typical radar geometry - dronacharyaggn.dronacharya.info/.../viisem/radar_unit-2.pdf · typical...
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TYPICAL RADAR GEOMETRYREFLECTED SIGNAL
REFLECTING TARGETTRANSMITTED SIGNAL
TRANSMIT AND RECEIVE ANTENNA
REFLECTING TARGET, APPARENT SIZE
A TYPICAL RADAR SYSTEM CONSISTS OF A CO- LOCATED PULSED TRANSMITTER AND A RECEIVER,USUALLY SHARING AN ,ANTENNA.
A PULSE IS TRANSMITTED AND THEN THE RECEIVER LISTENS FOR THE RETURN.
THE STRENGTH OF THE RETURN SIGNAL DEPENDS UPON THE DISTANCE TO THE TARGET AND ITS (ELECTRICAL) SIZE.
THE RADAR DETERMINES THE DISTANCE TO THE TARGET FROM
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THE RADAR DETERMINES THE DISTANCE TO THE TARGET FROM THE TIME DELAY BEFORE RECEIVING THE REFLECTED PULSE.
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RADAR
ACRONYM FOR RADIO DETECTION AND RANGING
RADAR CAN BE THOUGHT OF AS A PAIR OF ONE – WAY COMMUNICATION LINKS, WITH THE RETURN LINK BEING THE RADAR REFLECTION.
CONSIDER THE RADAR PROBLEM,WHERE IN GENERAL THE ,TRANSMITTER AND RECEIVER ARE CO-LOCATED AND THE RECEIVED SIGNAL IS A REFLECTION.
THE EXPRESSION FOR POWER DENSITY AT ATHE EXPRESSION FOR POWER DENSITY AT A
DISTANCE d IS: W = PT . GR / 4πd2 watts / m2
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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RADAR EQUATION
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TIME DELAY RANGING
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PULSE RADAR
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PULSE RADAR CONTINUED
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PULSE RADAR CONTINUED
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PULSE RADAR CONTINUED
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MINIMUM DETECTION RANGEMINIMUM DETECTION RANGE
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PULSED WAVEFORM
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RANGE AMBIGUITIES
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RADAR RANGE RESOLUTIONRADAR RANGE RESOLUTION
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RANGE RESOLUTION
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CLUTTER AND INTERFERENCE
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THERMAL NOISE
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THERMAL NOISE POWER
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SIGNAL TO NOISE RATIOSIGNAL TO NOISE RATIO
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RANGE MEASUREMENT
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INTEGRATION OF PULSES
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INTEGRATION OF RADAR PULSES
NO OF PULSES RETURNED FROM A POINT TGT, nB = θB . fpθS
θB = ANT BW (DEG)θB ANT BW (DEG)fp = PRFθ S = ANT SCANNING RATE , DEG / SEC. (θs = 6ωr
ANT SCN RATE RPMωr = ANT SCN RATE , RPM
ALL PRACTICAL INTEGRATION TECHNIQUES EMPLOY SOME SORT OF STORAGE DEVICESOME SORT OF STORAGE DEVICE
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INTEGRATION
PREDETECTION
(COHERENT)POST DETECTION
(NON COHERENT)(COHERENT) (NON COHERENT)
PREDETECTION INTEGRATION REQUIRES THATPREDETECTION INTEGRATION REQUIRES THAT PHASE OF THE ECHO SIGNAL BE PRESERVED.
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INTEGRATION CONTINUEDINTEGRATION CONTINUED
POSTDETECTION INTEGRATION IS NOT CONCERNED WITH PRESERVING RF PHASEWITH PRESERVING RF PHASE.
POST DETECTION INTEGRATION IS LESS EFFICIENTPOST DETECTION INTEGRATION IS LESS EFFICIENT THAN PREDETECTION INTEGRATION
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INTEGRATION CONTINUEDINTEGRATION CONTINUED
PREDETECTION INTEGRATION
S / N RATIO = n* S/N RATIO OF A SINGLE PULSE
( FOR n PULSES INTEGRATED)
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INTEGRATION CONTINUED
POST DETECTION INTEGRATION
INTEGRATION CONTINUED
POST DETECTION INTEGRATION
S / N RATIO WILL BE LESS THAN THE PREDETECTION CASE .
THE LOSS IN INTEGRATION EFFICIENCY IS CAUSEDTHE LOSS IN INTEGRATION EFFICIENCY IS CAUSED BY NON – LINEAR ACTION OF SECOND DETECTOR , WHICH CONVERTS SOME OF SIGNAL ENERGY TO
NOISE ENERGYNOISE ENERGY.
