Two-way TDMA telemetry system with power conservation features

US 5,748,103 A
Filed: 07/09/1996
Issued: 05/05/1998
Est. Priority Date: 11/13/1995
Status: Expired due to Term

First Claim

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1. In a two-way TDMA telemetry system in which a plurality of remote telemeters transmit telemetry data, including real-time waveform data, to a data receiving station during respective telemetry timeslots of a TDMA frame, and in which the data receiving station transmits control data to the telemeters during at least one control timeslot of the TDMA frame, a method of extending the battery life of a first remote telemeter that transmits continuous real-time waveform data to the data receiving station, the method comprising, during the TDMA frame:

(a) providing battery power to active transmitter components of the first remote telemeter during a first telemetry timeslot which corresponds to the remote telemeter, to thereby allow the first remote telemeter to transmit telemetry data, including the continuous real-time waveform data, to the data receiving station during said first telemetry timeslot;

(b) providing battery power to at least one active receiver component of the first remote telemeter during said at least one control timeslot, to thereby allow the remote telemeter to receive control information from the data receiving station; and

(c) maintaining said active transmitter and receiver components in respective low-power states during a plurality of telemetry timeslots which correspond to other remote telemeters of the system;

the method thereby conserving battery power during timeslots for which the remote telemeter is neither transmitting nor receiving data.

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Abstract

A two-way medical telemetry system is provided for displaying and monitoring, at a central location, physiologic and other patient data of multiple, remotely-located patients. The system comprises multiple battery-powered remote telemeters, each of which is worn by a respective patient, and a central station which receives, displays and monitors the patient data received (via RF) from the remote telemeters. The telemeters communicate with the central station using a two-way TDMA protocol which permits the time sharing of timeslots, and which uses a contention slot to permit telemeters to transmit service requests to the central station. Two-way spacial diversity is provided using only one antenna and one transceiver on each remote telemeter. The remote telemeters include circuitry for turning off the active transceiver components thereof when not in use (to conserve battery power), and include circuitry for performing a rapid, low-power frequency lock cycle upon power-up. The system has multiple modes of operation, including a frequency hopping (spread spectrum) mode and a fixed frequency mode, both of which preferably make use of the 902-928 MHz ISM band. Patient locators are provided to allow the clinician to track the location of each patient.

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24 Claims

1. In a two-way TDMA telemetry system in which a plurality of remote telemeters transmit telemetry data, including real-time waveform data, to a data receiving station during respective telemetry timeslots of a TDMA frame, and in which the data receiving station transmits control data to the telemeters during at least one control timeslot of the TDMA frame, a method of extending the battery life of a first remote telemeter that transmits continuous real-time waveform data to the data receiving station, the method comprising, during the TDMA frame:
- (a) providing battery power to active transmitter components of the first remote telemeter during a first telemetry timeslot which corresponds to the remote telemeter, to thereby allow the first remote telemeter to transmit telemetry data, including the continuous real-time waveform data, to the data receiving station during said first telemetry timeslot;
  
  (b) providing battery power to at least one active receiver component of the first remote telemeter during said at least one control timeslot, to thereby allow the remote telemeter to receive control information from the data receiving station; and
  
  (c) maintaining said active transmitter and receiver components in respective low-power states during a plurality of telemetry timeslots which correspond to other remote telemeters of the system;
  
  the method thereby conserving battery power during timeslots for which the remote telemeter is neither transmitting nor receiving data.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The method as in claim 1, wherein step (a) comprises switching an amplifier and a voltage-controlled oscillator of the remote telemeter to an ON state.
  - 3. The method as in claim 2, wherein step (a) further comprises switching a programmable phase-lock loop (PLL) device from a low-power state to an operational state and initiating a frequency lock operation with said PLL device.
  - 4. The method as in claim 3, wherein step (a) further comprises switching said programmable PLL device from said operational state to said low-power state once said frequency lock operation has been completed, and maintaining said PLL device in said low-power state while said remote telemeter transmits said telemetry data, thereby additionally conserving battery power during data transmissions from the remote telemeter.
  - 5. The method as in claim 1, wherein step (a) comprises transmitting said telemetry data from the remote telemeter within the ISM band.
  - 6. The method as in claim 1, wherein step (b) comprises switching a receiver circuit to an ON state.
  - 7. The method as in claim 1, wherein step (c) comprises maintaining an amplifier and a voltage-controlled oscillator in an OFF state.
  - 8. The method as in claim 1, wherein steps (a), (b) and (c) are performed during every TDMA frame.
  - 9. The method as in claim 1, wherein said telemetry data comprises realtime physiologic data measured from a patient.
  - 10. The method as in claim 1, wherein step (a) comprises performing a frequency lock operation during a dead period of a TDMA timeslot, the dead period being a period of time during which no device of the telemetry system transmits data on a radio frequency channel.
  - 11. The method as in claim 1, wherein said real-time waveform data comprises real-time ECG waveform data measured from a patient.
  - 12. The method as in claim 1, wherein steps (a)-(c) are performed under the control of a processor that remains in a powered-up state during the entire TDMA frame.

