Defibrillator with reliability verification

US 5,097,830 A
Filed: 03/30/1990
Issued: 03/24/1992
Est. Priority Date: 03/30/1990
Status: Expired due to Fees

First Claim

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1. A defibrillator for applying a defibrillation pulse to a patient suffering from cardiac distress comprising:

a high voltage source;

a defibrillator pulse discharge circuit for coupling the high voltage source in a series circuit with the patient to selectively deliver a defibrillation pulse from the high voltage source to the patient, the discharge circuit including at least one relay means responsive to a transfer relay signal for shifting from a first position in which the relay means opens the series circuit to a second position in which the relay means closes to permit the passage of the defibrillation pulse to the patient;

treatment indicating means for providing a treatment indicating signal corresponding to the patient being in a condition of cardiac distress of the type appropriate for the application of a defibrillation pulse to the patient;

control circuit means coupled to the treatment indicating means and to the relay means for providing the transfer relayu signal in response to the treatment indicating signal, the control circuit means including a first processor responsive to the treatment indicating signal and having a first output for providing a first relay control signal in response to the treatment indicating signal, a second processor responsive to the treatment indicating signal and having a first output for producing a second relay control signal in response to the treatment indicating signal, the control circuit means also including a transfer relay circuit coupled to the respective first outputs of the first and second processors for receiving the first and second relay control signals, the transfer relay circuit having at least one transfer relay signal output at which the transfer relay signal is provided in response to the receipt of both of the first and second relay control signals, whereby the relay means is in the open position so as to block the application of a defibrillator pulse to the patient in the event of an improper relay control signal from only one processor.

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Abstract

A defibrillator is described with dual processors for verifying the performance of the defibrillator and halting the application of a defibrillation pulse to a patient if a failure of system components is detected. In accordance with one aspect of the invention, verification is performed to determine whether a transfer relay switch should be closed to permit the application of a defibrillation pulse through the transfer relay switch to a patient. In addition, in one form of the invention, an electronic switch is provided in a series discharge circuit through the patient. Verification by both processors of proper conditions for application of a defibrillation pulse is required before a determination pulse is applied through the switch. In addition, an impedance circuit is provided with a mechanism for checking the accuracy of the circuit during operation of the defibrillator.

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28 Claims

1. A defibrillator for applying a defibrillation pulse to a patient suffering from cardiac distress comprising:
- a high voltage source;
  
  a defibrillator pulse discharge circuit for coupling the high voltage source in a series circuit with the patient to selectively deliver a defibrillation pulse from the high voltage source to the patient, the discharge circuit including at least one relay means responsive to a transfer relay signal for shifting from a first position in which the relay means opens the series circuit to a second position in which the relay means closes to permit the passage of the defibrillation pulse to the patient;
  
  treatment indicating means for providing a treatment indicating signal corresponding to the patient being in a condition of cardiac distress of the type appropriate for the application of a defibrillation pulse to the patient;
  
