Implantable stimulator having quiescent and active modes of operation

US 5,350,407 A
Filed: 12/30/1992
Issued: 09/27/1994
Est. Priority Date: 12/30/1992
Status: Expired due to Term

First Claim

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1. A method of selectively controlling an implantable stimulator having stimulator circuits which operate either in a quiescent state of operation or in an active state of operation, in response to commands from an external communicating device, said stimulator having an oscillator providing timing signals for use in switching from one of said states of operation to another of said states of operation and telemetry circuitry for communicating with the external communicating device, said method comprising the steps of:

transmitting a deactivating command from said external communicating device to said implantable stimulator;

generally disabling power to substantially all of said stimulator circuits except said oscillator and said telemetry circuitry in response to said deactivating command;

generally providing disabling signals to substantially all of said stimulator circuits except said oscillator and said telemetry circuitry while continuing to enable said quiescent state of operations in response to said deactivating command;

subsequently transmitting an activating command from an external communicating device to said implantable stimulator;

providing enabling signals to said disabled stimulator circuits in response to said activating command; and

enabling power to said power-disabled stimulator circuits in response to said activating command so as to enable said active state of operation of said stimulator.

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Abstract

A method and apparatus for selectively controlling an oscillator-driven implantable stimulator to operate either in a quiescent state, in response to a command from an external communicating device, or in an active state in response either to removal of an activation pin or to an activating command from an external communicating device. Upon completion of manufacture of the stimulator, and before being placed on a shelf to await implantation in a patient, the activation pin is inserted into the stimulator and the external communicating device is triggered to send a deactivating command to the stimulator. The stimulator responds by generally disabling current sources to stimulator circuits, while maintaining current sources to a wake up circuit of the stimulator that is associated with communication operations. The stimulator is activated by subsequently transmitting an activating command from an external communicating device to the implantable stimulator, or by removing the activation pin.

197 Citations

35 Claims

1. A method of selectively controlling an implantable stimulator having stimulator circuits which operate either in a quiescent state of operation or in an active state of operation, in response to commands from an external communicating device, said stimulator having an oscillator providing timing signals for use in switching from one of said states of operation to another of said states of operation and telemetry circuitry for communicating with the external communicating device, said method comprising the steps of:
- transmitting a deactivating command from said external communicating device to said implantable stimulator;
  
  generally disabling power to substantially all of said stimulator circuits except said oscillator and said telemetry circuitry in response to said deactivating command;
  
  generally providing disabling signals to substantially all of said stimulator circuits except said oscillator and said telemetry circuitry while continuing to enable said quiescent state of operations in response to said deactivating command;
  
  subsequently transmitting an activating command from an external communicating device to said implantable stimulator;
  
  providing enabling signals to said disabled stimulator circuits in response to said activating command; and
  
  enabling power to said power-disabled stimulator circuits in response to said activating command so as to enable said active state of operation of said stimulator.
- View Dependent Claims (2, 3, 4)
- - 2. A method in accordance with claim 1, wherein said stimulator includes sensing circuitry for sensing natural cardiac depolarizations of a patient'"'"'s heart, pacing circuitry for providing pacing pulses to the patient'"'"'s heart, error detection circuitry for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, and a low-rate timer for activating said error mode of stimulator operation in the event that the stimulator fails to conclude a cardiac cycle by the occurrence of the first of two events, pacing the heart and sensing of a natural cardiac depolarization, within a predetermined time interval following said activating command, said method further comprising the steps of:
    - disabling said low rate timer in response to said deactivating command; and
      
      enabling said low rate timer in response to said activation command.
  - 3. A method in accordance with claim 2, wherein said error detection circuitry includes at least one error detection circuit for detecting whether at least one predetermined error condition exists, said method comprising the steps of:
    - responsive to said activating command transmitting step, detecting whether said at least one error condition is extant in the stimulator; and
      
      activating said error mode of stimulator operation in response to the detection of such error condition.
  - 4. A method in accordance with claim 1 wherein said stimulator includes sensing circuitry for sensing natural cardiac depolarizations of a patient'"'"'s heart, pacing circuitry for providing pacing pulses to the patient'"'"'s heart, error detection circuitry for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, said error detection circuitry including at least one error detection circuit for detecting whether at least one predetermined error condition exists, said method comprising the steps of:
    - responsive to said activating command transmitting step, detecting whether said at least one error condition is extant in the stimulator; and
      
      activating said error mode of stimulator operation in response to the detection of such error condition.

