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Title: High resolution sector scan radar
Claims: Having thus described a typical embodiment of my invention, that which I claim as new and desire to secure by Letters Patent of the United States is: 1. A radar system comprising: first oscillator means for generating a high frequency sinusoidal signal; 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. 2. A radar system according to claim 1 wherein said second means for generating a low frequency sinusoidal signal is in synchronism with said first high frequency sinusoidal oscillator means. 3. A radar system according to claim 2 wherein said range means comprises: a first phase shift network, connected to the output of said first oscillator means, for producing an output sine wave that is selectively time delayed by an amount determined by the distance between said antenna means and the selected range segment contaiing the target; a range video unblanking circuit, connected for response to the output of said first phase shift network, for providing a range video unblanking signal to said video display means; and a second phase shift network connected to the output of said first phase shift network, for providing to the vertical deflection amplifier of said video display means an output sine wave that is time delayed from the sine wave produced from said first phase shift network by a suitable amount, such that a substantially linear portion of said delayed sine wave, coincident with said range video unblanking signal, provides the desired video vertical deflection for the selected range segment dimension. 4. A radar system according to claim 3 wherein said azimuth means comprises: a third phase shift network connected to the output of said low frequency means, for producing an output sine wave that is selectively time delayed from said low frequency sinusoidal signal by an amount determined by the difference between the total azimuth angle of antenna scan, and the azimuth angular component thereof selected for display on said video display means; an azimuth video unblanking circuit, connected for response to the output of said third phase shift network, for producing an azimuth video unblanking signal to said video display means; a fourth phase shift network connected to the output of said third phase shift network, for providing to the horizontal deflection amplifier of said video display means an output sine wave that is time delayed from the sine wave produced by said third phase shift network by a suitable amount, such that a substantially linear portion of said delayed sine wave, coincident with said azimuth video unblanking signal, provides the desired video horizontal deflection for the selected azimuth segment dimension; and a fifth phase shift network, connected to the output of said low frequency means, for providing a sine wave having a selectable time delay to said antenna means to synchronize the azimuth scanning rate of said antenna means with the horizontal deflection signal of said video display means. Other info: Inventors: Naidich, Herbert H. (Trumbull, CT, US) Application Number: 568068 Filing Date: 1975-04-14 Publication_date: 1976-06-01 Assignee: United Technologies Corporation (Hartford, CT) Primary Class(es): 342/142 315/385 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Hubler, Malcolm F. Assistant Examiner: Attorney: Chiantera; Dominic J. |
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