Radar ppt
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About This Presentation
Presentation of Basics of RADAR and its application.
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Slide Content
RADAR
BY
PRATIBHA SHAKYA
UNDER THE GUIDANCE OF
Ms. SANTOSHI POTE
ROLL NO: 49
BY
PRATIBHA SHAKYA
UNDER THE GUIDANCE OF
Ms. SANTOSHI POTE
ROLL NO: 49
Introduction
RADAR is acronym for Radio Detection
and Ranging.
First successfully demonstrated in 1936.
It uses electromagnetic waves.
It enjoys wide range of application.
RADAR is acronym for Radio Detection
and Ranging.
First successfully demonstrated in 1936.
It uses electromagnetic waves.
It enjoys wide range of application.
Literature Survey
History
Future Researches
History
Future Researches
Principle of Working
Radar Range Equation
R
max = [P
t G б A
e /(4П)
2
S
min]
1/4
G = 4ПA
e / λ
2
A
e = Gλ
2
/ 4П
R
max = [P
t Gλ
2
б / (4П)
2
S
min]
1/4
Where Pr = power received
Pt = power transmitted
G = antenna gain
б = radar cross section of target
A
e = effective area
R
max = [P
t G б A
e /(4П)
2
S
min]
1/4
G = 4ПA
e / λ
2
A
e = Gλ
2
/ 4П
R
max = [P
t Gλ
2
б / (4П)
2
S
min]
1/4
Where Pr = power received
Pt = power transmitted
G = antenna gain
б = radar cross section of target
A
e = effective area
Types of Radar
CONTINUOUS WAVE RADAR
Advantages
Uses low transmitting power, low power
consumption.
simple circuitry, small in size.
Disadvantages
several targets at a given bearing tend to
cause confusion.
Range discrimination can be achieved only
by introducing very costly complex
circuitry.
It is not capable of indicating the range of
target an can show only its velocity.
Uses low transmitting power, low power
consumption.
simple circuitry, small in size.
Disadvantages
several targets at a given bearing tend to
cause confusion.
Range discrimination can be achieved only
by introducing very costly complex
circuitry.
It is not capable of indicating the range of
target an can show only its velocity.
Gated CW Radar
It operate on the principle of pulsed
transmit signal and gated receive path,
along with an IF section of the receiver.
does not pass the entire received pulse of
frequency, but only the central
component.
Gated-CW radars have generally been
implemented using vector network
analyzers (VNAs) as the IF receivers.
It operate on the principle of pulsed
transmit signal and gated receive path,
along with an IF section of the receiver.
does not pass the entire received pulse of
frequency, but only the central
component.
Gated-CW radars have generally been
implemented using vector network
analyzers (VNAs) as the IF receivers.
Advantages
High level of performance, less cost.
Better accuracy, sensitivity, selectivity.
Good data acquisition speed.
Disadvantages
Experiences additional losses termed duty
cycle losses.
High level of performance, less cost.
Better accuracy, sensitivity, selectivity.
Good data acquisition speed.
Disadvantages
Experiences additional losses termed duty
cycle losses.
Pulse Radar
•Pulsed radar transmits high power, high-
frequency pulses toward the target.
•Choice of pulse repetition frequency
decides the range and resolution of the
radar.
•Two broad categories of pulsed radar
employing Doppler shifts are Moving
Target Indicator Radar and Pulse Doppler
Radar.
•Pulsed radar transmits high power, high-
frequency pulses toward the target.
•Choice of pulse repetition frequency
decides the range and resolution of the
radar.
•Two broad categories of pulsed radar
employing Doppler shifts are Moving
Target Indicator Radar and Pulse Doppler
Radar.
Moving Target Indicator Radar
•This radar uses Doppler effect .
•MTI radar distinguishes between moving
targets and stationary targets.
•The MTI Radar uses low pulse repetition
frequency (PRF) to avoid range
ambiguities.
•MTI Radars can have Doppler ambiguities.
•This radar uses Doppler effect .
•MTI radar distinguishes between moving
targets and stationary targets.
•The MTI Radar uses low pulse repetition
frequency (PRF) to avoid range
ambiguities.
•MTI Radars can have Doppler ambiguities.
Principal of Working
MTI Application in UAVS
UAV Stands for Unmanned Aerial Vehicles
These aircraft are without pilot on board.
One specific area of interest that has been
closely examined by the UAVB has been in the
area of cross-cueing applications Moving Target
Indicator (MTI).
JSTARS and TESARS are two type of UAVS
used by US Air force.
UAV Stands for Unmanned Aerial Vehicles
These aircraft are without pilot on board.
One specific area of interest that has been
closely examined by the UAVB has been in the
area of cross-cueing applications Moving Target
Indicator (MTI).