5. A method of selectively controlling an implantable stimulator having an activation pin and having stimulator circuits which operate either in a quiescent state of operation in response to a command from an external communicating device or in an active state of operation in response to removal of said activation pin, said stimulator having an oscillator providing timing signals for use in switching from one of said states of operation to another of said states of operation, an aperture configured to accept one or another of a stimulation lead and said activation pin, and a circuit means to detect removal of an inserted activation pin, and said stimulator having telemetry circuitry means for communicating with the external communicating device, said method comprising the steps of:
- transmitting a deactivating command from said external communicating device to said implantable stimulator;
  
  generally disabling power to substantially all of said stimulator circuits except said oscillator and said telemetry circuitry in response to said deactivating command;
  
  generally providing disabling signals to substantially all of said stimulator circuits except said oscillator and said telemetry circuitry while continuing to enable said quiescent state of operation, in response to said deactivating command;
  
  inserting said activation pin into said stimulator aperture;
  
  subsequently removing said activation pin from said stimulator aperture;
  
  providing enabling signals to said disabled stimulator circuits in response to the removal of said activation pin; and
  
  enabling power to said disabled stimulator circuits in response to the removal of said activation pin.
- View Dependent Claims (6, 7, 8)
- - 6. A method in accordance with claim 5, wherein said stimulator includes sensing circuitry for sensing natural cardiac depolarizations of a patient'"'"'s heart, pacing circuitry for providing pacing pulses to the patient'"'"'s heart, error detection circuitry for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, and a low-rate timer for activating said error mode of stimulator operation in the event that the stimulator fails to conclude a cardiac cycle by the occurrence of the first of two events, pacing the heart and sensing of a natural cardiac depolarization, within a predetermined time interval following the removal of said activation pin, said method further comprising the steps of:
    - disabling said low rate timer in response to said deactivating command; and
      
      enabling said low rate timer in response to the removal of said activation pin.
  - 7. A method in accordance with claim 6, wherein said error detection circuitry includes at least one error detection circuit for detecting whether at least one predetermined error condition exists, said method comprising the steps of:
    - responsive to said activating command transmitting step, detecting whether said at least one error condition is extant in the stimulator; and
      
      activating said error mode of stimulator operation in response to the detection of such error condition.
  - 8. A method in accordance with claim 5, wherein said stimulator includes sensing circuitry for sensing natural cardiac depolarizations of a patient'"'"'s heart, pacing circuitry for providing pacing pulses to the patient'"'"'s heart, error detection circuitry for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, said error detection circuitry including at least one error detection circuit for detecting whether at least one predetermined error condition exists, said method comprising the steps of:
    - responsive to said activating command transmitting step, detecting whether said at least one error condition is extant in the stimulator; and
      
      activating said error mode of stimulator operation in response to the detection of such error condition.

9. A method of selectively controlling an implantable programmable stimulator having stimulator circuits therein to operate either in a quiescent state or in an active state in response to external commands from an external communicating device, said stimulator including a communication circuit means for communicating with the external communicating device, at least one storage register, a power supply means for providing current sources to said stimulator circuits, an oscillator for providing timing signals to said stimulator circuits, and a wakeup circuit means for notifying the stimulator of internal and external wakeup events, such wakeup events being individually enabled and disabled, said method comprising the steps of:
- transmitting a deactivating command from said external communicating device to said implantable stimulator;
  
  forming a signal corresponding to said transmitted deactivating command and storing said signal in said at least one storage register;
  
