High resolution sector scan radar
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Abstract
A high resolution, azimuth sector scan radar is provided with sinusoidal operation to establish time sequencing of the radar main bang signal with the horizontal and vertical deflection signals of the video display and the antenna azimuth sweep. A high frequency master oscillator provides a fundamental sinusoidal signal to establish the pulse repetition rate of the radar main bang signal, while phase shift networks provide phase shifting of this signal to produce variable time delayed sinusoidal signals for the vertical deflection excitation and video unblanking of a CRT, to permit the display of selected range segments within the maximum range of the system. A submultiple frequency of the fundamental pulse repetition frequency signal, is synchronized with this signal and is used through similar phase shifting functions to provide video unblanking for the azimuth component of the display, horizontal deflection excitation for the CRT, and synchronization of the radar system and the radar antenna azimuth drive. The radar system features the use of simplified circuitry to produce the control timing, CRT deflection signals, and antenna azimuth sweep synchronization, to provide a system having small size and weight characteristics and being suitable for airborne use.
28 Citations
5 Claims
- 1. A radar system comprising:
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2. first oscillator means for generating a high frequency sinusoidal signal;
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a transmitter responsive to said first oscillator means for providing radar signals at a pulse repetition frequency determined by said first oscillator means; an antenna means responsive to said transmitter for transmitting radar signals and receiving target return radar signals; receiving means responsive to said antenna means for processing target return radar signals received by said antenna means; video display means for displaying information received by said receiving means and having vertical and horizontal deflection amplifier; range means responsive to said first oscillator means for providing a range unblank signal to said video display means, at a time delayed from the radar main bang by an amount related to the distance of the range segment containing the target from which return signals are desired for display on said video display means, and for providing a deflection signal to said video display means consisting of a sine wave having a suitable amplitude, in excess of the amplitude required for maximum deflection in the range dimension, and delayed from said unblank signal by a suitable amount such that a substantially linear portion of said sinusoidal range deflection signal, coincident with said range unblank signal, provides desired video display deflection in the range dimension during the desired range segment; second means for generating a low frequency sinusoidal signal of a frequency orders of magnitude lower than that of the signal produced by said high frequency sinusoidal means; and azimuth means responsive to said second means for providing an azimuth unblank signal to said video display means at a time delayed from said antenna azimuth drive signal by an amount related to the difference between the total azimuth angle of antenna scan, and the azimuth angular component thereof containing the target from which return signals are desired for display on said video display means, and for providing a deflection signal to said video display means consisting of a sine wave having a suitable amplitude, in excess of the amplitude required for maximum deflection in the azimuth dimension, and delayed from said azimuth unblank signal by a suitable amount such that a substantially linear portion of said sinusoidal azimuth deflection signal, coincident with said azimuth unblank signal, provides desired video display deflection in the azimuth dimension during the desired azimuth increment, and for providing synchronization of the antenna azimuth scan with the video display deflection in the azimuth dimension. - View Dependent Claims (4)
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Specification