Telemetry format for implanted medical device
First Claim
1. A method for transmitting information encoded telemetry signals percutaneously between a medical device implanted within a human body and an external device, comprising the steps of:
- (a) formating the telemetry signal to be transmitted by establishing a frame having a predetermined time interval and at least first, second and third interval ranges within said frame, each range comprising a set of available pulse positions;
(b) encoding said formatted telemetry signal by;
(1) placing a synchronizing signal at a predetermined pulse position within said first interval range within said frame;
(2) placing a frame identifier signal at a preselected pulse position within said second interval range within said frame, which pulse position signifies the type of information being transmitted;
(3) placing a data bit signal at a preselected pulse position within said third interval range within said frame, which pulse position signifies the value of the data bit signal being transmitted; and
(c) transmitting said formatted and encoded telemetry signal between said implanted medical device and said external device.
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Abstract
A method and apparatus are disclosed for telemetering both analog and digital data from an implantable medical device to an external receiver, such as between an implanted cardiac pacer and its external programming equipment. Analog data is first converted to digital format by an analog-to-digital converter, such that the transmission is digital data. A damped carrier at 175 kilohertz is pulse position modulated by the data. The modulation scheme defines a frame of slightly less than 2 milliseconds. The frame is divided into 64 individual time periods using a crystal clock. The data, along with synchronization and identification codes, are positioned into predefined ranges within each frame as measured by the individual time periods. The data is uniquely identified by the position of a burst of the carrier within the predetermined range. This modulation scheme enables necessary data to be transmitted at sufficiently high rates with reduced power requirements thereby conserving the internal battery of the implantable device. This modulation scheme provides flexibility of use, for example, with complex medical devices where transmission of increased volumes of data is desirable, such as cardiac devices having dual-chamber or multisensor capabilities, and for controlling particular conditions, such as tachyarrhythmia.
630 Citations
11 Claims
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1. A method for transmitting information encoded telemetry signals percutaneously between a medical device implanted within a human body and an external device, comprising the steps of:
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(a) formating the telemetry signal to be transmitted by establishing a frame having a predetermined time interval and at least first, second and third interval ranges within said frame, each range comprising a set of available pulse positions; (b) encoding said formatted telemetry signal by; (1) placing a synchronizing signal at a predetermined pulse position within said first interval range within said frame; (2) placing a frame identifier signal at a preselected pulse position within said second interval range within said frame, which pulse position signifies the type of information being transmitted; (3) placing a data bit signal at a preselected pulse position within said third interval range within said frame, which pulse position signifies the value of the data bit signal being transmitted; and (c) transmitting said formatted and encoded telemetry signal between said implanted medical device and said external device. - View Dependent Claims (2, 3, 4, 5)
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6. Apparatus for transmitting information encoded telemetry signals percutaneously between an implantable medical device and an external device, comprising:
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(a) means for providing data bits to be transmitted and providing an identification bit signifying the type of data bits to be transmitted; (b) frame formatting means for defining a transmission frame of a predetermined time interval and having first, second and third interval ranges within said predetermined time interval; (c) clock means for providing clock signals at a preset clock interval; (d) means responsive to said clock signals and to said identification and data bit providing means for encoding said formatted telemetry signal further comprising means coupled to said frame defining means for generating a synchronizing signal at a certain pulse position within said first interval range of said transmission frame, generating a frame identifier signal at a certain pulse position within said second interval range of said transmission frame representative of the type of data bit to be transmitted, and generating a data signal at a certain pulse position within said third interval range of said transmission frame representative of the value of the data bit; and (e) means for transmitting said formatted and encoded telemetry signals between said implanted medical device and said external device. - View Dependent Claims (7, 8, 9, 10)
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11. An apparatus for transmitting the electrogram from a patient'"'"'s heart from an implantable medical device to an external device, comprising:
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(a) sensing means for sensing the patient'"'"'s natural heart beat and providing a time varying analog signal representative of the electrogram of the beating heart; (b) analog to digital conversion means responsive to said varying analog signal for periodically sampling and converting the analog value to a digital data bit; (c) means for storing said sampled digital values in a data buffer; (d) frame defining means for defining a transmission frame of a predetermined time interval and having first, second and third interval ranges within said frame; (e) clock means for transmitting said formatted and encoded telemetry signals between said implanted medical device and said external device; (f) means responsive to said clock signals and said digital bits for encoding said formatted telemetry signal further comprising means coupled to said frame defining means for generating a synchronizing signal at a certain pulse position within said first interval range, generating a frame identifier signal at a pulse position within said second interval range of said transmission frame identifying the frame to be transmitted as representative of the electrogram, generating a data signal representative of the value of the digital bit converted electrogram signal at a pulse position within said third interval range of said transmission frame as a function of the value of the digitized electrogram signal at that time; and (g) means for transmitting said formatted and encoded telemetry signals between said implanted medical device and said external device repetitively upon each periodic sampling of the EGM signal.
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Specification