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INTEGRATION EFFICIENCYINTEGRATION EFFICIENCY
Ei(n)= (S/N)Ii( ) ( )I
n SN n
(S/N)I = VALUE OF S/N RATIO OF A SINGLE PULSE REQUIRED TO PRODUCE GIVEN PROBABILITY OFREQUIRED TO PRODUCE GIVEN PROBABILITY OF DETECTION (n=I)
(S/N)n = VALUE OF S/N RATIO PER PULSE REQUIRD TO PRODUCE SAME PROBABILITY OF DETECTION WHEN PULSES ARE
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OF DETECTION WHEN n PULSES ARE INTEGRATED.
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INTEGRATION IMPROVEMENT C O ( )FACTOR (Ii(n))
Ii (n) = IMPROVEMENT IN S/N RATIO WHEN n PULSESARE INTEGRATED POST DETECTIONARE INTEGRATED POST DETECTION= n Ei(n)
Ii (n) FOR PREDETECTION INTEGRATION) = n
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RADAR RANGE EQUATION (WITH PULSES INTEGRATED)(WITH n PULSES INTEGRATED)
R4MAX = Pt G A e σ
(4π)2 K TO BnFn (S/N)n
(S/N) n –S/N RATIO OF ONE OF n PULSES INTEGRATED
SUBSTITUTING Ei(n) = (S/N)1n(S/N) nn(S/N) n
R4MAX = Pt G Ae σ n EI(n)
(4π)2 K TO Bn Fn (S/N) I(4π) K TO Bn Fn (S/N) I
VALUES OF (S/N)I AND n Ei(n) ARE FOUND FROM THE AVAILABLE DATA (FIGURES /GRAPHS)
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( )
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DWELL TIMEDWELL TIME
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RADAR CROSS - SECTION
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RADAR CROSS SECTION OF TARGETS (σ)
RAILEIGH
REGION1
RESONANCE OPTICAL
1
σ SPHEREREGION REGION
σ SPHERE
Π a2
2Πθ / λσ IS A MEASURE OF TARGETS’S SIZE ,SHAPE &
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σ IS A MEASURE OF TARGETS S SIZE ,SHAPE & COMPOSITION.
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RADAR CROSS SECTION OF TARGET
RAYLEIGH REGION {(2Π a / λ) < < 1}RAYLEIGH REGION {(2Π a / λ) < < 1}
σ α f4
σ IS DETERMINED MORE BY VOLUME OF TARGET THANσ IS DETERMINED MORE BY VOLUME OF TARGET THAN ITS SHAPE.
OPTICAL REGION {(2Π a / λ) >> 1}OPTICAL REGION {(2Π a / λ) >> 1}
SCATTERING FROM A/C & SHIPS AT MW FREQUENCY IS IN OPTICAL REGION.IS IN OPTICAL REGION.
RADAR X SECTION IS AFFECTED MORE BY SHAPE OF THE OBJECTS THAN ITS
44PROJECTED AREA.
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RADAR CROSS SECTION OF TARGET
RESONANCE REGION {(2Π a / λ) = 1}
RADAR CROSS SECTION OSCILLATES AS A FUNCTION OF FREQUENCY.
SIMPLE TARGETS : SPHERE, CYLINDER, FLAT PLATE ROD,CONE.
•0.3 m ( 1ft ) SQUARE PLATE HAS σ = 113 m2
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WHEN VIEWED NORMAL TO THE SURFACE.
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RADAR CROSS SECTION OFRADAR CROSS SECTION OF TARGET
EFFECT OF TARGET SHAPE:
IN OPT REGION ( ƒ↑ ) , λ IS SMALL COMPARED TO OBJECT DIMENSIONS , SHAPE OF A OBJECT HAS A FAR GREATER EFFECT ON THAN DOES ITS PHYSICAL SIZEGREATER EFFECT ON σ THAN DOES ITS PHYSICAL SIZE.
AT 3 GHZ : 1m2 FLAT PLATE = 1000 m2 (σ )
: 1m2 CONE SPHERE = 0.001 m2 (σ )
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RADAR CROSS SECTION OF TARGET
NOTE CHANGES IN RADAR CROSS SECTION BY ASNOTE: CHANGES IN RADAR CROSS - SECTION BY AS MUCH AS IS 15 dB CAN OCCUR FOR A CHANGE IN ASPECT OF ONLY 1/3° IN CASE OF AN AIRCRAFT.