  control circuit means coupled to the treatment indicating means and to the relay means for providing the transfer relayu signal in response to the treatment indicating signal, the control circuit means including a first processor responsive to the treatment indicating signal and having a first output for providing a first relay control signal in response to the treatment indicating signal, a second processor responsive to the treatment indicating signal and having a first output for producing a second relay control signal in response to the treatment indicating signal, the control circuit means also including a transfer relay circuit coupled to the respective first outputs of the first and second processors for receiving the first and second relay control signals, the transfer relay circuit having at least one transfer relay signal output at which the transfer relay signal is provided in response to the receipt of both of the first and second relay control signals, whereby the relay means is in the open position so as to block the application of a defibrillator pulse to the patient in the event of an improper relay control signal from only one processor.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. A defibrillator apparatus according to claim 1 in which the relay means comprises a relay with first and second relay switches each shifting from first to second positions in response to a common transfer relay signal.
  - 3. A defibrillator apparatus according to claim 1 in which the relay means comprises a first transfer relay in the series circuit and responsive to a first transfer relay signal for shifting from the first position to the second position, the relay means also comprising a second transfer relay in the series circuit and responsive to a second transfer relay signal for shifting from the first position to the second position, the transfer relay circuit providing an output of first and second transfer relay signals, the first transfer relay signal being provided by the transfer relay circuit in response to the first relay control signal and the second transfer relay signal being provided by the transfer relay circuit in response to the second relay control signal.
  - 4. A defibrillator apparatus according to claim 3 in which the second processor has a second input for receiving the first transfer relay signal, the second processor comprising means for preventing the delivery of the second transfer relay signal until the detection of the first transfer relay signal.
  - 5. A defibrillator apparatus according to claim 4 in which the first processor has a second input for receiving the second transfer relay signal, the first processor comprises means for terminating the first transfer relay signal in the absence of the occurrence of the second transfer relay signal within a predetermined time of the occurrence of the first transfer relay signal.
  - 6. A defibrillator apparatus according to claim 5 in which the first processor includes a third input coupled to the transfer relay circuit for receiving the first transfer relay signal, the first processor means comprising means for confirming the occurrence of the first transfer relay signal in response to the first relay control signal, the second processor having a third input coupled to the transfer relay circuit for receiving the second transfer relay signal, the second processor comprising means for confirming the occurrence of the second transfer relay signal in response to the second relay control signal.
  - 7. A defibrillator apparatus according to claim 3 in which the first processor includes an input coupled to the relay transfer circuit for receiving the first transfer relay signal, the first processor means comprising means for confirming the occurrence of the first relay transfer signal in response to the first relay control signal, the second processor having an input coupled to the relay control circuit for receiving the second transfer relay signal, the second processor comprising means for confirming the occurrence of the second transfer relay signal in response to the second relay control signal.
  - 8. A defibrillator apparatus according to claim 1 in which the treatment indicating means comprises a manually activated treatment initiator which produces the treatment indicating signal upon activation thereof.
  - 9. A defibrillator according to claim 8 in which the manually activated treatment initiator comprises a shock initiating switch.
  - 10. A defibrillator apparatus according to claim 8 in which the treatment indicating means comprises ECG monitoring means coupled to the patient for receiving ECG signals from the patient, the treatment indicating means also comprising means responsive to the ECG signals for determining and indicating the occurrence of cardiac distress in the patient of the type which is appropriate for treatment with a defibrillation pulse, the manually activated treatment initiator being activated in response to the indication of such cardiac distress.
  - 11. A defibrillator apparatus according to claim 1 in which the treatment indicating means includes an ECG monitoring means coupled to the patient for receiving ECG signals from the patient, the treatment indicating means also comprising means responsive to the ECG signals for producing the treatment indicating signals in response to ECG signals corresponding to cardiac distress in the patient of the type which is appropriate for treatment by a defibrillation pulse, the control circuit means comprising means automatically responsive to the treatment indicating signals for producing the first and second relay control signals.
  - 12. A defibrillator apparatus according to claim 1 in which the defibrillator pulse discharge circuit includes an electronic switch in the series circuit, the electronic switch being responsive to a transfer switch signal for switching from a first state in which the series circuit is electrically nonconducting through the electronic switch to a second state in which the series circuit is electrically conducting through the electronic switch, the first processor including a first switch control signal output and comprising means for providing a first switch control signal at such output in response to the treatment indicating signal, the second processor including a second switch control signal output and comprising means for providing a second switch control signal at such output in response to the treatment indicating signal, transfer switch circuit means coupled to the first and second processors and responsive to the first and second switch control signals for providing the switch transfer signal in response to the occurrence of both of the first and the second switch control signals, whereby an improper switch control signal from only one of the processors is insufficient to cause the transfer switch circuit means to provide the transfer switch signal.
  - 13. A defibrillator apparatus according to claim 12 in which the first processor has an input for receiving the second switch control signal, the first processor comprising means for confirming the occurrence of the second switch control signal, the second processor having an input for receiving the first switch control signal, the second processor comprising means for confirming the occurrence of the first switch control signal, the second processor also comprising means for preventing the occurrence of the second switch control signal until the occurrence of the first switch control signal, and the first processor comprising means for terminating the first switch control signal in the absence of the occurrence of the second switch control signal within a predetermined time following the occurrence of the first switch control signal.
  - 14. A defibrillator apparatus according to claim 13 in which each of the first and second processors has a respective input coupled to the transfer switch circuit means for receiving the transfer switch signal, the first and second processors comprising means for confirming the occurrence of the transfer switch signal in response to the first and second switch control signals.
  - 15. A defibrillator apparatus according to claim 12 including voltage monitoring circuit means for monitoring the voltage at the electronic switch, and at least one of the processors being coupled to the voltage monitoring circuit means and comprising means for preventing the application of the defibrillation pulse in the event the voltage at the electronic switch means is at an undesired magnitude.
  - 16. A defibrillator apparatus according to claim 12 in which the electronic switch comprises two electronic switch elements, each switch element being positioned in the series circuit with a circuit node point in the series circuit therebetween, the switch elements each being shiftable in response to the transfer switch signal from a first condition in which the series circuit is electrically nonconducting through the switch element to a second condition in which the series circuit is electrically conducting through the switch element, at least one of the first and second processors having a voltage monitoring input, the defibrillator apparatus including voltage measuring circuit means for monitoring the voltage at the circuit node and for producing a voltage monitoring output signal to the voltage monitoring input, the processor receiving the voltage monitoring output signal comprising means for the blocking switch control signal from such processor in the event the voltage monitored at the circuit node differs from a desired voltage magnitude, whereby monitoring of the voltage at the circuit node permits the detection of a failure of the electronic switch elements.
  - 17. A defibrillator apparatus according to claim 16 in which the high voltage source includes capacitor charge storage means and charging circuit means for charging the capacitor charge storage means, the voltage measuring circuit means includes means for receiving as inputs a signal corresponding to the voltage at the capacitor charge storage means and a signal corresponding to the voltage monitored at the electronic switch, the voltage measurement circuit means comprising means for comparing such inputs and for producing a voltage monitoring output signal corresponding to the compared voltages.
  - 18. A defibrillator circuit according to claim 1 including impedance measurement circuit means coupled to the first processor for measuring the impedance in the series circuit across the patient, the impedance measurement circuit means including means responsive to an impedance control signal for placing a known impedance load in the impedance measurement circuit, the first processor comprising means for providing the impedance control signal, the first processor also comprising means for comparing the impedance determined without the known load to the impedance determined with the known load to verify the consistency of the impedance measurements and thereby the accuracy of the impedance measurement circuit.
  - 19. A defibrillator apparatus according to claim 18 in which the first processor comprises means for blocking the application of the defibrillation pulse in the event the impedances determined with and without the known load are inconsistent.

