHF and UHF provide clear lines of communication Each airfield and its section have their own frequencies

  17. 4. Visual Communications

  18. Visual Communications • 1. Stationary Object Hazard • 2. Bad Ground Markers 0.61 metres squared

  19. 3. Helicopter Operating Areas: • The ‘H’ is 4 metres high by 2 metres across • It may also have a box around the ‘H’ • Sited well clear of fixed wing aircraft

  20. 5. RADAR

  21. RADAR Stands For: RAdio Detection And Ranging

  22. 1. A RADAR system consists of a transmitter and a receiver 2. A short pulse energy is transmitted from an aerial and the receiver “listens” for an echo

  23. 3. The receiver detects which reflections are from aircraft and it determines their position, direction of travel and speed 4. This information is displayed through a cathode ray tube onto a screen. In this way radar has become the “eyes” of air traffic control

  24. Radar Aids The two main radar aids likely to be seen at Royal Air Force airfields are: Surveillance Radar Precision Approach Radar (PAR)

  25. Surveillance Radar Is used both to monitor air traffic passing through an area and as an airfield approach aid It enables the controller to locate an aircraft and direct it to a position and height near the airfield

  26. Precision Approach Radar The Controller has two screens: for the aircraft’s elevation (height) for azimuth (left and right), relating to the approach path

  27. Using the Precision Approach Radar, the Controller is able to pass instructions by RT to the pilot to guide the aircraft down the correct glide slope towards the touch-down point This procedure is called a Ground Controlled Approach (GCA)

  28. Ground Controlled Approach

  29. Precision Approach Radar PAR 2000 Radar

  30. 6. Radio Aids

  31. Radio Aids The two main radio aids likely to be seen at Royal Air Force airfields are: Digital Resolution Direction Finding (DRDF) Instrument Landing System (ILS)

  32. Digital Resolution Direction Finding (DRDF) DRDF is a common airfield approach aid It receives a transmission from an aircraft and displays it on a CRT screen as a green line called a “trace” It enables the approach controller to tell the pilot what course to fly to reach the airfield

  33. Instrument Landing System (ILS) ILS is a runway approach aid: Fixed transmitters on the ground send out a special pattern of radio signals These define a radio beam that is like a pathway in the sky The pathway leads to the touch-down point on the runway

  34. The Instrument Landing System (ILS) transmits 2 frequencies: 1. 90Hz (the aircraft is too high)

  35. 2. 150Hz (the aircraft is too low)

  36. 3. No noise = the aircraft is on a good glide path

  37. Any questions?

More Related