13. A remote telemeter for use in an ambulatory TDMA medical telemetry system which includes a data receiving station and a plurality of remote telemeters, the data receiving station and telemeters configured to communicate bi-directionally using a TDMA protocol in which the telemeters transmit physiologic data, including real-time ECG waveform data, on uniquely-corresponding telemetry timeslots, and in which the data receiving station transmits control information to the remote telemeters during control timeslots, the remote telemeter comprising:
- sensor circuitry for sensing the physiologic data of a patient;
  
  a processor coupled to said sensor circuitry;
  
  a battery-powered transceiver responsive to said processor to transmit the physiologic data of the patient, including real-time ECG waveform data of the patient, to the data receiving station during telemetry timeslots which correspond to the remote telemeter, and to receive control information from the data receiving station during control timeslots, said transceiver comprising active transmitter and receiver components which are coupled to said processor such that said processor selectively switches said active components between respective low-power and operational states to conserve battery power; and
  
  a control program executed by said processor to implement said TDMA protocol, said control program configured to maintain said active transmitter and receiver components in said respective low power states during telemetry timeslots which do not corresponds to the remote telemeter, thereby conserving battery power during timeslots for which the remote telemeter is neither transmitting nor receiving data.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 14. The remote telemeter as in claim 13, wherein said transceiver comprises a voltage controlled oscillator (VCO) coupled to said processor such that said processor selectively provides battery power to said VCO.
  - 15. The remote telemeter as in claim 14, wherein said transceiver further comprises an amplifier coupled to said processor such that said processor selectively provides battery power to said amplifier.
  - 16. The remote telemeter as in claim 13, wherein said transceiver comprises a programmable phase-lock loop (PLL) device coupled to said processor such that said processor selectively switches said PLL device between a low-power state and an operational state.
  - 17. The remote telemeter as in claim 16, wherein said control program is configured to perform a frequency lock operation with said programmable PLL device before telemetry timeslots which correspond to the remote telemeter, the frequency lock operation comprising switching said programmable PLL device to said operational state to generate a carrier signal with said programmable PLL device.
  - 18. A The remote telemeter as in claim 17, wherein said frequency lock operation further comprises:
    - (i) initiating a phase-lock process with said PLL device, and (ii) interrupting said phase-lock process once said carrier signal has settled to within an acceptable margin of frequency error.
  - 19. The remote telemeter as in claim 17, wherein said control program causes said processor to switch said programmable PLL device to said low-power state once said carrier signal is generated and to maintain said programmable PLL device in said low-power state while the remote telemeter transmits physiologic data.
  - 20. The remote telemeter as in claim 13, wherein said transceiver comprises a receiver coupled to said processor such that said processor selectively provides battery power to said receiver.
  - 21. The remote telemeter as in claim 13, wherein said sensor circuitry, transceiver and processor are contained within a housing, said housing configured for attachment to an ambulatory patient.
  - 22. The remote telemeter as in claim 13, wherein said control program is configured to transmit telemetry data from the remote telemeter within the ISM band.
  - 23. The remote telemeter as in claim 13, wherein said processor performs a frequency lock operation during a dead period of a TDMA timeslot.
  - 24. The remote telemeter as in claim 13, wherein the processor is configured to remain in a powered-up state during operation of the telemeter.

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Current Assignee
GE Medical Systems Information Technologies Incorporated (General Electric Company)
Original Assignee
VitalCom, Inc. (General Electric Company)
Inventors
Flach, Terry E., Stoop, Michael D.
Primary Examiner(s)
Horabik, Michael
Assistant Examiner(s)
WONG, ALBERT KANG

Application Number

US08/677,068
Time in Patent Office

665 Days
Field of Search

340/870.11, 340/870.01-870.03, 340/870.13, 340/870.07, 370/321, 370/337, 370/347, 128/903, 128/696, 600/523, 600/483, 600/509
US Class Current

340/870.07
CPC Class Codes

A61B 2560/0209   adapted for power saving

A61B 5/0006   ECG or EEG signals

A61B 5/0022   Monitoring a patient using ...

A61B 5/1113   Local tracking of patients,...

G16H 40/67   for remote operation

H03L 3/00   Starting of generators

H03L 7/10   for assuring initial synchr...

H03L 7/104   using an additional signal ...

H03L 7/14   for assuring constant frequ...

H04B 1/1615   Switching on; Switching off...

H04W 52/0216   using a pre-established act...

H04W 52/0219   where the power saving mana...

Y02D 30/70   in wireless communication n...

Y10S 128/903   Radio telemetry

Two-way TDMA telemetry system with power conservation features

First Claim

2 Assignments

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Abstract

769 Citations

24 Claims

Specification

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Two-way TDMA telemetry system with power conservation features

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

769 Citations

24 Claims

Specification

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Solutions

Use Cases

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