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RADAR

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AMAN SRIVASTAVA
AMAN SRIVASTAVA

This presentation is regarding the introduction, types and applications of RADAR system.

Engineering
1 of 20
Created by- AMAN SRIVASTAVA EC-2015(SRMSCET BAREILLY)
CONTENTS TOPIC Slide No. INTRODUCTION TO RADAR 3 MAJOR PARTS OF A RADAR SYSTEM 4 Working Process of RADAR 5 Distance Determination 7 Bistatic RADAR 8 Monostatic RADAR 9 Facts about RADAR 10 Basic types of RADAR 11 APPLICATIONS 13-17 List of some basic RADAR systems employed by the INDIAN ARMY 18 CONCLUSION 19 2
INTRODUCTION TO RADAR  RADAR stands for Radio Detection And Ranging.  It is an object-detection system that uses radio waves to determine the range, angle, or velocity of objects.  It can be used to detect aircraft, ships, spacecraft, guided missiles, motor vehicles, weather formations, and terrain.  This system is operated by transmitting an electromagnetic wave and detecting the reflected signal.  The modern RADAR system can be used to extract much more information from the reflected signal and got broader applications but still the range detection is one of its important functions. 3
MAJOR PARTS OF A RADAR SYSTEM  A Transmitter: The signal is first generated using a waveform generator and then amplified in the power amplifier like Magnetron (an electron tube for amplifying or generating waves, with the flow of electrons controlled by an external magnetic field)  Waveguides: The waveguides are transmission lines for transmission of the RADAR signals. 4
 Receiver: It can be super heterodyne receiver or any other receiver which consists of a processor to process the signal and detect it.  Duplexer: A duplexer allows the antenna to be used as a transmitter or a receiver. It can be a gaseous device that would produce a short circuit at the input to the receiver when transmitter is working.  Threshold Decision: The output of the receiver is compared with a threshold to detect the presence of any object. If the output is below any threshold, the presence of noise is assumed. 5
Working Process of RADAR 6
Distance Determination  The propagation of radio waves happens at constant speed (the speed of light c0) this distance is determined from the runtime of the high-frequency transmitted signal. Since, the waves travel to a target and back, the round trip time is dividing by two in order to obtain the time the wave took to reach the target. 7
Bistatic RADAR 8
Monostatic RADAR 9
Facts about RADAR  Police use radar to detect the speed of vehicles to see if they are driving too fast.  NASA used radar to calculate the distance between the Earth and other planets in our solar system.  A magnetic resonance imaging (MRI) test uses a form of radar to look at the details inside the human body without cutting the body open.  Surveyors use a form of radar called LIDAR. LIDAR uses light waves instead of radio waves to map the earth's surface. Many construction projects are mapped today using LIDAR. 10
Basic types of RADAR  Primary RADAR : The transmitter radiates signal in all the direction, of which has a minimum ratio proportion of energy signal gets reflected back from the target to the receiver. Several advantages of Primary RADAR are that it can operate independently of the target and does not require any co-operation by the target under surveillance. It is used by military purpose for detection of aircraft or ships. The disadvantages of Primary RADAR are; it needs high power to be radiated from the transmitter to ensure the return of signal from the target. 11
 Secondary RADAR : This can identify between friendly targets from the enemy target. Its working operation is based on an active answering signal system. In addition to Primary RADAR, the SSR is also equipped with the device called transponder in the target. Secondary RADAR radiates a signal which is received by a compatible transponder. After successful retrieving of the signal, the target sends the useful information in the form of code. This information tells the receiver about the location, altitude, status and many other useful information of the target. The advantages of SSR over PSR are; the received signal is much more powerful and is not attenuated by any factors. 12
APPLICATIONS Military Applications:  target detection, target recognition and weapon control (directing the weapon to the tracked targets).  In missile system to guide the weapon.  Identifying enemy locations in map. 13
Air Traffic Control:  To control air traffic near airports. The Air Surveillance RADAR is used to detect and display the aircraft’s position in the airport terminals.  To guide the aircraft to land in bad weather using Precision Approach RADAR.  To scan the airport surface for aircraft and ground vehicle positions. 14
Remote Sensing:  RADAR can be used for observing weather or observing planetary positions and monitoring sea ice to ensure smooth route for ships.  A RADAR unit consists of a transmitter and a receiver. The transmitter emits pulses of microwaves, a type of radio waves, outward in a circular pattern. Precipitation scatters these microwaves, sending some energy back to the transmitter, where it is detected by the RADAR's receiver. 15
Ground Traffic Control:  RADAR can also be used by traffic police to determine speed of the vehicle, controlling the movement of vehicles by giving warnings about presence of other vehicles or any other obstacles behind them. 16
Space:  To guide the space vehicle for safe landing on Moon or Mars  To observe the planetary systems  To detect and track satellites  To monitor the meteors 17
List of some basic RADAR systems employed by the INDIAN ARMY  1. Rohini radar  2. Rajendra Radar  3. The Indra Radar  4. Aerostat radar  5. Sword fish radar 18
CONCLUSION  Ongoing research and development is constantly increasing the existing range of applications. One of the most important characteristics of RADARs is their capability to penetrate cloud cover and to obtain data either by day or by night. This is it's all-weather capability that has contributed extensively to the various commercial applications of RADAR. Till now, there is no electronic system which can replace the RADAR for its accuracy and efficiency in sensing and detection. 19
THANK YOU 20

