Navigation Systems Introduction

Question 1

What frequency range is the NBD and in what direction does it propagate?

Answer 1

• Transmits on the range of 200-400 kHz (Low to Medium Frequency)
• Propogates in all directions

Question 2

How does the pilot use the ADF to position themselves in relation to the NBD?

Answer 2

1) The pilot tunes the appropriate NBD frequency using the ADF control panel.
2) Identifies the Morse code of the station
3) Pilot can use the compass bearing pointer to determine the position of the NBD relative to the aircraft.

Question 3

What is the max range of an NBD?

Answer 3

• ## 30 NM to 400 NM but range of each NBD USA published in ERSA for each NBD.

Question 4

What is the usable range for NBD?

Answer 4

40 to 120 NM

Question 5

Is rated coverage of NBd reduced at night?

Answer 5

Yes

Question 6

What are the errors associated with NBD?

Answer 6

M = mountain effect
I = Interference 
N = Night Effect
T = Thunderstorm Interference
Q = Quadrangle error
C = Coastal Effects

Question 7

What does VOR stand for?

Answer 7

Very High Frequency Omni Directional Radio Range.

Question 8

What are the two signals transmitted by the VOR?

Answer 8

1) Reference Phase signal (which is omnidirectional)
2) Variable phase signal (which rotates uniformly at a rate of 1800 RPM , with its phase varying at a constant rate throughout the 360)

Question 9

What frequency band do VORs operate in?

Answer 9

112 MHz to 117.95 MHz

Question 10

What are the rates coverages for VOR used for planning purposes?

Answer 10

Below 5,000 feet = 60 NM
5000 feet to 10,000 feet = 90 miles
10,000 to 15 000 feet = 120 miles
15,000 feet to below 20,000 feet = 150 miles
20,000 and above = 180 miles

Question 11

Where can actual ranges be found?

Answer 11

ERSA.

Question 12

What does one dot on the course deviation indicator equate to on the PC-21?

Answer 12

Half scale deflection or 5 degrees.

Question 13

Is the VOR more accurate that the NDB?

Answer 13

Yes

Question 14

What are the errors that affect VOR?

Answer 14

A = airborne equipment error 
V = Vertical Polarisation error
G = ground station error
A = aggregate error
S = site effect error

Question 15

What does Distance Measuring Equipment (DME) measure?

Answer 15

Slant distance to a ground station

Question 16

What frequency range does the DME operate in?

Answer 16

UHF

962 MHz to 1213 MHz

Question 17

How does the the DME equipment work?

Answer 17

Secondary radar principle

• Aircraft DME equipment transmits an interrogation signal which includes a pair of radio pulses in all directions.
• A ground based transponder receives the signal , amplifies it and after a 50 second microsecond delay, re transmits it.
• airborne equipment then calculates distance based on time to receive response pulse

Question 18

What is the DME often colocated with?

Answer 18

VOR or ILS

Question 19

What is the general rule of thumb regarding accuracy of the DME?

Answer 19

Accurate outside a distance from the station Walton the aircrafts altitude in thousands of feet.
- if aircraft is at 6000 feet, aircraft can be considered accurate outside 6 NM

Question 20

What is formula for max range of DME?

Answer 20

D = 1.25 x sqrt( H1) + 1.25 sqrt ( H2)

Question 21

What is the main limitation of the DME?

Answer 21

Line of sight (LOS)

Question 22

What does TACAN stand for and what is it?

Answer 22

Tactical Air Navigation

- it’s a military version of the VOR/DME

Question 23

What is the frequency range of the TACAN?

Answer 23

962 to 1213 MHz.

Question 24

Is TACAn info more accurate than VOR?

Answer 24

Yes

Question 25

Which stations use the X and Y beacons?

Answer 25

X beacons are used by ground stations, Y beacons are used by aircraft.

Question 26

What is the accuracy of the TAcAn?

Answer 26

Distance accurate to +- 0.1 NM and +- 0.5 degrees

Question 27

What is the rates coverage ?

Answer 27

Same as VOR and DME

Question 28

What is the cone of confusion?

Answer 28

The area directly above the TACAN where is becomes unreliable.
- Usually about 70 degrees across

Question 29

What are the two main TACAN errors?

Answer 29

1) Forty degree lock off error

2) co channel interference

Question 30

What is the ILS system?

Answer 30

Provides aircraft with both glide and tracking guidance for a precision approach to a specified runway.

Question 31

What are the two sub systems that the ILS consists of?

Answer 31

1) Localiser

2) Glideslope

Question 32

What does the localiser provide the pilot?

Answer 32

Provides lateral steering indications to assist the pilot to align the aircraft to the centreline of the runway

Question 33

What does the glideslope provide the pilot

Answer 33

Provides vertical steering indications to assist the pilot in maintaining correct runway descent path.

Question 34

How can the correct ILS frequency be identified?