  controlling said power supply means to generally disable said current sources to substantially all of said stimulator circuits except said oscillator and said communication circuit means in response to said deactivating command;
  
  controlling said wakeup circuit means to generally disable wakeup events while continuing to enable the wakeup events associated with said communication circuit means in response to said deactivating command;
  
  subsequently interrogating said storage register to determine whether said stimulator is in a deactivated state;
  
  programming said deactivated stimulator;
  
  transmitting an activating command from an external communicating device to said deactivated stimulator;
  
  controlling said wakeup circuit means to enable wakeup events in response to said activating command; and
  
  controlling said power supply means to provide said current sources to said disabled stimulator circuits in response to said activating command.
- View Dependent Claims (10, 11, 12)
- - 10. A method in accordance with claim 9, wherein said stimulator includes sensing circuitry for sensing natural cardiac depolarizations of a patient'"'"'s heart, pacing circuitry for providing pacing pulses to the patient'"'"'s heart, error detection circuitry for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, and a low-rate timer for activating said error mode of stimulator operation in the event that the stimulator fails to conclude a cardiac cycle by the occurrence of the first of two events, pacing the heart and sensing of a natural cardiac depolarization, within a predetermined time interval following said activating command, said method further comprising the steps of:
    - disabling said low rate timer in response to said deactivating command; and
      
      enabling said low rate timer in response to said activation command.
  - 11. A method in accordance with claim 10, wherein said error detection circuitry includes at least one error detection circuit for detecting whether at least one predetermined error condition exists, said method comprising the steps of:
    - responsive to said activating command transmitting step, detecting whether said at least one error condition is extant in the stimulator; and
      
      activating said error mode of stimulator operation in response to the detection of such error condition.
  - 12. A method in accordance with claim 9 wherein said stimulator includes sensing circuitry for sensing natural cardiac depolarizations of a patient'"'"'s heart, pacing circuitry for providing pacing pulses to the patient'"'"'s heart, error detection circuitry for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, said error detection circuitry including at least one error detection circuit for detecting whether at least one predetermined error condition exists, said method comprising the steps of:
    - responsive to said activating command transmitting step, detecting whether said at least one error condition is extant in the stimulator; and
      
      activating said error mode of stimulator operation in response to the detection of such error condition.

13. A method of selectively controlling an implantable programmable stimulator having an activation pin and having stimulator circuits which operate either in a quiescent state in response to a command from an external communicating device or in an active state in response to removal of said activation pin, said stimulator including an aperture configured to accept one or another of a stimulation lead and said activation pin, a pin removal circuit means to detect removal of an inserted activation pin, a communication circuit means for communicating with the external communicating device, at least one storage register, a power supply means for providing current sources to said stimulator circuits, an oscillator for providing timing signals to said stimulator circuits, and a wakeup circuit means for notifying the stimulator of internal and external wakeup events, such wakeup events being individually enabled and disabled, said method comprising the steps of:
- transmitting a deactivating command from said external communicating device to said implantable stimulator;
  
  forming a signal corresponding to said transmitted deactivating command and storing said signal in said at least one storage register;
  
  controlling said power supply means to generally disable said current sources to substantially all of said stimulator circuits except said oscillator and said communication circuit means in response to said deactivating command;
  
  controlling said wakeup circuit means to generally disable wakeup events while continuing to enable the wakeup events associated with said communication circuits means in response to said deactivating commands;
  
  inserting said activation pin into said stimulator aperture;
  
  subsequently removing said activation pin from said stimulator aperture;
  
  controlling said wakeup circuit means to enable wakeup events in response to the removal of said activation pin; and
  
  controlling said power supply means to provide current sources to said disabled stimulator circuits in response to the removal of said activation pin.
- View Dependent Claims (14, 15, 16)
- - 14. A method in accordance with claim 13, wherein said stimulator includes sensing circuitry for sensing natural cardiac depolarizations of a patient'"'"'s heart, pacing circuitry for providing pacing pulses to the patient'"'"'s heart, error detection circuitry for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, and a low rate timer for activating said error mode of stimulator operation in the event that the stimulator fails to conclude a cardiac cycle by the occurrence of the first of two events, pacing the heart and sensing of a natural cardiac depolarization, within a predetermined time interval following the removal of said activation pin, said method further comprising the steps of:
    - disabling said low rate timer in response to said deactivating command; and
      