COMPLEX TARGETSCOMPLEX TARGETS
AIRCRAFT, MISSILE, SHIP GROUND VEHICLES, BUILDINGS etc.
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RADAR CROSS-SECTION AT MINIMUM FREQUENCY
TARGET OBJECT SQ MSMALL SINGLE ENGINE AIRCRAFT 1SMALL TIGHTER/ 4 PASSENGER JET 2LARGE FIGHTER 6LARGE FIGHTER 6LARGE BOMBER 40JUMBO JET 100
HELICOPTER 3
AUTOMOBILE 100
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AUTOMOBILE 100
BICYCLE / MAN 2/1
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RADAR CROSS-SECTION ATRADAR CROSS SECTION AT MINIMUM FREQUENCY
TARGET OBJECT SQ MTARGET OBJECT SQ M
LARGE BIRD / MEDIUM BIRD 10-2/ 10-3
LARGE INSECT/ SMALL INSECT 10-4 / 10-5
10 000 TOW SHIP10,000 TOW SHIP10,000 m
2
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RADAR CROSS SECTION
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RCS TARGET TYPES
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RCS TARGET TYPES
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SCATTERING MECHANISMS
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RCS REDUCTION METHOD
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RADAR CLUTTER
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AREA CLUTTER
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WAYS TO MITIGATE CLUTTER
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VOLUME CLUTTER
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FACTORS THAT AFFECT RADARFACTORS THAT AFFECT RADAR PERFORMANCE
SIGNAL RECEPTIONRECEIVER BANDWIDTHPULSE SHAPEPOWER RELATIONBEAM WIDTHBEAM WIDTHPULSE REPETITION FREQUENCYANTENNA GAINRADAR CROSS SECTION OF TARGET
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FACTORS THAT AFFECT RADAR PERFORMANCERADAR PERFORMANCE
SIGNAL TO NOISE RATIOSIGNAL-TO-NOISE RATIORECEIVER SENSITIVITYPULSE COMPRESSIONPULSE COMPRESSIONSCAN RATE
–MECHANICALMECHANICAL–ELECTRONIC–CARRIER FREQUENCY
ANTENNA APERTURE
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PULSE EFFECTS ON RADAR PERFORMANCE
PULSE SHAPEPULSE WIDTHPULSE COMPRESSIONPULSE POWER
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PULSE SHAPEPULSE SHAPEDETERMINES RANGE ACCURACY AND MINIMUM AND MAXIMUM RANGEAND MAXIMUM RANGE.
IDEALLY WE WANT A PULSE WITH VERTICALIDEALLY WE WANT A PULSE WITH VERTICAL LEADING AND TRAILING EDGES.
VERY CLEAR SIGNAL – EASILY DISCERNED WHEN LISTENING FOR THE ECHO.
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PULSE WIDTH
DETERMINES THE RANGE RESOLUTION.DETERMINES THE MINIMUM DETECTION RANGE.THE NARROWER THE PULSE THE BETTER THETHE NARROWER THE PULSE, THE BETTER THE RANGE RESOLUTION.
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PULSE COMPRESSIONPULSE COMPRESSION
INCREASES FREQUENCY OF THE WAVE WITHIN THE PULSE.ALLOWS FOR GOOD RANGE RESOLUTION WHILE PACKING ENOUGH POWER TO PROVIDE A LARGE MAXIMUM RANGEMAXIMUM RANGE.
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PULSE POWERPULSE POWER
HIGH PEAK POWER IS DESIRABLE TO ACHIEVE MAXIMUM RANGES.LOW POWER MEANS SMALLER AND MORE COMPACT RADAR UNITS AND LESS POWER REQUIRED TO OPERATEREQUIRED TO OPERATE.
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OTHER FACTORS AFFECTING PERFORMANCE
SCAN RATE AND BEAM WIDTHNARROW BEAM REQUIRE SLOWER ANTENNANARROW BEAM REQUIRE SLOWER ANTENNA ROTATION RATE.
PULSE REPETITION FREQUENCYDETERMINES RADARS MAXIMUM RANGE (TACTICAL FACTOR)(TACTICAL FACTOR).
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OTHER FACTORS AFFECTINGOTHER FACTORS AFFECTING PERFORMANCE
CARRIER FREQUENCYDETERMINES ANTENNA SIZE BEAM DIRECTIVITYDETERMINES ANTENNA SIZE, BEAM DIRECTIVITY
AND TARGET SIZE.
