TDU quantization error impact on wideband phased-array performance

Author

Corbin, Jeff ; Howard, Robert L.

Author_Institution

Georgia Tech. Res. Inst., Atlanta, GA, USA

fYear

2000

fDate

2000

Firstpage

457

Lastpage

460

Abstract

Large, wideband phased-array antennas typically employ a time-delay subarray architecture to support wideband waveforms. Previous work has documented the need to appropriately size the subarrays to minimize scan angle dependent dispersion loss and preserve range resolution. However, practical issues associated with the subarray time-delay units (TDU) also limit performance. Typically, TDU are digitally addressed binary devices with a minimum resolution defined by the least significant bit (LSB) size (measured in time, typically nanoseconds, or path length). This paper discusses losses-in both signal-to-noise ratio (SNR) and range resolution-due to subarray to subarray time delay offsets resulting from TDU quantization errors. Simulation results are presented for wideband LFM waveforms

Keywords

antenna phased arrays; antenna theory; delays; quantisation (signal); radar antennas; radar resolution; radar theory; LFM waveforms; LSB size; SNR; TDU quantization error; digitally addressed binary devices; least significant bit; losses; performance; phased-array antennas; radar; range resolution; signal-to-noise ratio; time delay offsets; time-delay subarray architecture; time-delay units; wideband antennas; wideband waveforms; Broadband antennas; Delay effects; Length measurement; Nanoscale devices; Quantization; Signal resolution; Signal to noise ratio; Size measurement; Time measurement; Wideband;

fLanguage

English

Publisher

ieee

Conference_Titel

Phased Array Systems and Technology, 2000. Proceedings. 2000 IEEE International Conference on

Conference_Location

Dana Point, CA

Print_ISBN

0-7803-6345-0

Type

conf

DOI

10.1109/PAST.2000.858996

Filename

858996