Method and apparatus for processing quasi-transient telemetry signals in noisy environments
First Claim
1. In a transceiver for transmitting and receiving radio frequency signals from an implantable medical device, said transceiver including a telemetry receiver comprising an inductive-capacitive tuned antenna circuit, signal detection means and signal discrimination means, and wherein said signals are representative of either analog or digital values and wherein said signals are induced in said inductive-capacitive tuned antenna circuit, the improvement in detecting and discriminating received data signals from noise signals comprising:
- means for amplifying RF signals induced within said inductive-capacitive tuned antenna circuit and providing an amplified RF signal;
means responsive to said amplified RF signal for shifting its phase and for providing a phase shifted, amplified RF signal;
means for mixing said phase shifted, amplified RF signal with said amplified RF signal for providing a monophasic component of said mixed RF amplified signal, the amplitude of which is a function of frequency;
means for establishing a threshold amplitude value;
means for demodulating said monophasic component of said mixed RF amplified signal for providing a detected DC component of said RF amplified signal; and
means for comparing the amplitude of said DC component with said threshold amplitude for providing a detected and demodulated output signal discriminated from noise signals, wherein said output signal represents implanted medical device performance characteristics or programming parameters.
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Abstract
A software-controlled, external programmer for transcutaneously programming and receiving data from an implanted medical device providing enhanced discrimination and detection of pulse-interval-coded signals of interest telemetered out of the implanted medical device from undesirable transient and steady-state noise. The programmer incorporates a detector including an active mixer and a precision tuned active phase shifting network providing low level signal rectification, precise narrow bandpass filtering, and 30 decibels of amplification. At the detector, the received signal is mixed with a phase shifted version of itself to produce a detected DC component which is a function of frequency. The DC response emulates a system with a narrow 25 kHz bandpass filter operating at 175 kHz, but does not share its undesirable transient response. For signals in the reject band, the output produces a signal of the opposite polarity of the signals within the pass bands. Transient0 noise excites the receiver antenna and produces a ringing response accompanied by components above 400 kHz. The noise response of the antenna stimulates the detector to produce the intended inverted output. As the transient noise amplitude increases, the inverted response increases in amplitude driving the output level further away from the trigger level of a post-detection comparator. Similarly, any steady state noise signal in the reject band will also result in a steady state inverted response that does not trigger the comparator.
157 Citations
8 Claims
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1. In a transceiver for transmitting and receiving radio frequency signals from an implantable medical device, said transceiver including a telemetry receiver comprising an inductive-capacitive tuned antenna circuit, signal detection means and signal discrimination means, and wherein said signals are representative of either analog or digital values and wherein said signals are induced in said inductive-capacitive tuned antenna circuit, the improvement in detecting and discriminating received data signals from noise signals comprising:
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means for amplifying RF signals induced within said inductive-capacitive tuned antenna circuit and providing an amplified RF signal; means responsive to said amplified RF signal for shifting its phase and for providing a phase shifted, amplified RF signal; means for mixing said phase shifted, amplified RF signal with said amplified RF signal for providing a monophasic component of said mixed RF amplified signal, the amplitude of which is a function of frequency; means for establishing a threshold amplitude value; means for demodulating said monophasic component of said mixed RF amplified signal for providing a detected DC component of said RF amplified signal; and means for comparing the amplitude of said DC component with said threshold amplitude for providing a detected and demodulated output signal discriminated from noise signals, wherein said output signal represents implanted medical device performance characteristics or programming parameters. - View Dependent Claims (2, 3, 4)
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5. A method for detecting and discriminating received radio frequency data signals from noise signals in a transceiver for transmitting and receiving radio frequency signals from an implantable medical device, comprising the steps of:
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a. providing modulated data signals at a predetermined frequency; b. adjusting a capacitor value within an inductive-capacitive tuned antenna circuit such that said antenna circuit resonates at a frequency below the predetermined frequency; c. sensing said data and noise signals with said antenna circuit; and d. processing said sensed data and noise signals to discriminate said sensed data signals from said sensed noise signals. - View Dependent Claims (6, 7, 8)
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Specification