RADAR CROSS SECTION (WHAT THE RADAR CAN SEE(REFLECT))
FUNCTION OF TARGET SIZE SHAPE MATERIALFUNCTION OF TARGET SIZE, SHAPE, MATERIAL, ANGLE AND CARRIER FREQUENCY.
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SYSTEM LOSSESSYSTEM LOSSES
TYPE 1 PLUMBING LOSSBEAM SHAPE LOSSSCANNING LOSSLIMITING LOSSCOLLAPSING LOSS
CAN BE CALCULATEDCOLLAPSING LOSS
STRADLING LOSSPROPAGATION EFFECTS
CALCULATED
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SYSTEM LOSSESSYSTEM LOSSES
TYPE II: FIELD DEGRADATOINNON IDEAL EQUIPMENT
NOT EASILY
SUBJECTOPERATOR FATIGUE TO
CALCULATION
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PLUMBING LOSS
TRANSMISSION LINE LOSS; LESSER AT LOWER ;RADAR FREQUENCIES
CONNECTOR LOSS:
INSERTION LOSS: LOSS DUE TO INSERTION OFINSERTION LOSS: LOSS DUE TO INSERTION OF COMPONENT INTO TRANSMISSION LINE (DULPEXER)- 1dB APPROX
ARC LOSS
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EXAMPLE- PLUMBING LOSS
TRANS LINE LOSS (TWO WAY) 1.0 dB( )
LOSS DUE TO POOR CONNECTION 0.5 dB
ROTARY JOINT LOSS 0.4 dB
DUPLEXER LOSS 1.5 dB
TOTAL (PLUMBING LOSS) 3.4 dB
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BEAM SHAPE LOSS
ANTENNA GAIN(G)-ASSUMED CONSTANT (MAX)
BEAM SHAPE LOSS
( ) ( )BUT IT IS NOT SO.
ACTUALLY GAIN CHANGES FROM PULSE TO PULSE
IF WE INTEGRATE 11 PULSES, ALL LYING UNIFORMLY BETWEEN 3 DB BANDWIDTH, THE LOSS IS 1.96 DB
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SCANNING LOSS
WHEN ANENNA SCANS RAPIDLY ENOUGH THAT THE GAIN ON TRANSMIT IS NOT THE SAME AS THE GAIN ON RECEIVE.
SCANNING LOSS IS IMPORTANT FOR RAPID- SCAN ANTENNAS OR VERY LONG RANGE RADARS.
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LIMITING LOSS
LIMITING IN RADAR RX CAN LOWER THE PROBABILITY OF DETECTION.
SOME SPECIAL PURPOSE RX’S DO USE LIMITING(EX-FOR PULSE COMPRESSION).
LIMITING LOSS FRACTION OF A DBLIMITING LOSS= FRACTION OF A DB.
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COLLAPSING LOSSTHIS LOSS RESULTS WHEN RADAR
COLLAPSING LOSS
INTEGRATES ADDITIONAL NOISE SAMPLESALONGWITH WANTED (S/N) PULSES.
IT ALSO HAPPENS WHEN O/P OF TWO RADARS CO O ORX’S ARE COMBINED AND ONLY ONE
CONTAINS SIGNAL AND OTHER CONTAINSNOISENOISE.
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STRADLING LOSS
IN RANGE GATE TRACKING:
STRADLING LOSS
IN RANGE GATE TRACKING:
GATES MAY BE WIDER THAN THE OPTIMUM.
TARGETS MAY NOT BE AT THE CENTRE OF RANGE GATESRANGE GATES.
THESE TWO FACTORS INTRODUCE ADDITIONAL NOISE AND HENCE DEGRADATION IN PERFORMANCE.
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FIELD DEGRADATION = 3 dBFIELD DEGRADATION 3 dB
FACTORS CONTRIBUTING TO FIELD DEGRADATION
POOR TUNINGPOOR TUNINGWEAK TUBESWATER IN TRANSMISSION LINESINCORRECT MIXER CRYSTAL CURRENTINCORRECT MIXER- CRYSTAL CURRENTPOOR RECEIVER NOISE FIGURELOOSE CABLE CONNECTION ETC
REMEDY: BUILT IN AUTOMATIC PERFORMANCE MONITORING EQUIPMENT.
