Radar System Design
RADAR is also known as Radio Detection and Ranging. The main purpose of radar is to detect and determine the object that lies at some distance away. This is such an object that cannot be observed by the naked eye. There is the radar unit or radar station in the radar system that transmits high-frequency RF signals and that gets reflected from the target which is received by the radar station and help to determine the distance of the target from radar station. This is how the radar system is designed. Students search for Radar System Design Homework Help from professional experts for their assignment-related issues. The radar system also helps to determine direction, azimuth, and elevation of the target. The concept is illustrated by the following equation for the distance to the target as D = T/12.36
In this equation, the distance D is between radar station and object in nautical miles. The total time T from transmission of the signal and reception of the signal in micro-sec. Nautical miles are used in place to statute miles for the measurement purpose in most of the radar applications. One Nautical mile is equal to 6076ft. Students can visit the link Radar Spectral Analysis to know more about the manipulations related to radar system design.
According to the requirement, different types of radar system design are used. Students often face difficulties for their assignments and look for Radar System Design Assignment Help. The different radar types depend on the techniques used for the radar parameters. These parameters are the azimuth, range, velocity, and elevation. Our experts offer Radar projects help to the needy students and help them to achieve excellent grades.
The two major categories of radar are known as primary radar and secondary radar. The primary radar transmits a Continuous Wave (CW) and pulse. Then the reflected CW and pulse received are processed by the radar. It determines the velocity, range, azimuth, and elevation. The primary radar is used for air-based search radar, ground penetrating radar, weapon control radar and many others.The secondary radars provide the identity and altitude related information. The examples are the IFF radars to identify Friend or Foe. These radars use encrypted signals.