Phased array radar antenna system
First Claim
1. An electronically steerable phased array radar antenna system for transmitting and receiving broadband linear FM signals, wherein the antenna comprises a plurality of generally planar spaced antenna subarrays each of which is connected by circulating means to a transmit-receive module, transmit-receive module includes a digital phase shifter means to which is input a CW signal and means for imposing a predetermined frequency offset upon the CW signal, which frequency offset for each antenna subarray is the product of the desired time delay for the respective antenna subarray times the slope of the linear FM signal, and a transmit portion of the transmit-receive module which includes combiner means to which is input a linear FM signal which is combined with the frequency offset CW signal input from the phase shifter means to provide a frequency offset linear FM signal input to the circulator means for transmission by the antenna subarray, and a receive portion of the transmit-receive module which includes low noise amplifier means connected to the circulator means for amplifying the signal received by the antenna subarray, and first and second combiner means serially connected to the amplifier means, with the linear FM signal input to the first combiner means and the frequency offset linear FM signal is input to the second combiner means to yield a frequency offset subtracted coherent linear FM target signal.
1 Assignment
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Accused Products
Abstract
An electronically steerable phased array radar antenna system for transmitting and receiving broadband linear FM signals is detailed. The antenna comprises a plurality of subarrays, each of which are connected by circulator means to a transmit-receive module. The highly linearized FM waveform is fed to the transmit-receive module, and a CW waveform is fed to a phase shifter in the module. The phase shifter applies a frequency offset to the CW waveform which is then added to the linear FM wideband signal for each antenna subarray. This frequency offset serves a beam steering function and can be considered a synthetic time delay.
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Citations
5 Claims
- 1. An electronically steerable phased array radar antenna system for transmitting and receiving broadband linear FM signals, wherein the antenna comprises a plurality of generally planar spaced antenna subarrays each of which is connected by circulating means to a transmit-receive module, transmit-receive module includes a digital phase shifter means to which is input a CW signal and means for imposing a predetermined frequency offset upon the CW signal, which frequency offset for each antenna subarray is the product of the desired time delay for the respective antenna subarray times the slope of the linear FM signal, and a transmit portion of the transmit-receive module which includes combiner means to which is input a linear FM signal which is combined with the frequency offset CW signal input from the phase shifter means to provide a frequency offset linear FM signal input to the circulator means for transmission by the antenna subarray, and a receive portion of the transmit-receive module which includes low noise amplifier means connected to the circulator means for amplifying the signal received by the antenna subarray, and first and second combiner means serially connected to the amplifier means, with the linear FM signal input to the first combiner means and the frequency offset linear FM signal is input to the second combiner means to yield a frequency offset subtracted coherent linear FM target signal.
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5. A method of transmitting and receiving broadband linear FM signals in an electronically steerable phased array radar antenna system so that the broadband linear FM signal can be transmitted and received at a predetermined steered angle relative to generally planar antenna subarrays, which subarrays are each connected to and fed by a transmit-receive module which includes digital phase shifter means, which method comprises;
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(a) applying a broadband linear FM signal to each transmit-receive module; (b) applying a CW signal to the phase shifter means of each transmit-receive module; (c) imposing a predetermined frequency offset upon the CW signal in each transmit-receive module, which frequency offset is the product of a desired time delay and the slope of the linear FM signal; (d) combining the frequency offset CW signal with the linear FM signal to provide for transmitting a frequency offset linear FM signal at each antenna subarray, and for receiving a frequency offset subtracted coherent linear FM target signal.
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Specification