Answer 34

By its Morse IDENT

Question 35

What are the ILS frequencies?

Answer 35

Localiser :108 MHz to 112 MHz
Glideslope: 329 to 335 MHz
Marker Beacon 75 MHz

Question 36

How does the localiser work?

Answer 36

Sends out a 90 Hz signal love and a 150 Hz signal lobe.

- when Frequency from the two loves is the same, the A/C is on path for runway centreline.

Question 37

How does glideslope work?

Answer 37

Similar to localiser but in the Vertical direction.

When 90 HZ and 150 Hz lines are equal , the aircraft is on centreline.

Question 38

What do the markers provide the pilots

Answer 38

Distance to the runway.

Question 39

What does the outer and middle marker distance signify?

Answer 39

Located approx 4 NM from the airfield

Middle marker is 5000 feet from the airfield.

Question 40

What are the different categories of ILS approaches?

Answer 40

CAT I
Decision height not lower than 200 feet
Runway visual range not less than 550m

Question 41

What is the ILS accuracy?

Answer 41

• At 2000 ft AGL = 25 NM
• Below 5,000 ft = 30 NM
• 5000 and above = 50 NM

Question 42

What are some errors associated with the ILS errors?

Answer 42

1) False glideslope which is formed at 12.5 degrees from the horizontal
2) reflected signals such as scalloping and beam bend.
3) FM transmission interference

Question 43

How does the inertial reference system (IRS) work?

Answer 43

It is an application of Newton’s first law
- Uses accelerometers and gyros to sense the movement of the A/C to determine position, ground speed , attitude and flight path vector information.

Question 44

How does the IRS determine position from the beginning of the flight?

Answer 44

• Starts with known latitude and longitude.

- Uses gyros and accelerometers to determine position after that.

Question 45

What is the error associated with IRS over time? What must be done to correct this?

Answer 45

Drift error

- Must be regularly updated by either GPS or use of a ground based aid.

Question 46

What does the IRS do once he position has been corrected?

Answer 46

The IRS determines its drift error and will apply that correction to further complications.

Question 47

What are the two alignment options for the IRS?

Answer 47

1) Fast Alignment

2) Complete Alignment

Question 48

What is the fast alignment for an IRS system?

Answer 48

• This takes 30 seconds and resets the IRS to calculate ground speed to zero.
• Any drift corrections registered from a previous flight are kept and applied.

Question 49

What is a complete alignment?

Answer 49

• Can take from 5-20 mins
• Drift corrections are cleared and the IRS recalculated it’s heading, altitude and position using data from external sources

Question 50

What is a strapdown IRS?

Answer 50

Comprises a CPU, optics and solid state technology.

Question 51

What type of gyroscope is used in a strap down IRS?

Answer 51

Laser ring gyro (LRG)

Question 52

How many accelerometers and gyros are used in a strap down IRS?

Answer 52

Three accelerometers and three gyros.

Question 53

What types of errors do IRS systems experience? Gimballed systems versus strap down IRS systems?

Answer 53

• Gimballed systems suffer from gimbal lock and mechanical defects.
• Strapdown IRS suffer from advanced electronics errors.

Question 54

What is IRS drift?

Answer 54

IRS are subject to inaccuracies in sensor information which lead to inaccurate position computations.

Question 55

What are the three basic portions of the GPS system?

Answer 55

1) Space Portion: Satellites that orbit the Earth
2) Control Portion: Ground stations
3) Receiver Portion: Receiver inside the aircraft that identifies each satellite.

Question 56

What are the two levels of service for GPS?

Answer 56

1) Link 1(L1) - Non Précision GPS accurate to 8 m

2) Link 2 (L2) - Accurate GPS , accurate to 4 m

Question 57

What are some GPS errors?

Answer 57

GPS interference caused by :

• Ionosphere effect
• External Interference
• Multipath effects

Question 58

What are considered the navigation brains for an aircraft?

Answer 58

The mission computer and the FMS

Question 59

What sensors does the MC use to calculate position?

Answer 59

1) Hybrid = mixed IRS and GPS
2) GPS only
3) IRS only

Question 60

Is the PC-21 used for civilian IFR operations?

Answer 60

No

Question 61

What does the FMS use to calculate the FMS position?

Answer 61

Hybrid GPS/IRS position.

Question 62

What is the estimated position uncertainty (EPU)?

Answer 62

Represents the radius of a circle around the FMS computer position in which the aircraft lies 95% of the time.

Question 63

What is the EPU compared against ?

Answer 63

The Required Navigation Performance (RNP)

- Should it exceed these values the aircraft is unable to meet the particular RNP requirements

Question 64

What should be done if the GPS fails or is deselected ?

Answer 64

FMS position will be calculated using IRS or ground based navigation aids.

Question 65

What must IFR aircraft navigate with to meet Australian Performance Based Navigation requirements?

Answer 65

IFR aircraft GPS.