Auto-gain correction and common mode voltage cancellation in a precision amplifier

US 7,696,817 B1
Filed: 10/17/2008
Issued: 04/13/2010
Est. Priority Date: 10/17/2008
Status: Active Grant

First Claim

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1. An instrumentation amplifier having first and second differential instrumentation amplifier inputs and a differential instrumentation amplifier output comprising:

first and second variable gain differential input amplifiers, each having a differential input, and having their differential outputs coupled to provide a common differential output;

a third differential amplifier having a first capacitor coupled across its differential input, and having each of its differential outputs coupled to control the gain of a respective one of the first and second variable gain differential input amplifiers;

first switches coupled to the common differential output to disconnect the common differential output of the first and second variable gain differential input amplifiers from the differential instrumentation amplifier output and couple the output of the first and second variable gain differential input amplifiers to the differential input of the third differential amplifier;

second switches operative with the first switches to disconnect the first and second differential instrumentation amplifier inputs from the first and second variable gain differential input amplifier differential inputs, and to couple the differential inputs of the first and second variable gain differential input amplifiers to a single differential voltage with a polarity whereby the combined output is the difference in differential output of the first and second variable gain differential input amplifiers;

whereby on momentarily operating the first and second switches, a voltage is stored on the first capacitor providing a differential output of the third differential amplifier correcting the differences in gain in the first and second variable gain differential input amplifiers.

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Abstract

Auto-gain correction in a precision amplifier provides continuous calibration of the gain of the two differential input stages relative to each other and thus significantly minimizes the effects of device mismatch and temperature. Auto-gain correction together with auto-zero minimizes the effects of common mode input voltage on the amplifier and eliminates the need for trim associated with the matching of the two differential input stages. Improved gain matching enhances the accuracy of the auto-zero, which further improves the accuracy of auto-gain correction, resulting in a synergy with both operating together. The implementation of the auto-zero using an input pair of series capacitors in conjunction with a common input reference and a feedback pair of series capacitors in conjunction with a common feedback reference provides for decoupling the common mode voltage of the input differential pair or feedback differential pair. Various features may be used in sub-combinations as desired.

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27 Claims

1. An instrumentation amplifier having first and second differential instrumentation amplifier inputs and a differential instrumentation amplifier output comprising:
- first and second variable gain differential input amplifiers, each having a differential input, and having their differential outputs coupled to provide a common differential output;
  
  a third differential amplifier having a first capacitor coupled across its differential input, and having each of its differential outputs coupled to control the gain of a respective one of the first and second variable gain differential input amplifiers;
  
  first switches coupled to the common differential output to disconnect the common differential output of the first and second variable gain differential input amplifiers from the differential instrumentation amplifier output and couple the output of the first and second variable gain differential input amplifiers to the differential input of the third differential amplifier;
  
  second switches operative with the first switches to disconnect the first and second differential instrumentation amplifier inputs from the first and second variable gain differential input amplifier differential inputs, and to couple the differential inputs of the first and second variable gain differential input amplifiers to a single differential voltage with a polarity whereby the combined output is the difference in differential output of the first and second variable gain differential input amplifiers;
  
  whereby on momentarily operating the first and second switches, a voltage is stored on the first capacitor providing a differential output of the third differential amplifier correcting the differences in gain in the first and second variable gain differential input amplifiers.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The instrumentation amplifier of claim 1 further comprising a first chopper coupled to the first differential instrumentation amplifier input, a second chopper coupled to the second differential instrumentation amplifier input and a third chopper coupled to the differential instrumentation amplifier output.
  - 3. The instrumentation amplifier of claim 1 wherein the second switches are coupled by second capacitors to the differential inputs of the first and second variable gain differential input amplifiers, and further comprising third switches for disconnecting the first and second differential instrumentation amplifier inputs and coupling the common differential output to the differential inputs of the first and second variable gain differential input amplifiers, and for coupling the inputs to the capacitors coupled to the differential input of the first variable gain differential input amplifier together and for coupling the inputs to the capacitors coupled to the differential input of the second variable gain differential input amplifier together;
    - whereby on momentarily closing the third switches, a voltage is stored on the second capacitors, zeroing the first and second variable gain differential input amplifiers.
  - 4. The instrumentation amplifier of claim 3 further comprising a first chopper coupled to the first differential instrumentation amplifier input, a second chopper coupled to the second differential instrumentation amplifier input and a third chopper coupled to the differential instrumentation amplifier output.
  - 5. The instrumentation amplifier of claim 4 wherein the third switches also couple the inputs to the capacitors coupled to the differential input of the first variable gain differential input amplifier to a common mode reference, and couple the inputs to the capacitors coupled to the differential input of the second variable gain differential input amplifier to another common mode reference.
  - 6. The instrumentation amplifier of claim 5 further comprising a first chopper coupled to the first differential instrumentation amplifier input, a second chopper coupled to the second differential instrumentation amplifier input and a third chopper coupled to the differential instrumentation amplifier output.

