Offset compensated differential amplifier
First Claim
1. An offset-compensated differential amplifier, comprising:
- a differential input stage comprising first and second input devices, said input stage having first and second input electrodes and first and second output terminals;
a differential load stage comprising first and second load devices having first and second control electrodes respectively, said load stage coupled to said differential input stage and to said first and second output terminals; and
first and second biasing circuits coupled to said first and second output terminals and coupled respectively to said first and second control electrodes for separately driving said first and second load devices to provide offset-voltage compensation.
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Accused Products
Abstract
A differential amplifier comprises a differential input stage including first and second input devices and has first and second input electrodes and first and second output terminals. A differential load stage includes first and second load devices having first and second control electrodes respectively. The load stage is coupled to the differential input stage and to the first and second output terminals. First and second separate capacitive biasing networks are coupled to the first and second output terminals and respectively to the first and second control electrodes. During an offset-cancellation phase, the input electrodes are coupled to a common voltage. During an amplification phase, a differential input signal is applied to the input electrodes.
43 Citations
32 Claims
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1. An offset-compensated differential amplifier, comprising:
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a differential input stage comprising first and second input devices, said input stage having first and second input electrodes and first and second output terminals;
a differential load stage comprising first and second load devices having first and second control electrodes respectively, said load stage coupled to said differential input stage and to said first and second output terminals; and
first and second biasing circuits coupled to said first and second output terminals and coupled respectively to said first and second control electrodes for separately driving said first and second load devices to provide offset-voltage compensation. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
a first capacitor having a first terminal coupled to said first output terminal and having a second terminal; and
a second capacitor having a first terminal coupled to said second output terminal and having a second terminal coupled to the second terminal of said first capacitor and to said first control electrode.
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3. A differential amplifier according to claim 2 wherein the second biasing circuit comprises:
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a third capacitor having a first terminal coupled to said first output terminal and having a second terminal; and
a fourth capacitor having a first terminal coupled to said second output terminal and having a second terminal coupled to the second terminal of said third capacitor and to said second control electrode.
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4. A differential amplifier according to claim 3 further comprising a third capacitor coupled between said first and second control electrodes.
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5. A differential amplifier according to claim 3 wherein said first capacitor has a capacitance substantially equal to that of said fourth capacitor.
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6. A differential amplifier according to claim 5 wherein said second capacitor has a capacitance substantially equal to that of said third capacitor.
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7. A differential amplifier according to claim 6 further comprising first and second switches coupled to said first and second input electrodes and configured to apply an input signal to said first and second input electrodes when said first and second switches are in a first state.
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8. A differential amplifier according to claim 7 further comprising third and fourth switches coupled to said first and second input electrodes and configured to couple said first and second input electrodes to a common voltage when said third and fourth switches are in said first state.
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9. A differential amplifier according to claim 8 further comprising fifth and sixth switches, said fifth switch coupled between said first control electrode and said first output terminal and said sixth switch coupled between said second control electrode and said second output terminal.
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10. A differential amplifier according to claim 9 wherein said first and second input devises are MOS transistors of the same channel type.
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11. A differential amplifier according to claim 10 wherein said first and second load devices are MOS transistors of the same channel type.
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12. A differential amplifier according to claim 11 wherein said first and second input devices are n-channel field-effect-transistors and said first and second load devices are p-channel field-effect-transistors.
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13. A differential amplifier according to claim 8 wherein a biasing voltage is stored across said first and second capacitors and across said third and fourth capacitors when said third and fourth switches are in said first state.
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14. A differential amplifier according to claim 13 wherein said biasing voltage is the average of the voltages at the first and second output terminals when the first and second switches are in said first state.
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15. A differential amplifier according to claim 14 wherein said biasing voltage is applied to said first and second control electrodes when said first and second switches are in said first state to cancel input offset-voltage.
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16. An offset-compensated differential amplifier, comprising:
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a differential input stage comprising first and second input devices, said input stage having first and second input electrodes and first and second output terminals;
a differential load stage comprising first and second load devices having first and second control electrodes respectively, said load stage coupled to said differential input stage and to said first and second output terminals;
first and second capacitive networks coupled to said first and second output terminals and coupled respectively to said first and second control electrodes for separately driving said first and second load devices; and
a first capacitor coupled between said first and second control electrodes. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23)
a second capacitor having a first terminal coupled to said first output terminal and having a second terminal; and
a third capacitor having a first terminal coupled to said second output terminal and having a second terminal coupled to the second terminal of said second capacitor and to said first control electrode.
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18. A differential amplifier according to claim 17 wherein said second capacitive network comprises:
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a fourth capacitor having a first terminal coupled to said first output terminal and having a second terminal; and
a fifth capacitor having a first terminal coupled to said second output terminal and having a second terminal coupled to the second terminal of said fourth capacitor and to said second control electrode.
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19. A differential amplifier according to claim 18 wherein said second capacitor has a capacitance substantially equal to that of said fifth capacitor and said third capacitor has a capacitance substantially equal to that of said fourth capacitor.
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20. A differential amplifier according to claim 19 further comprising:
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first and second switches coupled to said first and second input terminals and configured to apply an input signal to said first and second input electrodes when said first and second switches are in a first state; and
third and fourth switches coupled to said first and second input electrodes and configured to couple said first and second input electrodes to a common voltage when said third and fourth switches are in said first state.
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21. A differential amplifier according to claim 20 further comprising fifth and sixth switches, said fifth switch coupled between said first control electrode and said first output terminal and said sixth switch coupled between said second control electrode and said second output terminal.
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22. A differential amplifier according to claim 21 wherein a biasing voltage is stored across said second and third capacitors and across said fourth and fifth capacitors when said third and fourth switches are in said first state.
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23. A differential amplifier according to claim 22 wherein said biasing voltage is the average of the voltages at the first and second output terminals when the first and second switches are in said first state and wherein said biasing voltage is applied to said first and second control electrodes when said first and second switches are in said first state to cancel input offset-voltage.
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24. An offset-compensated differential amplifier, comprising:
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a differential input stage comprising first and second input devices, said input stage having first and second input electrodes and first and second output terminals;
a differential load stage comprising first and second load devices having first and second control electrodes respectively, said load stage coupled to said differential input stage and to said first and second output terminals;
a first capacitor coupled between said first and second control electrodes; and
an offset compensation circuit coupled to said first and second output terminals and coupled respectively to said first and second control electrodes for providing separate compensation biasing signals to said first and second control electrodes. - View Dependent Claims (25, 26, 27, 28, 29)
first and second switches coupled to said first and second input electrodes and configured to apply an input signal to said first and second input electrodes when said first and second switches are in a first state; and
third and fourth switches coupled to said first and second input electrodes and configured to couple said first and second electrodes to a common voltage when said third and fourth switches are in said first state.
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29. A differential amplifier according to claim 28 wherein said biasing voltage is the average of the voltages at the first and second output terminals when the first and second switches are in said first state and wherein said biasing voltage is applied to said first and second control electrodes when said first and second switches are in said first state to compensate for input offset-voltage.
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30. A method for compensating for input offset-voltage in a differential amplifier of the type which comprises a differential input stage including first and second input devices, a differential load stage comprising first and second load devices each having a control electrode, and first and second output terminals, the method comprising:
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coupling said first and second input devices to a common voltage;
storing a voltage representative of the resultant input offset-voltage;
coupling said differential input stage to a differential input signal; and
separately applying offset-voltage compensation signals to said first and second control electrodes respectively. - View Dependent Claims (31, 32)
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Specification