SACAA RADIO AIDS – DETAILED SYLLABUS

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A.10.1 BASIC RADIO THEORY

a) Electromagnetic Waves

  • Nature of electromagnetic radiation
  • Relationship between electric and magnetic fields
  • Velocity of propagation (speed of light)
  • Frequency (f), wavelength (λ), period, cycle
  • Phase and phase difference
  • Amplitude and its significance
  • Frequency spectrum and allocation
  • Frequency bands (ELF to EHF; aviation-relevant bands: LF, MF, HF, VHF, UHF, SHF)

Modulation & Signal Characteristics

  • Carrier wave concept
  • Modulation and demodulation principles
  • Amplitude Modulation (AM)
    • Modulation index
    • Advantages and limitations in aviation
  • Frequency Modulation (FM)
    • Deviation and bandwidth
    • Comparison with AM
  • Pulse modulation (basic concept)
  • Sidebands
    • Upper and Lower Sidebands
    • Double Sideband (DSB)
    • Single Sideband (SSB)
  • Bandwidth requirements
  • Designation of emission (ITU emission designators)
  • Signal-to-noise ratio (SNR) and its operational significance

b) Antennas

  • Basic antenna theory
  • Antenna characteristics
    • Gain
    • Efficiency
    • Directivity
    • Radiation pattern
  • Polarisation
    • Vertical
    • Horizontal
    • Circular
  • Polar diagrams (interpretation and use)
  • Types of antennas used in aviation
    • Dipole
    • Monopole
    • Loop
    • Directional antennas
    • Parabolic reflector

c) Wave Propagation

  • Ground waves (surface waves)
  • Direct waves (line-of-sight propagation)
  • Sky waves (ionospheric reflection)
  • Ionosphere structure and layers (D, E, F layers)
  • Critical angle and critical frequency
  • Skip distance
  • Dead space (skip zone)
  • Refraction
  • Fading (selective and multipath fading)
  • Factors affecting propagation:
    • Reflection
    • Absorption
    • Attenuation
    • Coastal refraction effects
    • Mountain effect
    • Static interference

A.10.2 AUTOMATIC DIRECTION FINDER (ADF)

a) ADF Loop Theory

  • Basic principle of direction finding
  • Loop antenna theory
    • Figure-of-eight polar diagram
    • Null position concept
  • Sense antenna function
    • Elimination of 180° ambiguity
  • Combination of loop and sense antenna

Rotating and Fixed Loop Antennas

  • Manually rotated loop systems
  • Automatic (fixed loop) ADF systems
  • Bearing determination process

Principles of Operation

  • NDB transmission characteristics
    • Frequency band (LF/MF)
    • Non-directional transmission
  • ADF receiver components
  • Bearing determination relative to aircraft heading
  • Magnetic bearing to station (QDM)
  • Magnetic bearing from station (QDR)
  • Relative bearing

Presentation and Interpretation

  • Relative bearing indication
  • Magnetic bearing interpretation
  • Homing vs tracking
  • Wind effect and drift correction
  • Station passage recognition

Coverage

  • Ground wave propagation characteristics
  • Day and night effect
  • Coastal refraction influence

Range

  • Dependence on transmitter power
  • Surface conductivity
  • Atmospheric conditions
  • Night effect range increase

Errors and Accuracy

  • Quadrantal error
  • Dip error (bank error)
  • Night effect
  • Coastal refraction
  • Mountain effect
  • Static interference
  • Electrical interference

Factors Affecting Range and Accuracy

  • Ionospheric conditions
  • Terrain
  • Thunderstorms
  • Aircraft attitude
  • Receiver calibration

RBI and RMI

  • RBI (Relative Bearing Indicator)
    • Fixed card presentation
    • Relative bearing reading only
  • RMI (Radio Magnetic Indicator)
    • Rotating compass card
    • Direct magnetic bearing display
    • Dual-needle capability (ADF/VOR integration)

A.10.3 VHF OMNI-DIRECTIONAL RANGE (VOR)

Principles of Operation

  • VHF frequency band (108.00–117.95 MHz)
  • Line-of-sight propagation
  • Reference phase and variable phase signals
  • Phase comparison principle
  • Radial concept (FROM station)
  • Bearing determination

