Nonquadrature correction circuit

US 4,812,849 A
Filed: 09/28/1987
Issued: 03/14/1989
Est. Priority Date: 09/17/1984
Status: Expired due to Fees

First Claim

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1. In a power divider which receives at a reference signal input, a reference signal comprised of a fundamental reference frequency and its harmonics, the power divider producing two outputs, an improved means to vary the phase delay between the two outputs, comprising:

tunable frequency trap means connected between the reference signal input and a ground, the trap having a center frequency which is approximately the third harmonic of the fundamental reference frequency for providing a low impedance path to ground for the third harmonic of the fundamental reference frequency but a high impedance to ground for the fundamental reference frequency.

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Abstract

A phase comparator has additional circuitry for correcting nonquadrature error during operation of the comparator. The phase comparator has a 90 degree power divider which receives a reference signal input and produces two reference outputs, one shifted 90 degrees out of phase with the other. The phase comparator also has a zero degree power divider which receives a return signal, such as a reflected signal of a radar transmitter unit. The outputs of the power dividers are applied to mixers and filters to result in an I video output whose frequency is the difference between the reference and signal input frequencies, and a Q video output which is identical in frequency but shifted 90 degrees. The correction circuit includes a frequency trap connected to the reference input and tunable about a center frequency of approximately the third harmonic of the fundamental reference frequency. While the phase comparator is operating, the trap is detuned from the center frequency while the phase error is monitored until the phase error nears zero. Band pass filter means which electrically isolate the power divider from external circuitry can improve operation.

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17 Claims

1. In a power divider which receives at a reference signal input, a reference signal comprised of a fundamental reference frequency and its harmonics, the power divider producing two outputs, an improved means to vary the phase delay between the two outputs, comprising:
- tunable frequency trap means connected between the reference signal input and a ground, the trap having a center frequency which is approximately the third harmonic of the fundamental reference frequency for providing a low impedance path to ground for the third harmonic of the fundamental reference frequency but a high impedance to ground for the fundamental reference frequency.
- View Dependent Claims (2, 3)
- - 2. The power divider according to claim 1 in which the power divider is of a type which produces the outputs nominally 90 degrees out of phase with respect to each other.
  - 3. The power divider according to claim 1, further comprising:
    - filter means located between the reference signal input and the power divider for passing the fundamental reference frequency and blocking the third harmonic of said frequency, the trap being connected between the filter means and the power divider to stabilize the electrical path length against signal variations at the input of said divider in the region of said third harmonic frequency.

4. In a phase comparator having a reference signal power divider whose input is a reference signal comprising a fundamental reference frequency and its harmonics at a reference input, the reference signal power divider producing two reference outputs, a return signal power divider which receives a return signal input and produces two return signal outputs, and two mixers, each of which receives one of the reference outputs and one of the signal outputs and produces the sum and difference of each which are passed to a low pass filter to produce an I video output whose frequency is the difference between the reference and signal input frequencies, and a Q video output which is identical in frequency to the I video output but shifted nominally 90 degrees in phase, an improved means to reduce nonquadrature error between the I and Q video outputs, comprising:
- a tunable frequency trap means connected between the reference input of the reference signal power divider and ground for providing a low impedance path to ground for the third harmonic of the fundamental reference frequency but a high impedance to ground for the fundamental reference frequency.
- View Dependent Claims (5, 6, 7, 8)
- - 5. The phase comparator according to claim 4 wherein the frequency trap comprises:
    - an inductor and a variable capacitor connected in series and to ground.
  - 6. The phase comparator according to claim 4 further comprising:
    - filter means connected between the reference signal input and the reference signal power divider for passing the fundamental frequency of the reference signal and blocking the third harmonic of said frequency between said reference signal input and said power divider.
  - 7. The phase comparator according to claim 4 further comprising:
    - filter means connected between the return signal input and the return signal power divider for blocking frequencies in the region of the third harmonic of the fundamental reference frequency from being transmitted from the divider to the return signal input.
  - 8. The phase comparator according to claim 4 further comprising:
    - filter means respectively between the reference signal input and its associated power divider and the return signal input and its associated power divider for respectively passing the fundamental frequencies of the reference and return signals to their respective power dividers but isolating the power dividers at about the respective third harmonics of said signals from the respective signal inputs so as to reduce the potential for phase shifts resulting from alteration of the third harmonic standing wave thereby obviating the need for frequent readjustment of said tunable frequency trap to minimize nonquadrature error.

9. A phase comparator circuit for reducing the nonquadrature error between I and Q video outputs shifted nominally 90 degrees one from the other in a doppler signal processing apparatus comprising:
- (a) reference signal input means for receiving a reference signal;
  
  (b) said reference signal containing a fundamental frequency and harmonics thereof;
  
  (c) return signal input means for receiving a return signal;
  
  (d) first and second power divider means for receiving a signal respectively from said reference and said return signal input means;
  
  (e) said first power divider means capable of producing two reference signal outputs;
  
  (f) said second power divider means capable of producing two return signal outputs;
  
  (g) one of the power divider means having its signal outputs shifted nominally 90 degrees out of phase one to the other, and the other power divider having its signal outputs optionally nominally in phase or shifted 180 degrees out of phase one to the other;
  
  (h) two mixers each connected to receive a different one of said reference signal outputs and a different one of said return signal outputs from each power divider means and respectively output the sum and difference of the frequencies thereof for transmission to low pass filter means which block the sum components of the mixer outputs to produce I and Q video signals nominally 90 degrees out of phase one to the other; and
  
  (i) tunable frequency trap means connected between said first power divider means and ground for modulating the third harmonic of the fundamental reference frequency of said reference signal to reduce the nonquadrature phase error of the I and Q videos when the trap is detuned from the third harmonic of the fundamental frequency of said reference signal.