7. A feedforward instrumentation amplifier system having a differential instrumentation amplifier system input and an instrumentation amplifier system output comprising:
- an instrumentation amplifier having a first and second differential instrumentation amplifier inputs and a differential instrumentation amplifier output, and having;
  
  first and second variable gain differential input amplifiers, each having a differential input, and having their differential outputs coupled to provide a common differential output;
  
  a third differential amplifier having a first capacitor coupled across its differential input, and having each of its differential outputs coupled to control the gain of a respective one of the first and second variable gain differential input amplifiers;
  
  first switches coupled to the common differential output to disconnect the common differential output of the first and second variable gain differential input amplifiers from the differential instrumentation amplifier output and couple the output of the first and second variable gain differential input amplifiers to the differential input of the third differential amplifier;
  
  second switches operative with the first switches to disconnect the first and second differential instrumentation amplifier inputs from the first and second variable gain differential input amplifier differential inputs, and to couple the differential inputs of the first and second variable gain differential input amplifiers to a single differential voltage with a polarity whereby the combined output is the difference in differential output of the first and second variable gain differential input amplifiers;
  
  whereby on momentarily operating the first and second switches, a voltage is stored on the first capacitor providing a differential output of the third differential amplifier correcting the differences in gain in the first and second variable gain differential input amplifiers;
  
  fourth, fifth and sixth differential input amplifiers, the fourth and fifth amplifiers each having a differential output;
  
  the differential outputs of the fourth and fifth differential input amplifiers being coupled together and to the differential input of the sixth differential input amplifier, the output of the sixth differential input amplifier being coupled to the instrumentation amplifier system output;
  
  the differential instrumentation amplifier system input being coupled to the differential input of the fourth differential input amplifier and to the differential input of the first variable gain differential input amplifier;
  
  the differential input of the fifth differential input amplifier and the differential input of the second variable gain differential input amplifier being coupled together for coupling to a differential feedback signal from the instrumentation amplifier system output;
  
  the common differential output of the first and second variable gain differential input amplifiers being coupled to an integrator, an output of the integrator being coupled to the differential input of the sixth differential input amplifier.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15)
- - 8. The feedforward instrumentation amplifier system of claim 7 wherein one of the differential feedback signals is coupled to a reference voltage.
  - 9. The feedforward instrumentation amplifier system of claim 7 wherein the instrumentation amplifier further comprises a first chopper coupled to the first differential instrumentation amplifier input, a second chopper coupled to the second differential instrumentation amplifier input and a third chopper coupled between the differential instrumentation amplifier output and the integrator.
  - 10. The feedforward instrumentation amplifier system of claim 9 further comprised of a sample and hold circuit between the output of the integrator and the differential input of the sixth differential input amplifier.
  - 11. The feedforward instrumentation amplifier system of claim 7 wherein in the instrumentation amplifier, the second switches are coupled by second capacitors to the differential inputs of the first and second variable gain differential input amplifiers, and further comprising third switches for disconnecting the first and second differential instrumentation amplifier inputs and coupling the common differential output to the differential inputs of the first and second variable gain differential input amplifiers, and for coupling the inputs to the capacitors coupled to the differential input of the first variable gain differential input amplifier together and for coupling the inputs to the capacitors coupled to the differential input of the second variable gain differential input amplifier together;
    - whereby on momentarily closing the third switches, a voltage is stored on the second capacitors, zeroing the first and second variable gain differential input amplifiers.
  - 12. The feedforward instrumentation amplifier system of claim 11 wherein the instrumentation amplifier further comprises a first chopper coupled to the first differential instrumentation amplifier input, a second chopper coupled to the second differential instrumentation amplifier input and a third chopper coupled to the differential instrumentation amplifier output.
  - 13. The feedforward instrumentation amplifier system of claim 11 wherein in the instrumentation amplifier, the third switches also couple the inputs to the capacitors coupled to the differential input of the first variable gain differential input amplifier to common mode reference, and couple the inputs to the capacitors coupled to the differential input of the second variable gain differential input amplifier to another common mode reference.
  - 14. The feedforward instrumentation amplifier system of claim 13 wherein in the instrumentation amplifier further comprises a first chopper coupled to the first differential instrumentation amplifier input, a second chopper coupled to the second differential instrumentation amplifier input and a third chopper coupled to the differential instrumentation amplifier output.
  - 15. The feedforward instrumentation amplifier system of claim 14 further comprised of a sample and hold circuit between the output of the integrator and the differential input of the sixth differential input amplifier.