20. A defibrillator for applying a defibrillation pulse to a patient suffering from cardiac distress comprising:
- a high voltage source;
  
  a defibrillator pulse discharge circuit for coupling the high voltage source in a series circuit with the patient to selectively deliver a defibrillation pulse from the high voltage source to the patient, the discharge circuit including at least one relay means responsive to a transfer relay signal for shifting from a first position in which the relay means opens the series circuit to a second position in which the relay means closes to permit the passage of the defibrillation pulse to the patient;
  
  treatment indicating means for providing a treatment indicating signal corresponding to the patient being in a condition of cardiac distress of the type appropriate for the application of a defibrillation pulse to the patient;
  
  control circuit means coupled to the treatment indicating means and to the relay means for providing the transfer relay signal in response to the treatment indicating signal, the control circuit means including a first processor responsive to the treatment incicating signal and having a first output for providing a first relay control signal in response to the treatment indicating signal, a second processor responsive to the treatment indicating signal and having a first output for producing a second relay control signal in response to the treatment indicating signal, the control circuit means also including a transfer relay circuit coupled to the respective first outputs of the first and second processors for receiving the first and second relay control signals, the transfer relay circuit having a first transfer relay signal output at which a first transfer relay signal is provided and a second transfer relay signal output at which a second transfer relay signal is provided, the first and second transfer relay signal being provided in response to the receipt of both of the first and second relay control signals, whereby the relay means is in the open position so as to block the application of a defibrillator pulse to the patient in the event of an improper relay control signal from only one processor;
  
  the first processor including an input coupled to the transfer relay circuit for receiving the first transfer relay signal, the first processor means comprising means for confirming the occurrence of the first transfer relay signal in response to the first relay control signal, the second processor having an input coupled to the transfer relay circuit for receiving the second transfer relay signal, the second processor comprising means for confirming the occurrence of the second transfer relay signal in response to the second relay control signal;
  