      enabling said low rate timer in response to the removal of said activation pin.
  - 15. A method in accordance with claim 14, wherein said error detection circuitry includes at least one error detection circuit for detecting whether at least one predetermined error condition exists, said method comprising the steps of:
    - responsive to said activating command transmitting step, detecting whether said at least one error condition is extant in the stimulator; and
      
      activating said error mode of stimulator operation in response to the detection of such error condition.
  - 16. A method in accordance with claim 13, wherein said stimulator includes sensing circuitry for sensing natural cardiac depolarizations of a patient'"'"'s heart, pacing circuitry for providing pacing pulses to the patient'"'"'s heart, error detection circuitry for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, said error detection circuitry including at least one error detection circuit for detecting whether at least one predetermined error condition exists, said method comprising the steps of:
    - responsive to said activating command transmitting step, detecting whether said at least one error condition is extant in the stimulator; and
      
      activating said error mode of stimulator operation in response to the detection of such error condition.

17. An implantable stimulator having stimulator circuits which operate either in a quiescent state of operation or an active state of operation in response to commands from an external communicating device, said stimulator comprising:
- a power source for providing Dower to said stimulator circuits;
  
  an oscillator for providing timing signals for use in switching from one of said states of operation to another of said states of operation;
  
  telemetry means for communicating with the external communicating device;
  
  means responsive to a deactivating command received by said telemetry means for generally disabling power to substantially all of said stimulator circuits except said oscillator and said telemetry means;
  
  means responsive to said deactivating command for generally providing disabling signals to substantially all of said stimulator circuits except said oscillator and said telemetry means to enable said quiescent state of operations;
  
  means responsive to an activating command received by said telemetry means for enabling said active state of operations of said stimulator; and
  
  means responsive to said activating command for providing enabling power to said disabled stimulator circuits.
- View Dependent Claims (18, 19, 20)
- - 18. A stimulator in accordance with claim 17, further comprising;
    - sensing means for sensing natural cardiac depolarizations of a patient'"'"'s heart;
      
      pacing means for providing pacing pulses to the patient'"'"'s heart;
      
      error detection means for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart;
      
      a low rate timer for activating said error mode of stimulator operation when the stimulator fails to conclude a cardiac cycle by the occurrence of the first of two events, pacing the heart and sensing of a natural cardiac depolarization, within a predetermined time interval following said activating command;
      
      means responsive to said deactivating command for disabling said low rate timer; and
      
      means responsive to said activating command for enabling said low rate timer.
  - 19. A stimulator in accordance with claim 18, wherein said error detection means includes at least one error detection circuit for detecting whether at least one predetermined error condition exists, said stimulator further comprising:
    - means responsive to said activating command for detecting whether said at least one error condition is extant in the stimulator; and
      
      means responsive to the detection of such error condition for activating said error mode of stimulator operation.
  - 20. A stimulator in accordance with claim 17, further comprising:
    - sensing means for sensing natural cardiac depolarizations of a patient'"'"'s heart;
      
      pacing means for providing pacing pulses to the patient'"'"'s heart;
      
      error detection means for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, said error detection means including at least one error detection circuit for detecting whether at least one predetermined error condition exists;
      
      means responsive to said activating command for detecting whether said error condition is extant in the stimulator; and
      
      means responsive to the detection of such error condition for activating said error mode of stimulator operation.

