Monopulse radar equipment

US 4,719,465 A
Filed: 10/22/1985
Issued: 01/12/1988
Est. Priority Date: 11/01/1984
Status: Expired due to Term

First Claim

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1. A monopulse radar equipment comprising:

first and second radiators arranged in symmetrical positions with respect to a boresight axis for radiating radar pulses in a predetermined cycle and for producing first and second directional radiation patterns;

beam forming means for synthesizing the first and second directional radiation patterns, in an in-phase and opposite-phase relation and for producing a sum radiation pattern signal and a difference radiation pattern signal;

a multichannel receiver for generating, from the sum and difference pattern signals, an off-boresight signal representing a deviation of a target object from the boresight axis;

first and second directional couplers arranged in sum and difference pattern signal transmission channels between the beam forming means and the multichannel receiver;

calibration signal generating means connected to the first and second directional couplers for injecting first and second calibration signals into the sum and difference pattern signal transmission channels; and

compensating means connected to an output of the multichannel receiver for detecting the calibration signal and for compensating for a phase characteristic and/or an amplitude characteristic of the sum and difference pattern signal transmission channels in accordance with a result of detection.

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Abstract

A monopulse radar equipment is developed which comprises first and second radiators arranged in symmetrical positions with respect to the boresight axis to radiate radar pulses in a predetermined cycle and thus to produce first and second directional radiation patterns, a beam forming network for synthesizing in an in-phase and opposite-phase relation the first and second directional radiation patterns of the first and second radiations into sum and different patterns, and a multichannel receiver for forming from the sum and difference patterns an off-boresight signal representing a deviation of a target object from the boresight direction and a sidelobe suppressed signal resulting from suppressing a sidelobe response of the sum pattern. The first and second directional couplers are interposed on the sum and difference pattern signal transmission channels between the beam forming network and the multichannel receiver. The first and second calibration signals of the same amplitude and phase are injected onto the sum and difference pattern signal transmission channels through the first and second directional couplers. The calibration signal is detected at the output terminal of the multichannel receiver and the phase characteristics between the sum and difference pattern signal transmission channels are compensated for in accordance with a result of detection.

Citations

25 Claims

1. A monopulse radar equipment comprising:
- first and second radiators arranged in symmetrical positions with respect to a boresight axis for radiating radar pulses in a predetermined cycle and for producing first and second directional radiation patterns;
  
  beam forming means for synthesizing the first and second directional radiation patterns, in an in-phase and opposite-phase relation and for producing a sum radiation pattern signal and a difference radiation pattern signal;
  
  a multichannel receiver for generating, from the sum and difference pattern signals, an off-boresight signal representing a deviation of a target object from the boresight axis;
  
  first and second directional couplers arranged in sum and difference pattern signal transmission channels between the beam forming means and the multichannel receiver;
  
  calibration signal generating means connected to the first and second directional couplers for injecting first and second calibration signals into the sum and difference pattern signal transmission channels; and
  