  the defibrillator pulse discharge circuit including an electronic switch in the series circuit, the electronic switch being responsive to a transfer switch signal for switching from a first state in which the series circuit is electrically nonconducting through the electronic switch to a second state in which the series circuit is electrically conducting through the electronic switch, the first processor including a first switch control signal output and comprising means for providing a first switch control signal at such output in response to the treatment indicating signal, the second processor including a second switch control signal output and comprising means for providing a second switch control signal at such output in response to the treatment indicating signal, transfer switch circuit means coupled to the first and second processors and responsive to the first and second switch control signals for providing the transfer switch signal in response to the occurrence of both of the first and the second switch control signals, whereby an improper switch control signal from only one of the processors is insufficient to cause the transfer switch circuit means to provide the transfer switch signal;
  
  the electronic switch comprising two electronic switch elements, each switch element being positioned in the series circuit with a circuit node point in the series circuit therebetween, the switch elements each being shiftable in response to the transfer switch signal from a first condition in which the series circuit is electrically nonconducting through the switch element to a second condition in which the series circuit is electrically conducting through the switch element, at least one of the first and second processors having a voltage monitoring input, the defibrillator apparatus including voltage measuring circuit means for monitoring the voltage at the circuit node and for producing a voltage monitoring output signal to the voltage monitoring input, the said at least one of the first and second processors receiving the voltage monitoring output signal comprising means for blocking the switch control signal from such processor in the event the voltage monitored at the circuit node differs from a desired voltage level, whereby monitoring of the voltage at the circuit node permits the detection of a failure of the electronic switch elements.
- View Dependent Claims (21)
- - 21. A defibrillator apparatus according to claim 20 in which the high voltage source includes capacitor charge storage means and charging circuit means for charging the capacitor charge storage means, the voltage measuring circuit means includes means for receiving as inputs a signal corresponding to the voltage at the capacitor charge storage means and a signal corresponding to the voltage at the circuit node, the voltage measurement circuit means comprising means for comparing the voltage at the circuit node with the voltage at the capacitor charge storage means and for producing an output in the event that the relative voltages at the capacitor charge storage means and circuit node are outside of a predetermined range, the voltage measuring circuit means producing a voltage monitoring output signal corresponding to the compared voltages.

22. In a defibrillator for applying a defibrillation pulse in a series circuit including a patient suffering from cardiac distress, an impedance measurement circuit means for measuring the impendance in the series circuit across the patient, the impedance measurement circuit means including means responsive to an impedance control signal for placing a known impedance load in the impedance measurement circuit, a processor comprising means for providing the impedance control signal, the processor also comprising means for comparing the impedance determined without the known load to the impedance determined with the known load and for verifying the consistency of the impedance measurements and thereby the accuracy of the impedance measurement circuit.

23. A defibrillator apparatus for applying a defibrillation pulse to a patient suffering from cardiac distress comprising:
- a high voltage source;
  
  a defibrillator pulse discharge circuit for coupling the high voltage source in a series circuit with the patient to selectively deliver a defibrillation pulse from the high voltage source to the patient, the discharge circuit including at least one relay means responsive to a transfer relay signal for shifting from a first position in which the relay means opens the series circuit to a second position in which the relay means closes to permit the passage of the defibrillation pulse to the patient;
  
  treatment indicating means for providing a treatment indicating signal corresponding to the patient being in a condition of cardiac distress of the type appropriate for the application of a defibrillation pulse to the patient;
  
  control circuit means coupled to the treatment indicating means and to the relay means for providing the transfer relay signal in response to the treatment indicating signal, the control circuit means including a first processor responsive to the treatment indicating signal and having a first output for providing a first relay control signal in response to the treatment indicating signal, a second processor responsive to the treatment indicating signal and having a first output for producing a second relay control signal in response to the treatment indicating signal, the control circuit means also including a transfer relay circuit coupled to the respective first outputs of the first and second processors for receiving the first and second relay control signals, the transfer relay circuit having at least one transfer relay signal output at which the transfer relay signal is provided in response to the receipt of both of first and second relay control signals, whereby the relay means is in the open position so as to block the application of a defibrillator pulse to the patient in the event of an improper relay control signal from only one processor;
  
  the high voltage source including capacitor charge storage means and charging circuit means for charging the capacitor charge storage means;
  
