A. Berkun scite author profile

Abstract-Technology for the 14-and 35-GHz Second-Generation Precipitation Radar (PR-2) is currently being developed by the National Aeronautics and Space Administration Jet Propulsion Laboratory to support the development of future spaceborne radar missions. PR-2 will rely on high-performance onboard processing techniques in order to improve the observation capabilities (swath width, spatial resolution, and precision) of a low-earth orbiting rainfall radar. Using field-programmable gate arrays (FPGAs), we have developed a prototype spaceborne processor and controller module that will support advanced capabilities in the PR-2 such as autotargeting of rain and compression of rainfall science data. In this paper, we describe the new technology components designed for the onboard processor, including an FPGA-based 40 10 9 op/s pulse-compression receiver/filter with a range sidelobe performance of 72 dB, and an adaptive scanning controller which yields a six-fold increase in the number of radar looks over areas of precipitation.

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System concept for the next-generation spaceborne precipitation radars

Durden²,

Sadowy³

et al.

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Technologies for the next generation of spaceborne precipitation radars

Sadowy

Berkun²,

Durden³

et al.

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A. Berkun

FPGAs make a radar signal processor on a chip a reality

An onboard processor and adaptive scanning controller for the Second-Generation Precipitation Radar

System concept for the next-generation spaceborne precipitation radars

Technologies for the next generation of spaceborne precipitation radars

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