RDR - 3

Question 1

Describe common RADAR systems.
- Search Radar systems

Answer 1

• A search RADAR must scan a volume of space at regular
  intervals to locate targets.
• The RADAR beam is scanned repeatedly over that entire
  volume.
• Search RADARs maybe also referred to as Surveillance or
  Acquisition RADARs.
• Search RADARs scan using a 2 or 3 dimensional (2D-3D)
  process.
• 2 Dimensional Search RADARs are able to obtain Target
  Azimuth and Range.
• 3 Dimensional Search RADARs are able to obtain Target
  Azimuth, Range and Elevation.

Question 2

Describe common RADAR systems.
- Tracking Radar systems

Answer 2

• Target tracking requires greater accuracy and higher data rates.
• Tracking RADARs use narrow beams to follow a target in track.
• Tracking RADARs provide continuous update of target range, azimuth and
  elevation.
• Tracking RADAR normally works in conjunction with search RADAR.

Question 3

Describe Search radar - 2D Scan

Answer 3

• The RADAR beam is narrow in azimuth but broad
  in elevation to ensure coverage of the desired
  volume of space.
• Targets are at the same azimuth but different
  ranges are resolved in range and azimuth.
• Targets at different azimuths and the same range
  are resolved in range and azimuth.
• Targets at the same azimuth and range, with large
  separation in elevation are not resolved.
  A single target is detected and displayed.

Question 4

Describe Search radar - 3D Scan

Answer 4

• 3D RADARs use a single antenna and
  vertically stacked beams to resolve range,
  azimuth and elevation. The RADAR beams
  must have both a narrow horizontal and
  vertical beam width.

Question 5

Describe common RADAR antenna effect radiation patterns.

how does the antenna effect the transmitted wave

Answer 5

*The RADAR function determines the antenna radiation pattern
required.
*The physical shape of the antenna will determine the radiation
pattern.
*The physical size of the antenna will be determined by the Radio Frequency.

Question 6

Describe pencil beam

Answer 6

• Both narrow vertical and horizontal beamwidths.
• Resolution in both azimuth and elevation.
• Primarily for tracking RADAR applications.

Question 7

Describe fan beam

Answer 7

• Search Application.
• directional antenna producing a main beam having a narrow beamwidth in one dimension and a wider beamwidth in the other dimension.
• Narrow horizontal beamwidth enables azimuth resolution.
• Broad vertical beamwidth enables volumetric coverage of wide angular regions in the elevation plane.

Question 8

Describe shaped or spoiled beam

Answer 8

Beam shaped or spoiled to produce more energy
above or below the antenna centerline.

(Maritime radar)

Question 9

Describe arrays

Answer 9

• An array is comprised of a number of individual radiators.
• These radiators may be a series of slots in wave-guides, or individual dipoles.
• The individual radiators are known as elements.
• In more advanced arrays, each element may be individually controlled in Phase and Amplitude.

Question 10

State the characteristics of the following RADAR antennas
- Slotted Waveguide

Answer 10

• The slotted waveguide is comprised of a number of slots cut into a single waveguide.
• If the slots are arranged in a line the antenna is referred to as a linear array.
• Energy is fed into one end of the waveguide and propagates from
  the slots cut in the waveguide face.
• The slots are spaced at approximately 1/2 wavelength such that the slots fall within each others induction field.
• The fields interact to produce a radiation pattern that is the sum of
  the individual slots (elements).

Usually on maritime vessels

Question 11

State the characteristics of the following RADAR antennas
- Cassegrain

Answer 11

• Contains 2 reflectors.
• Feed at the rear of the primary reflector
• A secondary reflector focuses radiation on the primary
  reflector for beam forming.

Question 12

State the characteristics of the following RADAR antennas
- Parabolic

Answer 12

• The true parabolic antenna shape focuses the radiation from the feed into a pencil beam.
• Different reflector shapes can be used to form differing beams patterns.

Question 13

State the characteristics of the following RADAR antennas
- Phased Arrays

Answer 13

Single transmitter/receiver

Each element can be phase shifted independently (can track multiple targets)

Multiple beam shapes

Electronic Scan

Question 14

State the characteristics of the following RADAR antennas
- Planar Arrays

Answer 14

• Single transmitter/receiver
• Multiple antenna radiator elements
• Each element is in phase
• Beam forming achieved by element selection
• Mechanically scanned

Question 15

State the characteristics of the following RADAR antennas
- Active Arrays

Answer 15

• Each element is a
  separate Tx/Rx
• Electronic Scan
• Multiple Beam shapes
• Graceful degradation
• Higher efficiency

Question 16

State the characteristics of the following RADAR antennas
- Conformal Arrays

Answer 16

Conformal arrays are antenna arrays shaped to fit the object they are being attached to.