  the defibrillator pulse discharge circuit including an electronic switch in the series circuit, the electronic switch being responsive to a transfer switch signal for switching from a first state in which the series circuit is electrically nonconducting through the electronic switch to a second state in which the series circuit is electrically conducting through the electronic switch, the first processor including a first switch control signal output and comprising means for providing a first switch control signal at such output in response to the treatment indicating signal, the second processor including a second switch control signal output and comprising means for providing a second switch control signal at such output in response to the treatment indicating signal, transfer switch circuit means coupled to the first and second processors and responsive to the first and second switch control signals for providing the electronic transfer switch signal in response to the occurrence of both the first and the second switch control signals, whereby an improper switch control signal from only one of the processors is insufficient to cause the transfer switch circuit means to provide the transfer switch signal;
  
  at least one of the first and second processors having a voltage monitoring input;
  
  the defibrillator apparatus including voltage measuring circuit means for measuring the voltage at the electronic switch and for producing a voltage measuring output signal to the voltage monitoring input, the processor which receives the voltage monitoring input comprising means for blocking the application of the defibrillation pulse to the patient in the event the voltage measured at the electronic switch differs from a desired voltage level, whereby monitoring of the voltage at the electronic switch permits the detection of a failure of the electronic switch.

24. A defibrillator for applying a defibrillation pulse to a patient suffering from cardiac distress comprising:
- a high voltage source;
  
  a defibrillator pulse discharge circuit for coupling the high voltage source in a series circuit with the patient to selectively deliver a defibrillation pulse from the high voltage source to the patient, the discharge circuit including at least one relay means responsive to a transfer relay signal for shifting from a first position in which the relay means opens the series circuit to a second position in which the relay means closes to permit the passage of the defibrillation pulse to the patient;
  
  treatment indicating means for providing a treatment indicating signal corresponding to the patient being in a condition of cardiac distress of the type appropriate for the application of a defibrillation pulse to the patient;
  
  control circuit means coupled to the treatment indicating means and to the relay means for providing the transfer relay signal in response to the treatment indicating signal;
  
  the high voltage source comprising capacitor charge storage means for storing high voltage and capacitor charging circuit means for charging the capacitor charge storage means;
  
  ECG monitoring means for coupling to the patient to receive ECG signals from the patient;
  
  power switch means which has an off or inactive state, the power switch means comprising means for preventing the charging of the capacitor charge storage means and the monitoring of the ECG signals from the patient by the ECG monitoring means when the power switch is in the off state;
  
  data storage means;
  
  a manually activated event marker switch coupled ot the data storage means for causing the entry of a marker into the data storage means in response to the manual activation of the event marker;
  
  a real time clock for providing a clock output comprising time and date information;
  
  means for supplying power to the event marker switch and to the clock independently of the state of the power switch means; and
  
  activation of the event marker switch causing the entry of time and date data and the marker into the data storage means when the power switch means is in the off state.

25. A defibrillator for applying a defibrillation pulse to a patient suffering from cardiac distress comprising:
- a high voltage source;
  
  a defibrillator pulse discharge circuit for coupling the high voltage source in a series circuit with the patient to selectively deliver a defibrillation pulse from the high voltage source to the patient, the discharge circuit including at least one relay means responsive to a transfer relay signal for shifting from a first position in which the relay means opens the series circuit to a second position in which the relay means closes to permit the passage of the defibrillation pulse to the patient;
  
  treatment indicating means for providing a treatment indicating signal corresponding to the patient being in a condition of cardiac distress of the type appropriate for the application of a defibrillation pulse to the patient;
  
  control circuit means coupled to the treatment indicating means and to the relay means for providing the transfer relay signal in response to the treatment indicating signal, the control circuit means including a first processor responsive to the treatment indicating signal and having a first output for providing a first relay control signal in response to the treatment indicating signal, a second processor responsive to the treatment indicating signal and having a first output for producing a second relay control signal in response to the treatment indicating signal, the control circuit means also including a transfer relay circuit coupled to the respective first outputs of the first and second processors for receiving the first and second relay control signals, the transfer relay circuit having at least one transfer relay signal output at which the transfer relay signal is provided in response to the receipt of both of first and second relay control signals, whereby the relay means is in the open position so as to block the application of a defibrillator pulse to the patient in the event of an improper relay control signal from only one processor;
  