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RADAR

  • 2. CONTENTS TOPIC Slide No. INTRODUCTION TO RADAR 3 MAJOR PARTS OF A RADAR SYSTEM 4 Working Process of RADAR 5 Distance Determination 7 Bistatic RADAR 8 Monostatic RADAR 9 Facts about RADAR 10 Basic types of RADAR 11 APPLICATIONS 13-17 List of some basic RADAR systems employed by the INDIAN ARMY 18 CONCLUSION 19 2
  • 3. INTRODUCTION TO RADAR  RADAR stands for Radio Detection And Ranging.  It is an object-detection system that uses radio waves to determine the range, angle, or velocity of objects.  It can be used to detect aircraft, ships, spacecraft, guided missiles, motor vehicles, weather formations, and terrain.  This system is operated by transmitting an electromagnetic wave and detecting the reflected signal.  The modern RADAR system can be used to extract much more information from the reflected signal and got broader applications but still the range detection is one of its important functions. 3
  • 4. MAJOR PARTS OF A RADAR SYSTEM  A Transmitter: The signal is first generated using a waveform generator and then amplified in the power amplifier like Magnetron (an electron tube for amplifying or generating waves, with the flow of electrons controlled by an external magnetic field)  Waveguides: The waveguides are transmission lines for transmission of the RADAR signals. 4
  • 5.  Receiver: It can be super heterodyne receiver or any other receiver which consists of a processor to process the signal and detect it.  Duplexer: A duplexer allows the antenna to be used as a transmitter or a receiver. It can be a gaseous device that would produce a short circuit at the input to the receiver when transmitter is working.  Threshold Decision: The output of the receiver is compared with a threshold to detect the presence of any object. If the output is below any threshold, the presence of noise is assumed. 5
  • 7. Distance Determination  The propagation of radio waves happens at constant speed (the speed of light c0) this distance is determined from the runtime of the high-frequency transmitted signal. Since, the waves travel to a target and back, the round trip time is dividing by two in order to obtain the time the wave took to reach the target. 7
  • 10. Facts about RADAR  Police use radar to detect the speed of vehicles to see if they are driving too fast.  NASA used radar to calculate the distance between the Earth and other planets in our solar system.  A magnetic resonance imaging (MRI) test uses a form of radar to look at the details inside the human body without cutting the body open.  Surveyors use a form of radar called LIDAR. LIDAR uses light waves instead of radio waves to map the earth's surface. Many construction projects are mapped today using LIDAR. 10
  • 11. Basic types of RADAR  Primary RADAR : The transmitter radiates signal in all the direction, of which has a minimum ratio proportion of energy signal gets reflected back from the target to the receiver. Several advantages of Primary RADAR are that it can operate independently of the target and does not require any co-operation by the target under surveillance. It is used by military purpose for detection of aircraft or ships. The disadvantages of Primary RADAR are; it needs high power to be radiated from the transmitter to ensure the return of signal from the target. 11
  • 12.  Secondary RADAR : This can identify between friendly targets from the enemy target. Its working operation is based on an active answering signal system. In addition to Primary RADAR, the SSR is also equipped with the device called transponder in the target. Secondary RADAR radiates a signal which is received by a compatible transponder. After successful retrieving of the signal, the target sends the useful information in the form of code. This information tells the receiver about the location, altitude, status and many other useful information of the target. The advantages of SSR over PSR are; the received signal is much more powerful and is not attenuated by any factors. 12
  • 13. APPLICATIONS Military Applications:  target detection, target recognition and weapon control (directing the weapon to the tracked targets).  In missile system to guide the weapon.  Identifying enemy locations in map. 13
  • 14. Air Traffic Control:  To control air traffic near airports. The Air Surveillance RADAR is used to detect and display the aircraft’s position in the airport terminals.  To guide the aircraft to land in bad weather using Precision Approach RADAR.  To scan the airport surface for aircraft and ground vehicle positions. 14
  • 15. Remote Sensing:  RADAR can be used for observing weather or observing planetary positions and monitoring sea ice to ensure smooth route for ships.  A RADAR unit consists of a transmitter and a receiver. The transmitter emits pulses of microwaves, a type of radio waves, outward in a circular pattern. Precipitation scatters these microwaves, sending some energy back to the transmitter, where it is detected by the RADAR's receiver. 15
  • 16. Ground Traffic Control:  RADAR can also be used by traffic police to determine speed of the vehicle, controlling the movement of vehicles by giving warnings about presence of other vehicles or any other obstacles behind them. 16
  • 17. Space:  To guide the space vehicle for safe landing on Moon or Mars  To observe the planetary systems  To detect and track satellites  To monitor the meteors 17
  • 18. List of some basic RADAR systems employed by the INDIAN ARMY  1. Rohini radar  2. Rajendra Radar  3. The Indra Radar  4. Aerostat radar  5. Sword fish radar 18
  • 19. CONCLUSION  Ongoing research and development is constantly increasing the existing range of applications. One of the most important characteristics of RADARs is their capability to penetrate cloud cover and to obtain data either by day or by night. This is it's all-weather capability that has contributed extensively to the various commercial applications of RADAR. Till now, there is no electronic system which can replace the RADAR for its accuracy and efficiency in sensing and detection. 19