Gain control method and apparatus

US 7,391,814 B2
Filed: 05/03/2007
Issued: 06/24/2008
Est. Priority Date: 06/11/2002
Status: Expired due to Fees

First Claim

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1. A gain controller comprising:

a first low pass filter configured to generate a filtered in-phase (I) signal;

a second low pass filter configured to generate a filtered quadrature (Q) signal;

a normalization circuit coupled to outputs of the first and second low pass filters for adjusting the gain of the filtered I and Q signals on a block-by-block basis as a function of averaged combined signal strength measurements of the filtered I and Q signals;

a first delay circuit electrically coupled to an output of the first low pass filter for outputting a delayed filtered I signal;

a second delay circuit electrically coupled to an output of the second low pass filter for outputting a delayed filtered Q signal;

a first multiplier having a first input electrically coupled to an output of the first delay circuit, and a second input electrically coupled to an output of the normalization circuit used to adjust the gain of the delayed filtered I signal, wherein the first multiplier outputs a value substantially equal to the delayed filtered I signal divided by the averaged combined signal strength of the filtered I and Q signals; and

a second multiplier having a first input electrically coupled to an output of the second delay circuit, and a second input electrically coupled to an output of the normalization circuit used to adjust the gain of the delayed filtered Q signal, wherein the second multiplier outputs a value substantially equal to the delayed filtered Q signal divided by the averaged combined signal strength of the filtered I and Q signals.

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Abstract

An analog/digital gain control device avoid some of the requirements associated with the nature of a closed-loop AGC circuits and which meets the remaining requirements without much difficulty uses an analog to digital conversion method that increases the number of effective ADC bits by compressing the baseband input analog signal using a logarithmic circuit. After the compressed analog signal is converted into a digital signal, a digital anti-log process or look-up table (LUT) is used to expand the digital signal back to the original linear scale. The word size of the output of the anti-log process is larger than the input word size due to the nature of the anti-log function. To reduce the word size of the digital signal an open loop normalization technique can be applied.

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13 Claims

1. A gain controller comprising:
- a first low pass filter configured to generate a filtered in-phase (I) signal;
  
  a second low pass filter configured to generate a filtered quadrature (Q) signal;
  
  a normalization circuit coupled to outputs of the first and second low pass filters for adjusting the gain of the filtered I and Q signals on a block-by-block basis as a function of averaged combined signal strength measurements of the filtered I and Q signals;
  
  a first delay circuit electrically coupled to an output of the first low pass filter for outputting a delayed filtered I signal;
  
  a second delay circuit electrically coupled to an output of the second low pass filter for outputting a delayed filtered Q signal;
  
  a first multiplier having a first input electrically coupled to an output of the first delay circuit, and a second input electrically coupled to an output of the normalization circuit used to adjust the gain of the delayed filtered I signal, wherein the first multiplier outputs a value substantially equal to the delayed filtered I signal divided by the averaged combined signal strength of the filtered I and Q signals; and
  
  a second multiplier having a first input electrically coupled to an output of the second delay circuit, and a second input electrically coupled to an output of the normalization circuit used to adjust the gain of the delayed filtered Q signal, wherein the second multiplier outputs a value substantially equal to the delayed filtered Q signal divided by the averaged combined signal strength of the filtered I and Q signals.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The gain controller of claim 1 further comprising:
    - a first analog compressor for compressing a received I signal into a compressed analog I signal;
      
      a first analog-to digital (A/D) converter electrically coupled to an output of the first analog compressor for converting the compressed analog I signal into a compressed digital I signal;
      
      a first expander electrically coupled to an output of the first A/D converter and an input of the first low pass filter, the first expander configured to expand the compressed digital I signal back to an original linear scale;
      
      a second analog compressor for compressing a received Q signal into a compressed analog Q signal;
      
      a second A/D converter electrically coupled to an output of the second analog compressor for converting the compressed analog Q signal into a compressed digital Q signal; and
      
      a second expander electrically coupled to an output of the second A/D converter and an input of the second low pass filter, the second expander configured to expand the compressed digital Q signal back to an original linear scale.
  - 3. The gain controller of claim 2 wherein the first and second compressors are logarithmic amplifiers.
  - 4. The gain controller of claim 2 wherein the first and second expanders are anti-log look-up tables (LUTs).
  - 5. The gain controller of claim 1 wherein the normalization circuit reduces word size of the filtered I and Q signals.
  - 6. The gain controller of claim 1 wherein each of the first and second low pass filters is a root-raised cosine (RRC) filter.
  - 7. The gain controller of claim 1 wherein each of the first and second low pass filters is an infinite impulse response (IIR) filter.

8. A gain control method for obtaining wide range and high resolution analog-to-digital conversion of an in-phase (I) signal and a quadrature (Q) signal, the method comprising:
- filtering a digital I signal to generate a filtered I signal;
  
  filtering a digital Q signal to generate a filtered Q signal;
  
  adjusting the gain of the filtered I and Q signals on a block-by-block basis as a function of averaged combined power measurements of the filtered I and Q signals;
  
  delaying the filtered I signal to generate a delayed filtered I signal;
  
  delaying the filtered Q signal to generate a delayed filtered Q signal;
  
  dividing the delayed filtered I signal by the averaged combined signal strength of the filtered I and Q signals; and
  
  dividing the delayed filtered Q signal by the averaged combined signal strength of the filtered I and Q signals.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The method of claim 8 further comprising:
    - compressing a received I signal into a compressed analog I signal;
      
      converting the compressed analog I signal into a compressed digital I signal;
      
      expanding the compressed digital I signal back to an original linear scale;
      
      compressing a received Q signal into a compressed analog Q signal;
      
      converting the compressed analog Q signal into a compressed digital Q signal; and
      
      expanding the compressed digital Q signal back to an original linear scale.
  - 10. The method of claim 9 wherein the received Q signal is logarithmically compressed into the compressed analog Q signal at baseband.
  - 11. The method of claim 9 wherein the compressed digital I signal is logarithmically expanded.
  - 12. The method of claim 9 wherein the compressed digital Q signal is logarithmically expanded.
  - 13. The method of claim 9 wherein the received I signal is logarithmically compressed into the compressed analog I signal at baseband.

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Current Assignee
Interdigital Technology Corporation (InterDigital, Inc.)
Original Assignee
Interdigital Technology Corporation (InterDigital, Inc.)
Inventors
Kazakevich, Leonid, Yang, Rui
Primary Examiner(s)
Ha; Dac V.

Application Number

US11/800,114
Publication Number

US 20070206684A1
Time in Patent Office

418 Days
Field of Search

375/240, 375/243, 375/245, 375/261, 375/285, 375/296, 375/345, 341/110, 341/126, 341/155, 341/200, 348/384, 348/404, 348/406, 348/572, 704/255, 704/230, 704/500, 704/503, 455/115.1, 455/115.3, 455/127.2, 455/138
US Class Current

375/243
CPC Class Codes

H03G 3/001   Digital control of analog s...

H03G 7/06   having semiconductor devices

H03M 1/1235   Non-linear conversion not o...

Gain control method and apparatus

First Claim

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Abstract

17 Citations

13 Claims

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Gain control method and apparatus

First Claim

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Abstract

17 Citations

13 Claims

Specification

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