  compensating means connected to an output of the multichannel receiver for detecting the calibration signal and for compensating for a phase characteristic and/or an amplitude characteristic of the sum and difference pattern signal transmission channels in accordance with a result of detection.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. A monopulse radar equipment according to claim 1, in which said calibration signal generating means injects the first and second calibration signals of the same phase and amplitude onto the sum and difference pattern signal transmission channels.
  - 3. A monopulse radar equipment according to claim 1, in which said multichannel receiver also generates, from the sum, difference and omni-directional pattern signals, a sidelobe suppressed signal for suppressing a sidelobe response for the sum radiation pattern signal.
  - 4. A monopulse radar equipment according to claim 1, in which said calibration signal generating means injects the first and second calibration signals onto the sum and difference pattern signal transmission channels in a timing determined in accordance with a transmission timing of the radar pulse.
  - 5. A monopulse radar equipment according to claim 4, in which said calibration signal generating means injects the first and second calibration signals onto the sum and difference pattern signal transmission channels during a time period in which there is no response to the radar pulse in a neighborhood of an end of a radar pulse transmission cycle.
  - 6. A monopulse radar equipment according to claim 1, in which said multichannel receiver means is connected to said beam forming means through a rotary joint and said first and second directional couplers are connected between the rotary joint and the multichannel receiver.
  - 7. A monopulse radar equipment according to claim 6, in which said calibration signal generating means comprises a radio frequency oscillator, a timing circuit connected to receive a timing signal in synchronism with a radar pulse transmission timing signal and to determine an injection timing of the calibration signal, a modulator for modulating an output of the radio frequency oscillator during a time period corresponding to that of an output of said timing circuit, and distributer means for dividing an output of the modulator into the first and second calibration signals.
  - 8. A monopulse radar equipment according to claim 1, in which said multichannel receiver is connected to said beam forming means through a rotary joint, and said first and second directional couplers are connected between said beam forming means and the rotary joint.
  - 9. A monopulse radar equipment according to claim 8, in which said calibration signal generating means comprises a radio frequency oscillator, a modulator for modulating an output of the radio frequency oscillator, distributer means for dividing an output of the modulator into the first and second calibration signals, a three-terminal circulator means connected between a first output terminal of the distributer and the sum radiation pattern signal channel, an envelope detector connected to the other terminal of the circulator to envelope detect a radar transmitted signal passed through the sum radiation pattern signal transmission channel, and a timing circuit for determining an injection timing of a calibration signal and modulation timing of the modulator in accordance with an output of the envelope detector.
  - 10. A monopulse radar equipment according to claim 1, in which said multichannel receiver comprises a π
    - /2 hybrid for producing Σ
      
      -jΔ and
      
      Δ
      
      -jΣ
      
      signal from the sum radiation pattern signal Σ and
      
      the difference radiation pattern signal Δ
      
      , mixer means for mixing the Σ
      
      -jΔ and
      
      Δ
      
      -jΣ
      
      signals from the π
      
      /2 hybrid with reference oscillation signals and for obtaining intermediate frequency signals Σ
      
      -jΔ
      
      , Δ
      
      -jΣ
      
      , signal distributer means for producing, from the intermediate frequency signals Σ
      
      -jΔ
      
      , Δ
      
      -jΣ
      
      , an intermediate frequency signals Σ
      
      -jΔ
      
      , -Δ
      
      +jΣ and
      
      reference phase signals -j, -1, and a phase comparator for comparing a phase of the signal Σ
      
      -jΔ
      
      with a phase of the reference phase signal -j and a phase of the intermediate frequency signal -Δ
      
      +jΣ
      
      with a phase of the reference phase signal -1; and
      
      said compensating means comprises a variable phase shifter for adjusting the phase of the reference oscillation signal to be supplied to the mixer, and a differential amplifier for comparing an output of the phase comparator and a reference signal, which is determined in accordance with a difference in amplitude and phase between the first and second calibration signals and for supplying an output to an adjustment signal input terminal of the variable phase shifter.
  - 11. A monopulse radar equipment according to claim 10, in which said differential amplifier compares an output of said phase comparator and a reference signal only in a timing determined in accordance with a transmission timing of a radar pulse.
  - 12. A monopulse radar equipment according to claim 1, in which said multichannel receiver comprises a π
    - /2 hybrid for producing Σ
      
      -jΔ and
      
      Δ
      
      -jΣ
      
      signals from the sum radiation pattern signal Σ and
      
      the difference radiation pattern signal Δ
      
      , a mixer for mixing the Σ
      
      -jΔ and
      
      Δ
      
      -jΣ
      
      signals output from the π
      
      /2 hybrid and reference oscillation signals and for obtaining intermediate frequency signals Σ
      
      -jΔ
      
      , Δ
      
      -jΣ
      
      , signal distributer means for producing, from the intermediate frequency signals Σ
      
      -jΔ
      
      , Δ
      
      -jΣ
      
      , intermediate frequency signals Σ
      
      -jΔ
      
      , -Δ
      
      +jΣ and
      
      reference phase signals -j, -1, and a phase comparator for comparing a phase of the intermediate frequency signal Σ
      
