A method for improved cross-pol isolation based on the use of auxilliary elements

Abstract: This paper describes a method to answer the following questions: can several of the elements of a phased array be employed as auxiliary (AUX) elements and how can the phase of each be adjusted so that the (1) cross-polarization (cross-pol) isolation is minimized to 40 dB, (2) the sidelobe levels of the main lobe are minimally impacted, and (3) the width and height of the main lobe are minimally impacted? This calibration work is being completed as one component of Lincoln Laboratory's effort within the multifu… Show more

“…This solution to the calibration challenge is an important advantage of fully digital PARs. Further discussion on the use of this approach for the Horus system appears in Section V. Recent work has also shown that polarimetric performance enhancements can be achieved with a fully digital array using the so-called cross-polar canceller (XPC) technique [61], [62], [63]. This method assigns a small number of elements from the entire array in an attempt to mitigate cross-polar contamination by transmitting the opposite phase from the original signal.…”

Horus—A Fully Digital Polarimetric Phased Array Radar for Next-Generation Weather Observations

“…This solution to the calibration challenge is an important advantage of fully digital PARs. Further discussion on the use of this approach for the Horus system appears in Section V. Recent work has also shown that polarimetric performance enhancements can be achieved with a fully digital array using the so-called cross-polar canceller (XPC) technique [61], [62], [63]. This method assigns a small number of elements from the entire array in an attempt to mitigate cross-polar contamination by transmitting the opposite phase from the original signal.…”

Horus—A Fully Digital Polarimetric Phased Array Radar for Next-Generation Weather Observations

Frequency-dependent power amplifier modeling and correction for distortion in wideband radar transmissions

Cross-Polar Canceller (XPC): A Technique to Reduce Cross-Polar Pattern Contamination in Polarimetric Weather Observations