10. A method for correcting the nonquadrature error between the I and Q video outputs from a phase comparator receiving reference and return signals and having a power divider receiving the reference signals and means for modulating the phase delay of said divider comprising:
- (a) operating the phase comparator; and
  
  (b) while continuing to operate the phase comparator modulating the phase delay of the said power divider by varying the impedance at the power divider input to the third harmonic of the fundamental reference frequency to reduce to a minimum the nonquadrature error between said outputs.
- View Dependent Claims (13)
- - 13. The method according to claim 10 additionally comprising providing said power divider as a 90 degree power divider producing two output signals shifted nominally 90 degrees out of phase one from the other.

11. A method for correcting the nonquadrature error between the I and Q video outputs from a phase comparator receiving reference and return signals and having a power divider receiving the reference signals and means for modulating the phase delay of said divider comprising:
- (a) operating the phase comparator;
  
  (b) while continuing to operate the phase comparator modulating the phase delay of the said power divider by varying the impedance at the power divider input to the third harmonic of the fundamental reference frequency to reduce to a minimum the nonquadrature error between said outputs; and
  
  (c) filtering said reference signal through band pass filter means before varying said impedance at the power divider input to isolate the phase comparator from signal changes which may affect nonquadrature error by alteration of frequencies in the area of the third harmonic of the fundamental reference frequency of said reference signal.

12. A method for correcting the nonquadrature error between the I and Q video outputs from a phase comparator receiving reference and return signals and means for modulating the phase delay of said divider comprising:
- (a) operating the phase comparator;
  
  (b) while continuing to operate the phase comparator modulating the phase delay of the said power divider by varying the impedance at the power divider input to the third harmonic of the fundamental reference frequency to reduce to a minimum the nonquadrature error between said outputs;
  
  (c) filtering said reference signal through band pass filter means before varying said impedance at the power divider input to isolate the phase comparator from signal changes which may affect nonquadrature error by alternation of frequencies in the area of the third harmonic of the fundamental reference frequency of said reference signal; and
  
  (d) filtering said return signal through band pass filter means to isolate the phase comparator from signal changes which may affect nonquadrature error by alteration of frequencies in the area of the third harmonic of the fundamental reference frequency of said reference signal.

14. A method for correcting nonquadrature error in a phase comparator of the type having a 90 degree power divider which receives a reference signal comprised of a fundamental reference frequency and its harmonics at a reference signal input, 90 degree power divider producing two reference outputs, one being shifted 90 degrees out of phase with the other, comprising:
- connecting modulator means between the reference signal input and ground for varying the impedance presented to the third harmonic of the fundamental reference frequency; and
  
  while operating the phase comparator, varying the modulator means until the error nears zero.
- View Dependent Claims (15, 16)
- - 15. The method according to claim 14 further comprising providing said modulator means as frequency trap means having a center frequency which is approximately said third harmonic;
    - connecting the trap means with one end to ground and the other end to a point between said reference signal input and the 90 degree power divider; and
      
      accomplishing said modulation by tuning said trap.
  - 16. The method according to claim 15 further comprising:
    - placing band pass filter means between the reference signal input and the 90 degree power divider for electrically isolating the 90 degree power divider input from the reference signal input at approximately the third harmonic of the fundamental reference frequency.

17. A method for correcting nonquadrature error in a phase comparator of the type which receives a reference signal at a reference signal input and a return signal at a return signal input and incorporates power dividers and produces two output signals whose frequency is equal to the frequency difference between said inputs, one output signal being shifted nominally 90 degrees out of phase with the other comprising:
- placing filter means between the reference signal input and its associated power divider for substantially electrically isolating said divider input and about the third harmonic of the fundamental of the reference signal frequency;
  
  connecting a tunable frequency trap with one end to ground and the other end to a point between the filter means and the power divider receiving the reference signal, the frequency trap being of a type that will pass to ground the third harmonic of the fundamental reference frequency;
  
  passing to ground through the frequency trap a portion of the current whose frequency is the third harmonic of the fundamental reference frequency; and
  
  during operation of the phase comparator tuning the trap to vary the impedance to ground at said third harmonic frequency until the nonquadrature error nears zero.

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Current Assignee
Lockheed Martin Corporation (Martin Marietta Corporation)
Original Assignee
General Dynamics Corporation
Inventors
Otto, Vedon W.
Primary Examiner(s)
Tarcza, Thomas H.
Assistant Examiner(s)
Barron, Jr., Gilberto

Application Number

US07/104,061
Time in Patent Office

533 Days
Field of Search

307/511, 307/512, 328/155, 328/166, 328/167, 342/194, 324/83 Q, 324/83 FE, 324/86
US Class Current

342/194
CPC Class Codes

G01R 25/005   Circuits for comparing seve...

G01S 13/522   using transmissions of inte...

G01S 7/288   Coherent receivers

Nonquadrature correction circuit

First Claim

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Nonquadrature correction circuit

First Claim

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Abstract

Citations

17 Claims

Specification

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