Title :
Ultra-low sidelobe waveform design via spectral shaping and LINC transmit architecture
Author :
Jakabosky, John ; Blunt, Shannon D. ; Higgins, Thomas
Author_Institution :
Radar Syst. Lab., Univ. of Kansas, Lawrence, KS, USA
Abstract :
A new spectral-shaping approach is used to design jointly the amplitude window and phase of a tapered NLFM waveform. This approach can produce physical radar emissions with ultra-low sidelobes that support sufficient spectral roll-off to maintain forthcoming spectral compliance requirements. A small SNR loss is traded for a substantial reduction in range sidelobes. Further, it is demonstrated that this tapered waveform scheme can be readily combined with the linear amplification using nonlinear components (LINC) architecture to realize the small yet necessary amplitude variation while operating the power amplifiers in saturation, which may be used to realize enhanced power efficiency. Experimental measurements demonstrate range sidelobes below -80 dB with less than 0.3 dB in SNR loss.
Keywords :
power amplifiers; radar applications; LINC transmit architecture; SNR loss; amplitude variation; amplitude window; enhanced power efficiency; linear amplification-nonlinear component architecture; loss 0.3 dB; physical radar emissions; power amplifiers; range sidelobe; spectral compliance requirement; spectral roll-off; spectral shaping approach; substantial reduction; tapered NLFM waveform phase; tapered waveform scheme; ultralow-sidelobe waveform design; Couplers; Loss measurement; Matched filters; Optimization; Power amplifiers; Radar; Signal to noise ratio;
Conference_Titel :
Radar Conference (RadarCon), 2015 IEEE
Conference_Location :
Arlington, VA
Print_ISBN :
978-1-4799-8231-8
DOI :
10.1109/RADAR.2015.7131144