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NON-IDEAL EQUIPMENTNON IDEAL EQUIPMENT
POOR QUALITY TRANSMITTING TUBES
TRANSMITTER POWER DIFFERS FROM DESIGN VALUE(=2 dB)
VARIATION IN RECEIVER NOISE FIGURE
NON- MATCHED FILTER (=1 dB)
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OPERATOR LOSS
OPERATOR EFFICIENCY FACTOR 0 7(P )2
OPERATOR LOSS
OPERATOR EFFICIENCY FACTOR p0=0.7(Pd)2
Pd =SINGLE SCAN PROB. OF DETECTION.d
OPERATOR SHOULD BE FULLY TRAINED TO CORRECT ANY LOSS IN OPERATOR PERFORMANCECORRECT ANY LOSS IN OPERATOR PERFORMANCE.
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SYSTEM LOSSESLOSS DUE TO INTEGRATION OF PULSESLOSS DUE TO INTEGRATION OF PULSES.
MICROWAVE PLUMBING LOSS.
TRANSMISSION LINE LOSS. ( 1.4 - 2.08 Db/100 ft.)
LOSS DUE TO TARGET CROSS SECTION
FLUCTUATIONS.
DUPLEX LOSS. (≈ 2dB).( )
ANTENNA LOSSES.
BEAM SHAPE LOSSBEAM SHAPE LOSS.
SCANNING LOSS.
RADOME LOSS (1 2 Db)80
RADOME LOSS (1.2 Db).
PHASED ARRARY LOSS
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SYSTEM LOSSESSYSTEM LOSSESSIGNAL PROCESSING LOSS
NON MATCHED FILTERS ( 5dB 1dB)NON MATCHED FILTERS (.5dB-1dB)
CFAR RECEIVER (2dB)
AUTOMATIC INTEGRATORS (1.5dB-2dB)
THRESHOLD SETTING (FRACTION OF A dB)
LIMITTING LOSS ( 1 dB)
STRADLING LOSS ( RANGE)( )
SAMPLING LOSS (≈2dB)
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SYSTEM LOSSESSYSTEM LOSSESCOLLAPSING LOSS
LOSSES IN DOPPLER PROCESSING RADARLOSSES IN DOPPLER PROCESSING RADAR
EQPT DEGRADATION (1dB-3dB)
PROPOGATION EFFECTS
ECLIPSING LOSS
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SYSTEM LOSSESSYSTEM LOSSESMICROWAVE PLUMBING LOSS
TRANSMISSION LINE LOSSTRANSMISSION LINE LOSSFREQUENCY BAND ATTENUATION dB/100ft
LOWEST TO HIGHESTLOWEST TO HIGHEST FREQUENCY
L ·201 - ·136
S 1·102 - ·752
C 2·08 1·44C 2·08 - 1·44
X 6·45 - 4·48
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KU 9·51 - 8·31
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SYSTEM LOSSESDUPLEXER LOSS : 2dB APPROXDUPLEXER LOSS : 2dB APPROX.
EXAMPLE : S BAND ( 3GHZ) RADAR
TWO WAY MICROWAVE PLUMBING LOSS.
100 ft (WAVE GUIDE) 1.0dB
DUPLEXER 2.0dB
ROTARY POINT 0.8dB
CONNECTORS, BENDS
& OTHER RF DEVICES 0 7dB& OTHER RF DEVICES 0.7dB
---------
TOTAL 4 5dB84
TOTAL 4.5dB
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SYSTEM LOSSESCOLLAPSING LOSS : (LC)
THIS LOSS IS THE DEGRADATION THAT RESULTS WHEN RADAR INTEGRATES ADDITIONAL NOISE PULSES ALONG WITH SIGNAL PLUS – NOISE PULSES.
L ( ) Li (m+ n)Lc (m, n) = Li (m+ n)
Li ( n)
WHERE Li (m+ n) = INTERNAL LOSS FOR (m+ n) PULSES(m+ n) PULSES.
Li ( n) = INTERNAL LOSS FOR n PULSES.
NOISE PULSES85
m = NOISE PULSES
N = SIGNAL TO NOISE PULSES
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SYSTEM LOSSES
INT LOSS (Li) = 10 log {1/ Ei (n)}( )
WHERE Ei = INTEGRATION EFFICIENCY ( POST DETECTION)
g { ( )}
Ei (n) = (S/N) RATIO PER PULSEEi (n) ( )
REQUIRED ( S/N) RATIO PER PULSE WHEN n PULSES ARE INTEGRATED PREDETECTION INFORMATION LOSS
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Ii (n) = INT IMPROVEMENT FACTOR
= n Ei (n)
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SYSTEM LOSSES
NOTE : FOR SAME INTEGRATED SIGNAL TO NOISENOTE : FOR SAME INTEGRATED SIGNAL TO NOISE RATIO ; POST DETECTION INTEGRATION REQUIRES MORE PULSES THAN PRE – DETECTION; ASSUMING THE SIGNAL –TO-NOISE RATIO PER PULSE IN THE TWO CASES IS THE SAME.