Presentation and Interpretation

  • OBS (Omni Bearing Selector)
  • TO/FROM indication
  • Radial interception
  • Tracking procedures
  • Station passage identification

Coverage

  • Line-of-sight limitations
  • Classification of VOR stations:
    • Terminal (T-VOR)
    • Low altitude (L-VOR)
    • High altitude (H-VOR)

Range

  • Dependence on altitude
  • Service volume categories
  • Geographical limitations

Errors and Accuracy

  • Site error
  • Scalloping
  • Bends
  • Propagation error
  • Instrument error

Factors Affecting Range and Accuracy

  • Terrain shielding
  • Multipath interference
  • Atmospheric conditions
  • Aircraft altitude

CDI and RMI

CDI (Course Deviation Indicator)

  • Lateral deviation indication
  • Sensitivity (dots displacement)
  • Full-scale deflection values
  • Intercept angles

RMI (Radio Magnetic Indicator)

  • Bearing pointer operation
  • Integration with magnetic heading
  • Situational awareness enhancement

Doppler VOR

  • Principle of Doppler effect application
  • Frequency modulation simulation
  • Advantages over conventional VOR
    • Reduced site error
    • Improved accuracy
  • Identification characteristics

A.10.4 DISTANCE MEASURING EQUIPMENT (DME)

  • Principles of operation
    • Pulse interrogation and reply
    • Time delay measurement
    • Slant range concept
  • Presentation and interpretation
    • Distance display
    • Groundspeed and time-to-station (if applicable)
  • Coverage characteristics
  • Maximum and practical range
  • Errors and accuracy
    • Slant range error
    • Multipath error
  • Factors affecting range and accuracy

A.10.5 BASIC RADAR PRINCIPLES

  • Primary radar principle
  • Pulse techniques
  • Radar terminology:
    • Pulse Repetition Frequency (PRF)
    • Pulse Repetition Time (PRT)
    • Pulse length
    • Duty cycle
    • Peak and average power
    • Range resolution
    • Azimuth resolution

A.10.6 GROUND RADAR

  • Principles of operation
  • Presentation and interpretation (PPI display)
  • Coverage
  • Range determination
  • Errors and accuracy
  • Factors affecting range and accuracy
    • Ground clutter
    • Sea clutter
    • Shadowing
    • Anomalous propagation
  • Application for navigation

C.10.7 SECONDARY SURVEILLANCE RADAR (SSR)

  • Principles of operation
    • Interrogation and reply system
  • Presentation and interpretation
  • Modes and codes:
    • Mode A
    • Mode C
    • Mode S
  • Transponder operation
  • Identification features

A.10.8 AIRBORNE WEATHER RADAR

  • Principles of operation
    • Pulse radar
    • Reflectivity concept
  • Presentation and interpretation
    • Tilt control
    • Gain control
    • Colour coding
  • Coverage
  • Range limitations

A.10.9 RADIO ALTIMETER

  • Principles of operation
    • Frequency-modulated continuous wave (FMCW) principle
  • Operating frequency band
  • Presentation and interpretation
  • Errors and accuracy
    • Terrain reflectivity
    • Bank angle effects
    • Signal absorption

A.10.10 EMERGENCY LOCATOR TRANSMITTER (ELT)

  • Principles of operation
  • Operating frequencies
    • 121.5 MHz
    • 406 MHz
  • COSPAS-SARSAT system overview
  • Testing procedures and limitations

A.10.11 AREA NAVIGATION (RNAV)

VOR/DME Area Navigation

  • Principle of operation
  • Waypoint generation
  • Advantages and disadvantages
  • Accuracy
  • Reliability
  • Coverage limitations
  • Required flight deck equipment

A.10.12 SATELLITE ASSISTED NAVIGATION (GNSS / NAVSTAR GPS)

  • System components
    • Space segment
    • Control segment
    • User segment
  • Principle of operation
    • Trilateration
    • Pseudorange measurement
  • Advantages and disadvantages
  • Navigation system performance requirements
    • Accuracy
    • Integrity
    • Continuity
    • Availability
  • Reliability and integrity monitoring (RAIM concept)
  • Authorisation and documentation requirements
  • Errors and limitations
    • Satellite clock error
    • Ionospheric error
    • Multipath
    • Geometry (GDOP)
  • Human factors and GNSS

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