21. An implantable stimulator having stimulator circuits operable either in a quiescent state of operation in response to a command from an external communicating device or in an active state of operation in response to removal of an inserted activation pin, said stimulator comprising:
- a power source for providing power to said stimulator circuits;
  
  an oscillator for providing timing signals to said stimulator circuits for use in switching from one of said states of operation to another of said states of operation;
  
  an aperture in said stimulator for receiving said inserted activation pin and for accepting a stimulation lead upon removal of said inserted activation pin;
  
  circuit means for detecting removal of said inserted activation pin;
  
  telemetry means for communicating with the external communicating device;
  
  means responsive to a deactivating command received by said telemetry means for generally disabling power to substantially all of said stimulator circuits except said oscillator and said telemetry means;
  
  means responsive to said deactivating command for generally providing disabling signals to substantially all of said stimulator circuits except said oscillator and said telemetry means;
  
  means for detecting removal of said activation pin from said stimulator aperture;
  
  means responsive to the detection of the removal of said activation pin for providing enabling signals to all of said disabled stimulator circuits; and
  
  means responsive to the detection of the removal of said activation pin for enabling power to all of said disabled stimulator circuits.
- View Dependent Claims (22, 23, 24)
- - 22. A stimulator in accordance with claim 21, further comprising;
    - sensing means for sensing natural cardiac depolarizations of a patient'"'"'s heart;
      
      pacing means for providing pacing pulses to the patient'"'"'s heart;
      
      error detection means for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart;
      
      a low rate timer for activating said error mode of stimulator operation when the stimulator fails to conclude a cardiac cycle by the occurrence of the first of two events, pacing the heart and sensing of a natural cardiac depolarization, within a predetermined time interval following said activating command;
      
      means responsive to said deactivating command for disabling said low rate timer; and
      
      means responsive to said detection of the removal of said activation pin for enabling said low rate timer.
  - 23. A stimulator in accordance with claim 22, wherein said error detection means includes at least one error detection circuit for detecting whether at least one predetermined error condition exists, said stimulator further comprising:
    - means responsive to the removal of said activation pin for detecting whether said at least one error condition is extant in the stimulator; and
      
      means responsive to the detection of such error condition for activating said error mode of stimulator operation.
  - 24. A stimulator in accordance with claim 21, further comprising:
    - sensing means for sensing natural cardiac depolarizations of a patient'"'"'s heart;
      
      pacing means for providing pacing pulses to the patient'"'"'s heart;
      
      error detection means for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, said error detection means including at least one error detection circuit for detecting whether at least one predetermined error condition exists;
      
      means responsive to the removal of said activation pin for detecting whether said at least one error condition is extant in the stimulator; and
      
      means responsive to the detection of such error condition for activating said error mode of stimulator operation.

25. An implantable stimulator having stimulator circuits which operate either in a quiescent state of operation or an active state of operation in response to commands from an external communicating device, said stimulator comprising:
- telemetry means for communication with the external communicating device;
  
  at least one storage register;
  
  a power supply for supplying and regulating current sources to said stimulator circuits;
  
  an oscillator for providing timing signals to said stimulator circuits for use in switching from one of said states of operation to another of said states of operation;
  
  a wakeup circuit means for notifying the stimulator of internal and external wakeup events;
  
  means for storing a representation of a deactivating command received by said telemetry means in a deactivating command storage register of said at least one storage register;
  
  means responsive to said deactivating command received by said telemetry means for controlling said power supply to generally disable current sources to substantially all of said stimulator circuits except said oscillator and said telemetry means;
  
  means responsive to said deactivating command for controlling said wakeup circuit means to generally disable wakeup events while continuing to enable those wakeup events associated with said telemetry means;
  
  means for interrogating said deactivating command storage register to determine whether said stimulator is in a deactivated state;
  
  means for programming said deactivated stimulator;
  
  means responsive to an activating command received by said telemetry means for controlling said wakeup circuit means to enable wakeup events in response to said activating command; and
  
  means responsive to said activating command for controlling said power supply to enable current sources to said disabled stimulator circuits.
- View Dependent Claims (26, 27, 28)
- - 26. A stimulator in accordance with claim 25, further comprising:
    - sensing means for sensing natural cardiac depolarizations of a patient'"'"'s heart;
      
      pacing means for providing pacing pulses to the patient'"'"'s heart;
      
      error detection means for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart;
      