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PROPOGATION EFFECTSPROPOGATION EFFECTS CAN INCREASE / DECREASE THE FREE SPACE RANGE.
FACTORS – PROPOGATION
REFLECTION FROM EARTH’S SURFACE.(FORWARDREFLECTION FROM EARTH S SURFACE.(FORWARD
SCATTERING)
REFRACTION INCREASES THE RANGE
DUCT PROPOGATION INCREASES THE RANGE
PROPOGATION EFFECTS ARE ACCOUNTED FOR SEPARATELY AND ARE NOT CONSIDERED A PART OF THE SYSTEM LOSSES
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PROPOGATION EFFECTSPROPOGATION EFFECTSF4, THE PROPOGATION FACTOR INCLUDES THE EFFECT OF LOBING OF ELEVATION ANT PATTERN , DUE TO O G O O , U OREFLECTION FROM EARTH’S SURFACE AND OTHER FACTORS EXCEPT ATTENUATION.
DIFFRACTION – (APPLIES AT LF- SDDOM USED FOR RADAR APPLICATIONS)
ATTENUATION – ( LITTLE EFFECT ON MW PROPOGATION)
EXTERNAL NOISE – INCREASE THE Rx NOISE LEVEL (HOSTILE JAMMING)(HOSTILE JAMMING)
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PROPOGATION EFFECTS
ATMOSPHERE LENS – EFFECT LOSS
THE VARIATION OF REFRACTIVEINDEX WITH ATTITUDE CAUSES THE ATMOSPHERE TO ACT AS A
-VE LENS THAT DECREASES THE RADIATED ENERGY INCIDENT ON A TARGET.
FARADAY ROTATION OF POLARISATION:
( α 1 / f2)
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PROPAGATION EFFECTSPROPAGATION EFFECTS
DECREASING DENSITY OF THE ATMOSPHERE WITH INCREASING ALTITUDE RESULTS IN BENDING ORINCREASING ALTITUDE RESULTS IN BENDING OR REFRACTION OF RADAR WAVES.
BENDING USUALLY RESULTS IN AN INCREASE IN THE RADAR LOS. THIS IS EQUIVALENT TO EARTH HAVING 4/3 TIMES ITS ACTUAL RADIUS4/3 TIMES ITS ACTUAL RADIUS .
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PROPAGATION EFFECTSPROPAGATION EFFECTS
EFFECT OF NON – FREE – SPACE PROPAGATION
ATTENUATION OF RADAR WAVES THROUGH ATMOSPHERE.
REFRACTION OF RADAR WAVES BY EARTH’SREFRACTION OF RADAR WAVES BY EARTH’S ATMOSPHERE.
LOBE STRUCTURE DUE TO INTERFERENCE BETWEEN DIRECT WAVE AND REFLECTED WAVE FROM GROUND .
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SUPER- REFRACTION / DUCTINGSUPER REFRACTION / DUCTING
RADAR RANGE GETS CONSIDERABLYRADAR RANGE GETS CONSIDERABLYINCREASED DUE TO SUPER REFRACTION / DUCTING.
DUCT IS FORMED WHEN UPPER AIR IS WARM AND DRY IN COMPARISON WITH AIR AT SURFACE .
TEMP INVERSION – TEMP INCREASES WITH HEIGHTHEIGHT
IT DEGRADES THE PERFORMANCE OF MTI
93RADAR (CLUTTER SEEN AT EXTENDED RANGE)
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EFFECT OF REFLECTION FROM EARTH’S SURFACEEARTH’S SURFACE
ENERGY PROPAGATES DIRECTLY FROM RADAR TO TARGET.
ENERGY ALSO TRAVELS TO TARGET VIA A PATH THAT INCLUDES A REFLECTION FROM GROUNDTHAT INCLUDES A REFLECTION FROM GROUND.
THE DIRECT AND GROUND REFLECTEDWAVES INTERFERE AT TGT CONSTRUCTIVELY OR DESTRUCTIVELY TO PRODUCE REINFORCEMENT OR NULLS
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REINFORCEMENT OR NULLS.
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