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RADAR SPECTRUM ENGINEERING CRITERIA (RSEC) A Comprehensive Review

Published byLisa Allen Modified over 9 years ago

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Presentation on theme: "RADAR SPECTRUM ENGINEERING CRITERIA (RSEC) A Comprehensive Review"— Presentation transcript:

1 RADAR SPECTRUM ENGINEERING CRITERIA (RSEC) A Comprehensive Review
ROBERT L. HINKLE Alion Science and Technology 185 Admiral Cochrane Drive Annapolis, MD 21401

2 PURPOSE ● Ensure an acceptable degree of electromagnetic compatibility among radar systems, and between such systems and those of other radio services sharing the frequency spectrum. ● Promote efficient use of the spectrum.

3 ● Last major review of RSEC conducted in 1973-1977 time frame
REASON FOR RSEC REVIEW ● Last major review of RSEC conducted in time frame ● New generation of radar systems more complex  Waveform characteristics change pulse-to-pulse  Dynamic PRF pulse trains ● Trend toward solid state output devices ● Increase in interference from radars ● ITU-R Working Party 8B (Radiodetermination) has set up a radar group to investigate feasibility of more stringent emission masks than contained in ITU-R Recommendation SM1541, Annex 8, by 2006 Radiocommunication Assembly meeting.  Work Program developed by ITU-R Working Party 8B

4 APPROACH  Develop a software program that will provide current and optional emission masks.  Identify, through measurements, emission characteristic of radars with various types of output devices, filters and antennas. Apply software program (emission masks) to measured emission characteristics to assess feasibility of establishing a more spectrum efficient emission mask. Engage the radar manufacturers and radar output device manufacturers to identify state-of-the-art capabilities. Through the IRAC/TSC, in coordination with Federal agencies, reach agreement regarding draft revised emission masks for future radar systems. This coordination is in progress.

5 RADAR CHARACTERISTICS ADDRESSED IN THE RSEC
● Emission bandwidth (40 dB) ● Emission levels ● Tuning Range ● Antenna patterns ● Frequency tolerance ● Receiver selectivity ● Image and spurious rejection ● Local-oscillator radiation

6 RSEC EMISSION MASK

7 AIRPORT SURVEILLANCE RADAR (Klystron Output device)
(radiated measurement in far field of antenna)

8 WEATHER RADAR (Klystron output Device)
(radiated measurement in far field of antenna)

9 RADIONAVIGATION RADAR (Coaxial Magnetron WO Filter)
(radiated measurement in far field of antenna)

10 RADIONAVIGATION RADAR (Coaxial Magnetron With Filter)
(radiated measurement in far field of antenna)

11 RADIONAVIGATION RADAR (Coaxial Magnetron, Slotted Array Antenna)
(radiated measurement in far field of antenna)

12 OVERVIEW OF RSEC CHANGES BEING CONSIDERED
● Add the following to Group A (Exempt from RSEC).  Maritime Radionavigation MHz  Radionavigation MHz  Aeronautical Radionavigation GHz These radars are, for the most part, not under Government control and are widely used by the private sector.

13 RSEC CHANGES BEING CONSIDERED
OVERVIEW OF RSEC CHANGES BEING CONSIDERED ● Group B (Criteria B)  Retain 40 dB bandwidth formulas  Assess feasibility of roll-off slopes of 30/40 dB per decade  Propose to change X (dB) floor level to: X (dB) =10LogP(Watts) + 30 Where: 60 dB ≤ X (dB) ≤ 80 dB Current RSEC (X) level is dependent on the power, pulse width, and prf of the radar (see section of NTIA Manual of Regulations & Procedures for Federal Radio Frequency Management).

14 RSEC CHANGES BEING CONSIDERED
OVERVIEW OF RSEC CHANGES BEING CONSIDERED ● Group C (Criteria C)  Retain 40 dB bandwidth formulas  Assess feasibility of roll-off slopes of 30/40 dB per decade  Propose to change X (dB) Level to 60 dB for near term, and consider phasing in X (dB) floor of: X (dB) =10LogP(Watts) + 30 Where: 60 dB ≤ X (dB) ≤ 80 dB Current RSEC (X) level is dependent on the power, pulse width, and prf of the radar (see section of NTIA Manual of Regulations & Procedures for Federal Radio Frequency Management).

15 RSEC CHANGES BEING CONSIDERED
OVERVIEW OF RSEC CHANGES BEING CONSIDERED ● Group D (Criteria D)  Retain all of Criteria D except change harmonic levels to dB  New solid state radars can not meet Criteria D without filters ● Group E (Criteria E)  No proposed changes

16 RELATED ITU-R ACTIVITIES
Proposed Formation of JRG 1A/1C/8B Rec. ITU-R SM.1541: Out-of-Band emissions Rec. ITU-R M.1314: Methods to reduce radar unwanted emissions Recommendation ITU-R M.1177: Techniques for measurement of radar unwanted emissions

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