16. In an amplifier unit having first and second variable gain differential input amplifiers, and having first and second amplifier unit differential inputs and an amplifier unit differential output, a method of gain correction to match the gains of the first and second differential input amplifiers comprising:
- coupling differential outputs of the first and second variable gain differential input amplifiers in common;
  
  coupling the first and second amplifier unit differential inputs to the differential inputs of the first and second variable gain differential input amplifiers, respectively;
  
  coupling the common coupling of the differential outputs of the first and second variable gain differential input amplifiers to the amplifier unit differential output;
  
  providing a third differential input amplifier having a respective one of its differential output to control the gain of a respective one of the first and second variable gain differential input amplifiers; and
  
  ,repetitively;
  
  momentarily decoupling the first and second amplifier unit differential inputs from the differential inputs of the first and second variable gain differential input amplifiers, respectively, andmomentarily de-coupling the common coupling of the differential outputs of the first and second variable gain differential input amplifiers from the amplifier unit differential output, andmomentarily coupling each of the common connections of the first and second variable gain differential input amplifiers to a respective one of the differential inputs of the third differential input amplifier, andmomentarily applying a differential input to the first and second variable gain differential input amplifiers, andcapacitively storing a differential voltage on the differential input of the third differential input amplifier.
- View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
- - 17. The method of claim 16 wherein the differential voltage on the differential input of the third differential input amplifier is stored on a capacitor coupled across the differential input of the third differential input amplifier.
  - 18. The method of claim 16 wherein the amplifier unit is in a feedforward signal path of a feedforward gain-corrected instrumentation amplifier system.
  - 19. The method of claim 18 further comprising:
    - chopping the first and second amplifier unit differential inputs and the amplifier unit differential output.
  - 20. The method of claim 19 further comprising:
    - integrating the chopped amplifier unit differential output;
      
      sampling the integrated chopped amplifier unit differential output by a sample and hold circuit; and
      
      coupling an output of the sample and hold circuit to an output of the feedforward gain-corrected instrumentation amplifier system.
  - 21. The method of claim 16 wherein the first and second variable gain differential input amplifiers have capacitively coupled differential inputs, and further comprising:
    - auto-zeroing the first and second variable gain differential input amplifiers by;
      
      momentarily de-coupling the first and second amplifier unit differential inputs from the capacitively coupled differential inputs of the first and second variable gain differential input amplifiers, respectively, andmomentarily de-coupling the common coupling of the differential outputs of the first and second variable gain differential input amplifiers from the amplifier unit differential output; and
      
      momentarily shorting the capacitive coupled differential inputs of each of the first and second capacitively coupled differential input amplifiers;
      
      thereby canceling input offsets by voltages stored on the capacitive coupling on the differential inputs of the first and second differential input amplifiers.
  - 22. The method of claim 21 further comprising:
    - when momentarily shorting the capacitive coupled differential inputs of each of the first and second capacitively coupled differential input amplifiers, coupling the shorted differential input to the first differential input amplifier to a voltage approximating a common mode voltage of the first amplifier unit differential input, and coupling the shorted differential input to the second differential input amplifier to a voltage approximating a common mode voltage of the second amplifier unit differential input.
  - 23. The method of claim 21 further comprising:
    - alternately correcting the gain of the first and second differential input amplifiers and auto-zeroing the first and second variable gain differential input amplifiers.
  - 24. The method of claim 21 further comprising:
    - chopping the first and second amplifier unit differential inputs and the amplifier unit differential output.
  - 25. The method of claim 21 wherein the amplifier unit is in a feedforward signal path of a feedforward gain-corrected instrumentation amplifier system.
  - 26. The method of claim 25 further comprising:
    - chopping the first and second amplifier unit differential inputs and the amplifier unit differential output.
  - 27. The method of claim 26 further comprising:
    - integrating the chopped amplifier unit output;
      
      sampling the integrated chopped amplifier unit differential output by a sample and hold circuit; and
      
      coupling an output of the sample and hold circuit to an output of the feedforward gain-corrected instrumentation amplifier system.

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Current Assignee
Maxim Integrated Products, Inc. (Analog Devices, Inc.)
Original Assignee
Maxim Integrated Products, Inc. (Analog Devices, Inc.)
Inventors
Huijsing, Johan Hendrik, Boucher, Richard Edward
Primary Examiner(s)
Choe; Henry K

Application Number

US12/253,620
Time in Patent Office

543 Days
Field of Search

330/9, 330/124.R, 330/295, 330/254, 330/84, 330/126, 330/51
US Class Current

330/9
CPC Class Codes

H03F 3/45475 using IC blocks as the acti...

Auto-gain correction and common mode voltage cancellation in a precision amplifier

First Claim

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Auto-gain correction and common mode voltage cancellation in a precision amplifier

First Claim

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