      -jΔ
      
      with a phase of the reference phase signal -j and a phase of the intermediate frequency signal -Δ
      
      +jΣ
      
      with a phase of the reference phase signal -1; and
      
      said compensating means comprises a variable phase shifter for adjusting a phase of the reference phase signal to be supplied to the phase comparator, and a differential amplifier for comparing the output of the phase comparator with a reference signal, which is determined in accordance with a difference in phase and amplitude between the first and second calibration signals, and for supplying an output to an adjustment signal input terminal of the variable shifter.
  - 13. A monopulse radar equipment according to claim 12, in which said differential amplifier compares the output of the phase comparator with the reference signal in a timing determined in accordance with a transmission timing of the radar pulse.

14. A monopulse radar equipment comprising:
- first and second radiators arranged in symmetrical positions with respect to a boresight axis for radiating radar pulses in a predetermined cycle and for producing first and second directional radiation patterns;
  
  beam forming means for synthesizing the first and second directional radiation patterns in an in-phase and opposite-phase relation and for producing a sum radiation pattern signal and a different radiation pattern signal;
  
  a multichannel receiver connected to said beam forming means through a rotary joint and having two channels which are respectively connected to the sum radiation pattern signal and the difference radiation pattern signal, for generating, from the sum and difference pattern signals, an off-boresight signal representing a deviation of a target object from the boresight axis;
  
  first and second directional couplers arranged in sum and difference pattern signal transmission channels between the beam forming means and the rotary joint;
  
  calibration signal generating means, connected to the first and second directional couplers, for detecting a transmission signal passed through one of the sum and difference pattern signal transmission channels, and for injecting first and second calibration signals into the sum and difference pattern signal transmission channels after a predetermined time has elapsed after detecting the transmission signal; and
  
  compensating means connected to an output of the multichannel receiver for detecting the calibration signal and for compensating for a phase characteristic and/or an amplitude characteristic of the sum and difference pattern signal transmission channels in accordance with a result of detection.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
- - 15. A monopulse radar equipment according to claim 14, in which said calibration signal generating means injects the first and second calibration signals of the same phase and amplitude onto the sum and difference pattern signal transmission channels.
  - 16. A monopulse radar equipment according to claim 14, in which said multichannel receiver also generates, from the sum, difference and omnidirectional pattern signals, a sidelobe suppressed signal for suppressing a sidelobe response for the sum radiation pattern signal.
  - 17. A monopulse radar equipment according to claim 14, in which said calibration signal generating means injects the first and second calibration signals onto the sum and difference pattern signal transmission channels in a timing determined in accordance with a transmission timing of the radar pulse.
  - 18. A monopulse radar equipment according to claim 17, in which said calibration signal generating means injects the first and second calibration signals onto the sum and difference pattern signal transmission channels during a time period in which there is no response to the radar pulse in a neighborhood of an end of a radar pulse transmission cycle.
  - 19. A monopulse radar equipment according to claim 14, in which said multichannel receiver means is connected to said beam forming means through a rotary joint and said first and second directional couplers are connected between the rotary joint and the multichannel receiver.
  - 20. A monopulse radar equipment according to claim 19, in which said calibration signal generating means comprises a radio frequency oscillator, a timing circuit connected to receive a timing signal in synchronism with a radar pulse transmission timing signal and to determine an injection timing of the calibration signal, a modulator for modulating an output of the radio frequency oscillator during a time period corresponding to that of an output of said timing circuit, and distributer means for dividing an output of the modulator into the first and second calibration signals.
  - 21. A monopulse radar equipment according to claim 14, in which said calibration signal generating means comprises a radio frequency oscillator, a modulator for modulating an output of the radio frequency oscillator, distributer means for dividing an output of the modulator into the first and second calibration signals, a three-terminal circulator means connected between a first output terminal of the distributer and the sum radiation pattern signal channel, an envelope detector connected to the other terminal of the circulator to envelope detect a radar transmitted signal passed through the sum radiation pattern signal transmission channel, and a timing circuit for determining an injection timing of a calibration signal and modulation timing of the modulator in accordance with an output of the envelope detector.
  - 22. A monopulse radar equipment according to claim 14, in which said multichannel receiver comprises a π
    - /2 hybrid for producing Σ
      
