In-phase and quadrature conversion error compensator

US 5,150,128 A
Filed: 02/15/1991
Issued: 09/22/1992
Est. Priority Date: 02/15/1991
Status: Expired due to Term

First Claim

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1. A system for detecting phase and gain imbalance errors in a synchronous detector having first means (32) for providing a first signal representing a first sinusoidal term, second means (32,34) for providing a second signal representing a second sinusoidal term complementary to said first sinusoidal term, means for mixing (12) an input signal with said first signal and means for mixing (14) said input signal with said second signal, said system for detecting phase and gain imbalance errors comprising:

means for detecting (28,

     30) amplitude errors in said first and second signals;

means for correcting (44,

     36) amplitude errors in said first and second signals and providing an output signal in response thereto;

means for detecting (46,

     48) phase errors in said first and second signal; and

means for correcting (38) said phase errors in said first and second signals and providing an output signal in response thereto.

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Abstract

A system for detecting phase and gain imbalance errors in a synchronous detector. The synchronous detector (10) is assumed to have a fist circuit (16) for providing a first signal representing a first sinusoidal term (e.g., a cosine term) and for providing a second signal representing a second sinusoidal term (e.g., a sine term) complementary to the first sinusoidal term, circuitry (12) for mixing an input signal with the first signal and circuitry (14) for mixing the input signal with the second signal. The system (16) for detecting phase and gain imbalance errors of the invention includes an amplitude compensation circuit (24) for detecting and correcting amplitude errors in the first and second signals and a phase compensation circuit (26) for detecting and correcting phase errors in the first and second signals. For amplitude compensation, the outputs of the amplitude and phase compensation circuits are input to first and second amplitude detector circuits (28) and (30). The outputs of the first and second amplitude detector circuits (28) and (30) are low pass filtered and subtracted to provide a first feedback signal. The first feedback signal is then used to control the gain of a variable gain amplifier (36) which in turn serves to adjust the gain of one of the sinusoidal signals accordingly. For phase compensation, the outputs of the amplitude and phase compensation circuits (24) and (26) are mixed and filtered to provide a second feedback signal. The second feedback signal is used to adjust the phase shift of a variable phase shifter (38) which in turn serves to adjust the phase shift of the second sinussoidal signal accordingly.

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18 Claims

1. A system for detecting phase and gain imbalance errors in a synchronous detector having first means (32) for providing a first signal representing a first sinusoidal term, second means (32,34) for providing a second signal representing a second sinusoidal term complementary to said first sinusoidal term, means for mixing (12) an input signal with said first signal and means for mixing (14) said input signal with said second signal, said system for detecting phase and gain imbalance errors comprising:
- means for detecting (28,
  
       30) amplitude errors in said first and second signals;
  
  means for correcting (44,
  
       36) amplitude errors in said first and second signals and providing an output signal in response thereto;
  
  means for detecting (46,
  
       48) phase errors in said first and second signal; and
  
  means for correcting (38) said phase errors in said first and second signals and providing an output signal in response thereto.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The invention of claim 1 wherein said means for detecting amplitude errors in said first and second signals includes means for detecting the amplitude of said first and second signals.
  - 3. The invention of claim 2 wherein said means for detecting amplitude errors in said first and second signals further includes first (40) and second (42) low pass filter means for filtering the output of said means for detecting the amplitude of said first and second signals to extract third and fourth signals representing the low frequency components of the amplitude detected first and second signals respectively
  - 4. The invention of claim 3 wherein said means for detecting amplitude errors in said first and second signals further includes means for subtracting (44) the outputs of said first and second filter means to provide a feedback signal.
  - 5. The invention of claim 4 wherein said means for correcting amplitude errors in said first and second signals includes variable gain amplifier 36 means for amplifying said first signal with a variable gain factor in response to said feedback.
  - 6. The invention of claim 1 wherein said means for detecting phase errors in said first and second signals includes means for mixing (46) said first and second signals to provide a mixed output signal.
  - 7. The invention of claim 6 wherein said means for detecting phase errors in said first and second signals further includes low pass filter means f(48) for extracting low frequency components of said mixed signals and providing a feedback signal.
  - 8. The invention of claim 7 wherein said means for detecting phase errors in said first and second signals further includes variable phase shifter (38) means for phase shifting said second signal in response to said feedback signal.

