Simultaneous Dual Polarization Radar System with Pedestal Mounted Receiver
First Claim
1. A method for simultaneous transmission of H- and V- channels in a dual polarized weather radar in which methodtransmitter (1) output is directed in waveguide through azimuth rotary joint (9) to one or both of duplexers (3) by polarizer (2) that splits the signal into horizontal (H) and vertical (V) components,from duplexers the H- and V-components of the signal are directed through two separate single elevation rotary joints (8) to orthomode feed (7) and directed to atmosphere by dish reflector (6),on reception the H- and V-components are separated by the orthomode feed (7) and directed through elevation rotary joints (8) by duplexers (3) to H-channel and V-channel (4) of radar receiver and processed further by signal processor DSP (5),characterized in thatthe duplexers (3), polarizer (2), receivers (4) and DSP (5) are located above the azimuth rotary joint but below elevation rotary joints (8), anda low power calibration signal on the radar'"'"'s operating frequency locked to the master oscillator of the radar system is taken from the signal source (10) and split into couplers (11) above the elevation rotary joints (8) and fed into receivers (4).
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Accused Products
Abstract
The present invention relates to a method and apparatus for simultaneous transmission of horizontal (H) and vertical (V) channels in a dual polarized weather radar. The goal of the invention is accomplished by placing the receiver, duplexer and polarizer equipment above the azimuth rotary joint but below elevation rotary joints. The elevation rotary joints and other associated signal paths are calibrated by using a low power signal on the radar'"'"'s operating frequency that is fed into couplers above the elevation rotary joints.
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Citations
2 Claims
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1. A method for simultaneous transmission of H- and V- channels in a dual polarized weather radar in which method
transmitter (1) output is directed in waveguide through azimuth rotary joint (9) to one or both of duplexers (3) by polarizer (2) that splits the signal into horizontal (H) and vertical (V) components, from duplexers the H- and V-components of the signal are directed through two separate single elevation rotary joints (8) to orthomode feed (7) and directed to atmosphere by dish reflector (6), on reception the H- and V-components are separated by the orthomode feed (7) and directed through elevation rotary joints (8) by duplexers (3) to H-channel and V-channel (4) of radar receiver and processed further by signal processor DSP (5), characterized in that the duplexers (3), polarizer (2), receivers (4) and DSP (5) are located above the azimuth rotary joint but below elevation rotary joints (8), and a low power calibration signal on the radar'"'"'s operating frequency locked to the master oscillator of the radar system is taken from the signal source (10) and split into couplers (11) above the elevation rotary joints (8) and fed into receivers (4).
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2. An apparatus for simultaneous transmission of H- and V- channels in a dual polarized weather radar, the apparatus comprising
means for directing a transmitter (1) output in waveguide through azimuth rotary joint (9) to one or both of duplexers (3) by polarizer (2) that splits the signal into horizontal (H) and vertical (V) components. means for directing from the duplexers the H- and V-components signals through two separate single elevation rotary joints (8) to orthomode feed (7) and to atmosphere by dish reflector (6), means for separating on reception the H- and V-components by the orthomode feed (7) and directing through elevation rotary joints (8) by duplexers (3) to H-channel and V-channel (4) of radar receiver and processed further by signal processor DSP (5). characterized in that the duplexers (3), polarizer (2), receivers (4) and DSP (5) are located above the azimuth rotary joint but below elevation rotary joints (8), and a low power calibration signal on the radar'"'"'s operating frequency is locked to the master oscillator of the radar system is taken from the signal source (10) and split into couplers (11) above the elevation rotary joints (8) and fed into receivers (4).
Specification