  the relay means comprising a first transfer relay in the series circuit and responsive to a first transfer relay signal for shifting from the first open position to the second closed position and a second transfer relay in the series circuit and responsive to a second transfer relay signal for shifting from the first open to the second closed position, the transfer relay circuit providing as outputs first and second transfer relay signal, the first transfer relay signal being provided by the transfer relay circuit in response to the first relay control signal and the second transfer relay signal being provided by the transfer relay circuit in response to the second relay control signal;
  
  the defibrillator pulse discharge circuit including an electronic switch in the series circuit, the electronic switch being responsive to a transfer switch signal for switching from a first state in which the series circuit is electrically nonconducting through the electronic switch to a second state in which the series circuit is electrically conducting through the electronic switch, the first processor including a switch control signal output and comprising means for providing a first switch control signal at such output in response to the treatment indicating signal, the second processor including a switch control signal output and comprising means for providing a second switch control signal at such output in response to the treatment indicating signal, transfer switch circuit means coupled to the first and second processor and responsive to the first and second switch control signals for providing the transfer switch signal in response to the occurrence of both of the first and the second switch control signals, whereby an improper switch control signal from only one of the processors is insufficient to cause the electronic transfer switch circuit means to provide the transfer switch signal;
  
  an impedance measurement circuit means for measuring the impedance in the series circuit across the patient, the impedance measurement circuit means including means responsive to an impedance control signal for placing a known impedance load in the impedance measurement circuit, a processor comprising means for providing the impedance control signal, the processor also comprising means for comparing the impedance determined without the known load to the impedance determined with the known load and for verifying the consistency of the impedance measurements and thereby the accuracy of the impedance measurement circuit; and
  
  the first processor comprises means for blocking the transfer switch signal in the event the impedances determined with and without the known load are inconsistent.
- View Dependent Claims (26, 27, 28)
- - 26. A defibrillator apparatus according to claim 25 in which the second processor has a second input coupled to the transfer relay circuit for receiving the first transfer relay signal, the second processor comprising means for preventing the delivery of the second transfer relay signal until the detection of the first transfer relay signal;
    - the first processor having a second input coupled to the transfer relay circuit for receiving the second transfer relay signal, the first processor comprising means for terminating the first transfer relay signal in the absence of the occurrence of the second transfer relay signal within a predetermined time of the occurrence of the first transfer relay signal.
  - 27. A defibrillator apparatus according to claim 26 in which the first processor includes a third input coupled to the transfer relay circuit for receiving the first transfer relay signal, the first processor means comprising means for confirming the occurrence of the first transfer relay signal in response to the first relay control signal, the second processor having a third input coupled to the transfer relay circuit for receiving the second transfer relay signal, the second processor comprisign means for confirming the occurrence of the second transfer relay signal in response to the second relay control signal.
  - 28. A defibrillator apparatus according to claim 27in which the high voltage source comprises capacitor charge storage means for storing high voltage and capacitor charging circuit means for charging the capacitor charge storage means;
    - the apparatus also including ECG monitoring means for coupling to the patient to receive ECG signals from the patient;
      
      power switch means which has an off or inactive state, the power switch means comprising means for preventing the charging of the capacitor charge storage means and the monitoring of the ECG signals from the patient by the ECG monitoring means when the power switch means is in the off state;
      
      data storage means;
      
      manually activated event marker means coupled to the data storage means for causing the entry of a marker into the data storage means in response to the manual activation of the event marker means;
      
      real time clock means for providing a clock output comprising time and date information;
      
      means for supplying power to the event marker means and to the clock means independently of the state of the power switch means;
      
      activation of the event marker means causing the entry of time and date data and the marker into the data storage means when the power switch means is in the off position.

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Current Assignee
Laerdal Manufacturing Corp.
Original Assignee
Laerdal Manufacturing Corp.
Inventors
Eikefjord, Arild J., Fossan, Helge
Primary Examiner(s)
Cohen, Lee S.
Assistant Examiner(s)
SCHAETZLE, KENNEDY

Application Number

US07/502,481
Time in Patent Office

725 Days
Field of Search

128/419 D, 128/734
US Class Current

607/8
CPC Class Codes

A61N 1/3931 Protecting, e.g. back-up sy...

Defibrillator with reliability verification

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Abstract

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28 Claims

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Defibrillator with reliability verification

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

84 Citations

28 Claims

Specification

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