Title :
Linear FM chirp filters in pulse compression radars
Author :
El-Shennawy, Khamies M. ; Alim, Onsy Abdel ; Ezz-El-Arab, Mohamed A.
Author_Institution :
Alexandria Univ., Egypt
Abstract :
Using a complex Fresnel integral algorithm, the authors extend results of other authors from a time-bandwidth product of 50 up to 720. They analyze a rectangular linear FM filter having a 300-MHz center frequency, 120-MHz bandwidth, and 6-μs dispersion time T. Two different methods of rectangular FM cosine square tapering are compared. In the first method, the tapers are of length T/12 at the two edges inside the dispersion time T, while in the second, tapers of length αT are added to the duration T (α=0.05 and 0.1). The results show that the skirt steepness, the sidelobe rejection, and the Gibbs ripples of the wave spectrum, as well as the reduction of insertion loss and the suppression of Fresnel ripples, are best at α=0.1.
Keywords :
filters; frequency modulation; interference suppression; radar theory; signal processing equipment; 120 MHz; 300 MHz; 6 mus; FM chirp filters; Gibbs ripples; complex Fresnel integral algorithm; dispersion time 6 μs; insertion loss; interference suppression; pulse compression radars; rectangular FM cosine square tapering; rectangular linear FM filter; sidelobe rejection; signal processing equipment; skirt steepness; suppression of Fresnel ripples; wave spectrum; Bandwidth; Chirp; Dispersion; Frequency modulation; Insertion loss; Maximum likelihood detection; Radar;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.1987.6312789