      -jΔ and
      
      Δ
      
      -jΣ
      
      signals from the sum radiation pattern signal Σ and
      
      the difference radiation pattern signal Δ
      
      , mixer means for mixing the Σ
      
      -jΔ and
      
      Δ
      
      -jΣ
      
      signals from the π
      
      /2 hybrid with reference oscillation signals and for obtaining intermediate frequency signals Σ
      
      -jΔ
      
      , Δ
      
      -jΣ
      
      , signal distributer means for producing, from the intermediate frequency signals Σ
      
      -jΔ
      
      , Δ
      
      -jΣ
      
      , intermediate frequency signals Σ
      
      -jΔ
      
      , -Δ
      
      -jΣ and
      
      reference phase signals -j, -1, and a phase comparator for comparing a phase of the signal Σ
      
      -jΔ
      
      with a phase of the reference phase signal -j and a phase of the intermediate frequency signal -Δ
      
      +jΣ
      
      with a phase of the reference phase signal -1, andsaid compensating means comprises a variable phase shifter for adjusting the phase of the reference oscillation signal to be supplied to the mixer, and a differential amplifier for comparing an output of the phase comparator and a reference signal, which is determined in accordance with a difference in amplitude and phase between the first and second calibration signals and for supplying an output to an adjustment signal input terminal of the variable phase shifter.
  - 23. A monopulse radar equipment according to claim 22, in which said differential amplifier compares an output of said phase comparator and a reference signal only in a timing determined in accordance with a tranmission timing of a radar pulse.
  - 24. A monopulse radar equipment according to claim 14, in which said multichannel receiver comprises a π
    - /2 hybrid for producing Σ
      
      -jΔ and
      
      Δ
      
      -jΣ
      
      signals from the sum radiation pattern signal Σ and
      
      the difference radiation pattern signal Δ
      
      , a mixer for mixing the Σ
      
      -jΔ and
      
      Δ
      
      -jΣ
      
      signals output from the π
      
      /2 hybrid and reference oscillation signals and for obtaining intermediate frequency signals Σ
      
      -jΔ
      
      , Δ
      
      -jΣ
      
      , signal distributer means for producing, from the intermediate frequency signals Σ
      
      -jΔ
      
      , Δ
      
      -jΣ
      
      , intermediate frequency signals Σ
      
      -jΔ
      
      , -Δ
      
      +jΣ
      
      , and reference phase signals -j, -1 , and a phase comparator for comparing a phase of the intermediate frequency signal Σ
      
      -jΔ
      
      with a phase of the reference phase signal -j and a phase of the intermediate frequency signal -Δ
      
      +jΣ
      
      with a phase of the reference phase signal -1; and
      
      said compensating means comprises a variable phase shifter for adjusting a phase of the reference phase signal to be supplied to the phase comparator, and a differential amplifier for comparing the output of the phase comparator with a reference signal, which is determined in accordance with a difference in phase and amplitude between the first and second calibration signals, and for supplying an output to an adjustment signal input terminal of the variable shifter.
  - 25. A monopulse radar equipment according to claim 24, in which said differential amplifier compares the output of the phase comparator with the reference signal in a timing determined in accordance with a transmission timing of the radar pulse.

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Current Assignee
Kabushiki Kaisha Toshiba (Toshiba Corporation)
Original Assignee
Kabushiki Kaisha Toshiba (Toshiba Corporation)
Inventors
Kuroda, Yuichi
Primary Examiner(s)
Tarcza, Thomas H.
Assistant Examiner(s)
Hayes, D. E.

Application Number

US06/790,083
Time in Patent Office

812 Days
Field of Search

342/149, 342/80, 342/151, 342/173, 342/174
US Class Current

342/151
CPC Class Codes

G01S 13/4436   with means specially adapte...

G01S 7/4021   of receivers

G01S 7/4052   by simulation of echoes

G01S 7/4069   involving a RF signal injec...

Monopulse radar equipment

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Monopulse radar equipment

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