      a low rate timer for activating said error mode of stimulator operation when the stimulator fails to conclude a cardiac cycle by the occurrence of the first of two events, pacing the heart and sensing of a natural cardiac depolarization, within a predetermined time interval following said activating command;
      
      means responsive to said deactivating command for disabling said low rate timer; and
      
      means responsive to said activating command for enabling said low rate timer.
  - 27. A stimulator in accordance with claim 26, wherein said error detection means includes at least one error detection circuit for detecting whether at least one predetermined error condition exists, said stimulator further comprising:
    - means responsive to said activating command for detecting whether said at least one error condition is extant in the stimulator; and
      
      means responsive to the detection of such error condition for activating said error mode of stimulator operation.
  - 28. A stimulator in accordance with claim 25, further comprising:
    - sensing means for sensing natural cardiac depolarizations of a patient'"'"'s heart;
      
      pacing means for providing pacing pulses to the patient'"'"'s heart;
      
      error detection means for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, said error detection means including at least one error detection circuit for detecting whether at least one predetermined error condition exists;
      
      means responsive to said activating command for detecting whether said error condition is extant in the stimulator; and
      
      means responsive to the detection of such error condition for activating said error mode of stimulator operation.

29. An implantable stimulator having stimulator circuits which operate either in a quiescent state of operation in response to a command from an external communicating device or in an active state of operation in response to removal of an inserted activation pin, comprising:
- telemetry means for communicating with the external communicating device;
  
  an aperture in said stimulator for receiving said inserted activation pin and for accepting a stimulation lead upon removal of said inserted activation pin;
  
  circuit means for detecting removal of said inserted activation pin;
  
  at least one storage register;
  
  a power supply for supplying and regulating current sources to said stimulator circuits;
  
  an oscillator for providing timing signals to said stimulator circuits for use in switching from one of said states of operation to another of said states of operation;
  
  a wakeup circuit means for notifying the stimulator of internal and external wakeup events;
  
  means for storing a representation of a deactivating command received by said telemetry means in a deactivating command storage register of said at least one storage register;
  
  means responsive to said deactivating command received by said telemetry means for controlling said power supply to generally disable current sources to substantially all of said stimulator circuits except said oscillator and said telemetry means;
  
  means responsive to said deactivating command for controlling said wakeup circuit means to generally disable wakeup events while continuing to enable wakeup events associated with said telemetry means;
  
  means for detecting removal of said activation pin from said stimulator aperture;
  
  means responsive to the detection of the removal of said activation pin for controlling said wakeup circuit means to enable wakeup events; and
  
  means responsive to the detection of the removal of said activation pin for controlling said power supply to enable current sources to said disabled stimulator circuits.
- View Dependent Claims (30, 31, 32)
- - 30. A stimulator in accordance with claim 29, further comprising;
    - sensing means for sensing natural cardiac depolarizations of a patient'"'"'s heart;
      
      pacing means for providing pacing pulses to the patient'"'"'s heart;
      
      error detection means for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart;
      
      a low rate timer for activating said error mode of stimulator operation when the stimulator fails to conclude a cardiac cycle by the occurrence of the first of two events, pacing the heart and sensing of a natural cardiac depolarization, within a predetermined time interval following said activating command;
      
      means responsive to said deactivating command for disabling said low rate timer; and
      
      means responsive to said detection of the removal of said activation pin for enabling said low rate timer.
  - 31. A stimulator in accordance with claim 30, wherein said error detection means includes at least one error detection circuit for detecting whether at least one predetermined error condition exists, said stimulator further comprising:
    - means responsive to the removal of said activation pin for detecting whether said at least one error condition is extant in the stimulator; and
      
      means responsive to the detection of such error condition for activating said error mode of stimulator operation.
  - 32. A stimulator in accordance with claim 29, further comprising:
    - sensing means for sensing natural cardiac depolarizations of a patient'"'"'s heart;
      
      pacing means for providing pacing pulses to the patient'"'"'s heart;
      
      error detection means for establishing an error mode of operation of said stimulator in which pacing pulses are generated and delivered to the heart, said error detection means including at least one error detection circuit for detecting whether at least one predetermined error condition exists;
      
      means responsive to the removal of said activation pin for detecting whether said at least one error condition is extant in the stimulator; and
      
      means responsive to the detection of such error condition for activating said error mode of stimulator operation.