9. A system for detecting phase and gain imbalance errors in a synchronous detector having first means (32) for providing a first signal representing a first sinusoidal term, second means (32, 34) for providing a second signal representing a second sinusoidal term complementary to said first sinusoidal term, means for mixing (12) an input signal with said first signal and means for mixing (14) said input signal with said second signal, said system for detecting phase and gain imbalance errors comprising:
- amplitude compensation means (24) including means for detecting (28,
  
       30) amplitude errors in said first and second signals and means for correcting (44,
  
       36) amplitude errors in said first and second signals providing an output signal in response thereto andphase compensation means (26) including means for detecting (46,
  
       48) phase errors in said first and second signals and means for correcting (38) said phase errors in said first and second signals and providing an output signal in response thereto.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- - 10. The invention of claim 9 wherein said means for detecting amplitude errors in said first and second signals includes means for detecting (28, 30) the amplitude of said first and second signals.
  - 11. The invention of claim 10 wherein said means for detecting amplitude errors in said first and second signals further includes first and second low pass filter means (40, 42) for filtering the output of said means for detecting the amplitude of said first and second signals to extract third and fourth signals representing the low frequency components of the amplitude detected first and second signals respectively.
  - 12. The invention of claim 11 wherein said means for detecting amplitude errors in said first and second signals further includes means for subtracting (44) the outputs of said first and second filter means to provide a feedback signal.
  - 13. The invention of claim 12 wherein said means for correcting amplitude errors in said first and second signals includes variable gain amplifier (36) means for amplifying said first signal with a variable gain factor in response to said feedback.
  - 14. The invention of claim 9 wherein said means for detecting phase errors in said first and second signals includes means for mixing (46) said first and second signals to provide a mixed output signal.
  - 15. The invention of claim 14 wherein said means for detecting phase errors in said first and second signals further includes low pass filter means (48) for extracting low frequency components of said mixed signals and providing a feedback signal.
  - 16. The invention of claim 15 wherein said means for detecting phase errors in said first and second signals further includes variable phase shifter (38) means for phase shifting said second signal in response to said feedback signal.

17. In a missile radar signal processing system, a system for detecting phase and gain imbalance errors in a synchronous detector having first means (32) for providing a first signal representing a first sinusoidal term, second means (32, 34) for providing a second signal representing a second sinusoidal term complementary to said first sinusoidal term, means for mixing (12) an input signal with said first signal and means for mixing (14) said input signal with said second signal, said system for detecting phase and gain imbalance errors comprising:
- amplitude compensation means (24) including means for detecting (28,
  
       30) amplitude errors in said first and second signal sand means for correcting (44,
  
       36) amplitude errors in said first and second signal sand providing a first output signal in response thereto andphase compensation means (26) including means for detecting (46,
  
       48), phase errors in said first and second signals and means for correcting (38) said phase errors in said first and second signals and providing a second output signal in response thereto,said means for detecting amplitude errors in said first and second signals including;
  
  means for detecting (28,
  
       30) the amplitude of said first and second signals,first and second low pass filter means (40,
  
       42) for filtering the output of said means for detecting the amplitude of said first and second signals to extract third and fourth signals representing the low frequency components of the amplitude detected first and second signals respectively, andmeans for subtracting (44) the outputs of said first and second filter means to provide a first feedback signal,said means for correcting amplitude errors in said first and second signals including variable gain amplifier means (36) for amplifying said first signal with a variable gain factor in response to said first feedback signal, andsaid means for detecting phase errors in said first and second signals including;
  
  means for mixing (46) said first and second signals to provide a mixed output signal,low pass filter means (48) for extracting low frequency components of said mixed signals and providing a second feedback signal, andvariable phase shifter means (38) for phase shifting said second signal in response to said second feedback signal.

18. A method for detecting phase and gain imbalance errors in a synchronous detector having first means (32) for providing a first signal representing a first sinusoidal term, second means (32, 34) for providing a second signal representing a second sinusoidal term complementary to said first sinusoidal term, means for mixing (12) an input signal with said first signal and means for mixing (14) said input signal with said second signal, said method for detecting phase and gain imbalance errors including the steps of:
- a) detecting amplitude errors in said first and second signals;
  
  b) correcting amplitude errors in said first and second signals providing a output signal in response thereto;
  
  c) detecting phase errors in said first and second signals; and
  
  d) correcting said phase errors in said first and second signals and providing a output signal in response thereto.

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Current Assignee
Raytheon Company (Rtx Corporation)
Original Assignee
Hughes Aircraft Company (Rtx Corporation)
Inventors
Kongelbeck, Knut S.
Primary Examiner(s)
Sotomayor, John B.

Application Number

US07/655,616
Time in Patent Office

585 Days
Field of Search

342/174, 342/92, 342/194, 342/102
US Class Current

342/174
CPC Class Codes

G01R 25/00   Arrangements for measuring ...

G01S 7/4021   of receivers

H03B 27/00   Generation of oscillations ...

H03D 1/2245   using two quadrature channe...

In-phase and quadrature conversion error compensator

First Claim

3 Assignments

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Abstract

44 Citations

18 Claims

Specification

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In-phase and quadrature conversion error compensator

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

44 Citations

18 Claims

Specification

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Solutions

Use Cases

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