IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0700738
(2007-01-31)
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등록번호 |
US-8265769
(2012-09-11)
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발명자
/ 주소 |
|
출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
19 인용 특허 :
71 |
초록
▼
This disclosure describes a chopper stabilized instrumentation amplifier. The amplifier is configured to achieve stable measurements at low frequency with very low power consumption. The instrumentation amplifier uses a differential architecture and a mixer amplifier to substantially eliminate noise
This disclosure describes a chopper stabilized instrumentation amplifier. The amplifier is configured to achieve stable measurements at low frequency with very low power consumption. The instrumentation amplifier uses a differential architecture and a mixer amplifier to substantially eliminate noise and offset from an output signal produced by the amplifier. Dynamic limitations, i.e., glitching, that result from chopper stabilization at low power are substantially eliminated through a combination of chopping at low impedance nodes within the mixer amplifier and feedback. The signal path of the amplifier operates as a continuous time system, providing minimal aliasing of noise or external signals entering the signal pathway at the chop frequency or its harmonics. The amplifier can be used in a low power system, such as an implantable medical device. The amplifier may be used for physiological signal sensing, impedance sensing, telemetry or other test and measurement applications.
대표청구항
▼
1. A wireless telemetry receiver comprising: a mixer amplifier that amplifies a modulated telemetry signal to produce an amplified signal and demodulates the amplified signal at a clock frequency to produce an output signal;a modulator that modulates an amplitude of the output signal at the clock fr
1. A wireless telemetry receiver comprising: a mixer amplifier that amplifies a modulated telemetry signal to produce an amplified signal and demodulates the amplified signal at a clock frequency to produce an output signal;a modulator that modulates an amplitude of the output signal at the clock frequency; anda feedback path that applies the modulated output signal as a feedback signal to the modulated telemetry signal at an input of the mixer amplifier. 2. The receiver of claim 1, further comprising a clock synchronizer that substantially synchronizes the clock frequency with a modulation frequency of the modulated telemetry signal. 3. The receiver of claim 1, wherein the mixer amplifier is a differential input mixer amplifier, the input of the mixer amplifier includes a first input and a second input, and the modulated telemetry signal is a modulated, differential telemetry signal, and wherein the feedback path includes a first feedback path branch coupled to the first input of the mixer amplifier and a second feedback path branch coupled to the second input of the mixer amplifier, and wherein the modulator includes a modulator in the first feedback path branch and a modulator in the second feedback path branch that modulate the amplitude of the output signal out of phase with one another. 4. The receiver of claim 3, wherein each of the first and second feedback path branches includes a feedback capacitance, each of the first and second inputs of the mixer amplifier is coupled to receive the modulated, differential telemetry signal via an input capacitance, and a gain of the mixer amplifier is at least partially dependent on a ratio of the feedback capacitance to the input capacitance. 5. The receiver of claim 1, wherein the feedback path is a first feedback path, the receiver further comprising: an integrator that integrates the output signal;a third modulator that modulates the integrated output signal at the clock frequency to produce a second feedback signal; anda second feedback path that applies the second feedback signal to the modulated telemetry signal. 6. The receiver of claim 5, wherein the mixer amplifier is a differential input mixer amplifier, the input of the mixer amplifier includes a first input and a second input, and the modulated telemetry signal is a modulated, differential telemetry signal, and wherein the second feedback path includes a first feedback path branch coupled to the first input of the mixer amplifier and a second feedback path branch coupled to the second input of the mixer amplifier, and wherein the third modulator includes a modulator in the first feedback path branch and a modulator in the second feedback path branch that modulate the amplitude of the integrated output signal out of phase with one another. 7. The receiver of claim 6, wherein each of the first and second feedback path branches of the second feedback path includes a feedback capacitance, and wherein the second feedback path is dominant at frequencies lower than a high pass cutoff frequency, and the first feedback path is dominant at frequencies above the high pass cutoff frequency. 8. The receiver of claim 1, further comprising a power source to power the mixer amplifier, wherein the power source delivers less than approximately 2.0 microamps of electrical current to the amplifier during operation, and delivers a voltage of less than approximately 2.0 volts to the circuit. 9. The receiver of claim 1, further comprising an antenna that receives the modulated telemetry signal and presents the modulated telemetry signal to the mixer amplifier. 10. The receiver of claim 1, wherein the receiver is configured to reside within an implantable medical device. 11. The receiver of claim 10, wherein the implantable medical device includes one of a cardiac pacemaker, a cardiac defibrillator, an electrical neurostimulator, and an implantable drug delivery device. 12. The receiver of claim 1, wherein the mixer amplifier and the feedback path form a synchronous demodulator for the modulated telemetry signal. 13. The receiver of claim 1, wherein the mixer amplifier includes an integrator that integrates the demodulated signal to produce the output signal. 14. The receiver of claim 9, wherein the modulated telemetry signal comprises a modulated, differential telemetry signal, wherein the feedback signal comprises a differential feedback signal, and wherein the antenna presents the modulated telemetry signal to the mixer amplifier as the modulated, differential telemetry signal. 15. The receiver of claim 5, wherein the modulated telemetry signal comprises a modulated, differential telemetry signal, wherein the feedback signal comprises a differential feedback signal, and wherein the second feedback signal comprises a second differential feedback signal. 16. The receiver of claim 1, wherein the modulated telemetry signal comprises a modulated, differential telemetry signal, and wherein the feedback signal comprises a differential feedback signal. 17. A wireless telemetry receiver comprising: means for amplifying a modulated telemetry signal to produce an amplified signal;means for demodulating the amplified signal at a clock frequency to produce an output signal;means for modulating an amplitude of the output signal at the clock frequency; andmeans for applying the modulated output signal as a feedback signal to the modulated telemetry signal at an input of the means for amplifying. 