33. An implantable stimulator having stimulator circuits which operate either in a quiescent state of operation or an active state of operation in response to commands from an external communicating device, said stimulator comprising:
- a power source for providing power to said stimulator circuits;
  
  an oscillator for providing timing signals for use in switching from one of said states of operation to another of said states of operation;
  
  telemetry means for communicating with the external communicating device;
  
  means responsive to a deactivating command received by said telemetry means for generally disabling power to substantially all of said stimulator circuits except said oscillator and said telemetry means and for generally disabling signals to substantially all of said stimulator circuits except said oscillator and said telemetry means while continuing to enable stimulator operations associated with said telemetry means; and
  
  means responsive to an activating command received by said telemetry means for enabling operations of said stimulator and for enabling power to said disabled stimulator circuits.

34. An implantable stimulator having stimulator circuits which operate either in a quiescent state of operation in response to a command from an external communicating device or in an active state of operation in response to removal of an inserted activation pin, said stimulator comprising:
- a power source for providing power to said stimulator circuits;
  
  an oscillator for providing timing signals to said stimulator circuits for use in switching from one of said states of operation to another of said states of operation;
  
  an aperture in said stimulator for receiving said inserted activation pin and for accepting a stimulation lead upon removal of said inserted activation pin;
  
  telemetry means for communicating with the external communicating device;
  
  means responsive to a deactivating command received by said telemetry means for generally disabling power to substantially all of said stimulator circuits except said oscillator and said telemetry means and for generally disabling signals to substantially all of said stimulator circuits except said oscillator and said telemetry means while continuing to enable stimulator operations associated with said telemetry means;
  
  means for detecting removal of said activation pin from said stimulator aperture; and
  
  means responsive to the detection of the removal of said activating pin for providing enabling signals to said disabled stimulator circuits and for enabling power to said disabled stimulator circuits.

35. An implantable stimulator having stimulator circuits which operate either in a quiescent state of operation in response to a command from an external communicating device or in an active state of operation in response to insertion of a stimulation lead, said stimulator comprising:
- a power source for providing power to said stimulator circuits;
  
  an oscillator for providing timing signals to said stimulator circuits for use in switching from one of said states of operation to another of said states of operation;
  
  telemetry means for communicating with the external communicating device;
  
  means responsive to a deactivating command received by said telemetry means for generally disabling power to substantially all of said stimulator circuits except said oscillator and said telemetry means and for generally disabling signals to substantially all of said stimulator circuits except said oscillator and said telemetry means while continuing to enable stimulator operations associated with said telemetry means;
  
  an aperture in said stimulator for receiving said stimulation lead;
  
  circuit means for detecting insertion of said stimulation lead into said aperture; and
  
  means responsive to the detection of the insertion of said stimulation lead for providing enabling signals to said disabled stimulator circuits and for providing enabling power to said disabled stimulator circuits.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Pacesetter Incorporated (Abbott Laboratories Incorporated)
Original Assignee
Telectronics Pacing Systems, Inc (Abbott Laboratories Incorporated)
Inventors
Samuelson, Kent E., McClure, Lawrence C., Hansen, Daniel L.
Primary Examiner(s)
Kamm, William E.

Application Number

US07/998,962
Time in Patent Office

636 Days
Field of Search

607/9, 607/16, 607/27, 607/30
US Class Current

607/16
CPC Class Codes

A61N 1/37252   Details of algorithms or da...

A61N 1/37512   Pacemakers

A61N 2001/37294   Means for testing medical d...

Implantable stimulator having quiescent and active modes of operation

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Implantable stimulator having quiescent and active modes of operation

First Claim

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Accused Products

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Abstract

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35 Claims

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