JSTARS and TESARS are two type of UAVS
used by US Air force.
Pulse Doppler Radar
•Pulse Doppler Radar uses high PRF to avoid
Doppler ambiguities, but it can have
numerous range ambiguities.
•In MTI radar the prf is chosen so that there
are no range ambiguities, but there are
usually many Doppler ambiguities, or blind
speeds.
•A radar that increases its prf high enough to
avoid the problem of blind speeds is called a
pulse Doppler radar.
•Pulse Doppler Radar uses high PRF to avoid
Doppler ambiguities, but it can have
numerous range ambiguities.
•In MTI radar the prf is chosen so that there
are no range ambiguities, but there are
usually many Doppler ambiguities, or blind
speeds.
•A radar that increases its prf high enough to
avoid the problem of blind speeds is called a
pulse Doppler radar.
Resolving Velocity Ambiguity
Earlier multiple prf was used.
Velocity ambiguity can be resolved by
transmitting many carrier frequency.
fnd= nfr+f’nd
Where f’nd is doppler frequency
fnd = 2Vt fn/c
fr= 2vnfn/c
Therefore Vt = nVn+V’nt
Earlier multiple prf was used.
Velocity ambiguity can be resolved by
transmitting many carrier frequency.
fnd= nfr+f’nd
Where f’nd is doppler frequency
fnd = 2Vt fn/c
fr= 2vnfn/c
Therefore Vt = nVn+V’nt
Comparison
PARAMETER PULSE RADAR
CONTINOUS WAVE
RADAR
TYPE OF SIGNAL Modulated Modulated and
Unmodulated
ANTENNA Duplexer Separate Antennas
RANGE Indicates Range Don't indicate Range
TRANSMITTING POWER high Low
CIRCUIT Complicated Simple
STATIONARY TARGET Affects Doesn't affect
MAXIMUM RANGE High Low
PRACTICAL
APPLICATION
More applications Less applications
MANY TARGETS Does not get affected Does get affected
PARAMETER PULSE RADAR
CONTINOUS WAVE
RADAR
TYPE OF SIGNAL Modulated Modulated and
Unmodulated
ANTENNA Duplexer Separate Antennas
RANGE Indicates Range Don't indicate Range
TRANSMITTING POWER high Low
CIRCUIT Complicated Simple
STATIONARY TARGET Affects Doesn't affect
MAXIMUM RANGE High Low
PRACTICAL
APPLICATION
More applications Less applications
MANY TARGETS Does not get affected Does get affected
Conclusion
RADAR is used to find velocity, range
and position of the object.
Advantage of RADAR is that it provide
superior penetration capability through
any type of weather condition.
LIDAR is advanced type of radar which
uses visible light from laser.
RADAR is used to find velocity, range
and position of the object.
Advantage of RADAR is that it provide
superior penetration capability through
any type of weather condition.
LIDAR is advanced type of radar which
uses visible light from laser.
REFERENCES
[1] M. Kulkarni, “Microwave and Radar Engineering”, 3
rd
edition,
Umesh Publication, 2003, pp. 493 – 536
[2] Merri.I.skolnik, “Intoduction to Radar System”, 3
rd
edition, Tata
McGraw Hill, 2003
[3]“Types of Radar”, Engineers Garage,2012[online]. Available:
http://www.engineersgarage.
com/articles/type-of-radars [accessed: September 2012]
[4] “Types of Radar”, Cristian Wolff, June 10, 2012[online].
Available:http://www.radartutorial.
eu/02.basics/rp05.en.html [accessed: September 2012]
[5] “Radar Basics”, Infoplease, September 22, 2012 [online].
Available: http://www.infoplease.
com/ce6/sci/A0860616.html [accessed: September 2012]
[6] John F.Autin, John Caserta, Mark A.Bates, “A New Gated CW
Radar Implementation”
Horsham, 2010.
[1] M. Kulkarni, “Microwave and Radar Engineering”, 3
rd
edition,
Umesh Publication, 2003, pp. 493 – 536
[2] Merri.I.skolnik, “Intoduction to Radar System”, 3
rd
edition, Tata
McGraw Hill, 2003
[3]“Types of Radar”, Engineers Garage,2012[online]. Available:
http://www.engineersgarage.
com/articles/type-of-radars [accessed: September 2012]
[4] “Types of Radar”, Cristian Wolff, June 10, 2012[online].
Available:http://www.radartutorial.
eu/02.basics/rp05.en.html [accessed: September 2012]
[5] “Radar Basics”, Infoplease, September 22, 2012 [online].
Available: http://www.infoplease.
com/ce6/sci/A0860616.html [accessed: September 2012]
[6] John F.Autin, John Caserta, Mark A.Bates, “A New Gated CW
Radar Implementation”
Horsham, 2010.
THANK YOU
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