18. The receiver of claim 17, wherein the modulated telemetry signal comprises a modulated, differential telemetry signal, and wherein the feedback signal comprises a differential feedback signal. 19. A method comprising: amplifying, with a mixer amplifier, a modulated telemetry signal to produce an amplified signal;demodulating, with the mixer amplifier, the amplified signal at a clock frequency to produce an output signal;modulating an amplitude of the output signal at the clock frequency; andapplying the modulated output signal as a feedback signal to the modulated telemetry signal at an input of the mixer amplifier. 20. The method of claim 19, further comprising substantially synchronizing the clock frequency with a modulation frequency of the modulated telemetry signal. 21. The method of claim 19, wherein the input of the mixer amplifier includes a first input and a second input, the modulated telemetry signal is a modulated, differential telemetry signal, and the feedback signal is a differential feedback signal, the method further comprising applying the differential feedback signal via a first feedback path branch coupled to the first input of the mixer amplifier and a second feedback path branch coupled to the second input of the mixer amplifier, wherein modulating an amplitude of the output signal comprises modulating the amplitude of the output signal in the first feedback path branch and modulating the amplitude of the output signal in the second feedback path branch out of phase with modulation in the first feedback path branch. 22. The method of claim 21, wherein each of the first and second feedback path branches includes a feedback capacitance, each of the first and second inputs of the mixer amplifier is coupled to receive the modulated, differential telemetry signal via an input capacitance, and a gain of the mixer amplifier is at least partially dependent on a ratio of the feedback capacitance to the input capacitance. 23. The method of claim 19, wherein applying the modulated output signal as a feedback signal to the modulated telemetry signal at the input of the mixer amplifier comprises applying the modulated output signal to the modulated telemetry signal via a first feedback path, the method further comprising: integrating the output signal;modulating the integrated output signal at the clock frequency to produce a second feedback signal; andapplying the second feedback signal to the modulated telemetry signal via a second feedback path. 24. The method of claim 23, wherein the input of the mixer amplifier includes a first input and a second input, the modulated telemetry signal is a modulated, differential telemetry signal, and the feedback signal is a differential feedback signal, and wherein the second feedback path includes a first feedback path branch coupled to the first input of the mixer amplifier and a second feedback path branch coupled to the second input of the mixer amplifier, and modulating the integrated output signal comprises modulating the amplitude of the integrated output signal in the first feedback path branch and modulating the amplitude of the integrated output signal in the second feedback path branch out of phase with modulation in the first feedback path branch. 25. The method of claim 24, wherein each of the first and second feedback path branches of the second feedback path includes a feedback capacitance, and wherein the second feedback path is dominant at frequencies lower than a high pass cutoff frequency, and the first feedback path is dominant at frequencies above the high pass cutoff frequency. 26. The method of claim 19, further comprising amplifying the modulated telemetry signal and demodulating the amplified signal in a mixer amplifier, and powering the mixer amplifier with less than approximately 2.0 microamps of electrical current and less than approximately 2.0 volts of electrical voltage during operation. 27. The method of claim 26, wherein the mixer amplifier resides within an implantable medical device. 28. The method of claim 27, wherein the implantable medical device includes one of a cardiac pacemaker, a cardiac defibrillator, an electrical neurostimulator, and an implantable drug delivery device. 29. The method of claim 27, further comprising receiving the modulated telemetry signal from an external medical device programmer. 30. The method of claim 19, further comprising integrating the demodulated signal to produce the output signal. 31. The method of claim 23, wherein the modulated telemetry signal comprises a modulated, differential telemetry signal, wherein the feedback signal comprises a differential feedback signal, and wherein the second feedback signal comprises a second differential feedback signal. 32. The method of claim 19, wherein the modulated telemetry signal comprises a modulated, differential telemetry signal, and wherein the feedback signal comprises a differential feedback signal. 33. An implantable medical device comprising: an antenna that receives a modulated telemetry signal;a mixer amplifier that amplifies the modulated telemetry signal to produce an amplified signal and demodulates the amplified signal at a clock frequency to produce an output signal;a modulator that modulates an amplitude of the output signal at the clock frequency; anda feedback path that applies the modulated output signal as a feedback signal to the modulated telemetry signal at an input of the mixer amplifier. 34. The implantable medical device of claim 33, wherein the modulated telemetry signal comprises a modulated, differential telemetry signal, wherein the feedback signal comprises a differential feedback signal, and wherein the antenna presents the modulated telemetry signal to the mixer amplifier as the modulated, differential telemetry signal. 35. A medical device system comprising: a medical device programmer comprising a modulator that modulates a telemetry signal at a clock frequency, and a first antenna that transmits the modulated telemetry signal; andan implantable medical device comprising: a second antenna that receives the modulated telemetry signal,a mixer amplifier that amplifies the modulated telemetry signal to produce an amplified signal and demodulates the amplified signal at a clock frequency to produce an output signal,a modulator that modulates an amplitude of the output signal at the clock frequency, anda feedback path that applies the modulated output signal as a feedback signal to the modulated telemetry signal at an input of the mixer amplifier. 36. The medical device system of claim 35, wherein the modulated telemetry signal comprises a modulated, differential telemetry signal, wherein the feedback signal comprises a differential feedback signal, and wherein the second antenna presents the modulated telemetry signal to the mixer amplifier as the modulated, differential telemetry signal.
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