System and method for performing self-test in an automatic external defribillator (AED)
First Claim
Patent Images
1. A defibrillator system comprising:
- a capacitor for storing a charge;
a charge circuit to charge the capacitor;
a discharge circuit to discharge the capacitor and deliver a biphasic waveform to a patient;
user interface controls connected to the charge circuit and the discharge circuit and configured to receive operator instructions and to provide system information to the operator; and
a microprocessor-based self-test controller for running periodic self-tests of the defibrillator system;
wherein the self-test controller is configured to conditionally run the periodic self-tests of the defibrillator system based on prior operation of the defibrillator system;
and further wherein prior operation of the defibrillator system comprises at least one event from the group consisting of the time interval since the last capacitor discharge, the time interval since the last power-on, the accumulated time duration of power-on operation since the battery was installed, the accumulated time duration of stand-by operation since the battery was installed, the number of previous self-tests performed, the accumulated time duration of stand-by operation since electrodes were installed, and a prior event, wherein the prior event comprises at least one event from the group consisting of a previous self-test result;
the occurrence of over-current during discharge;
a voltage measurement;
a frequency measurement;
a button press;
a non-maskable interrupt;
a system reset;
a flag setting;
a removal of the battery;
a removal of the memory card;
an insertion of the electrode connector; and
use of the system since a previous self-test;
wherein the self-test comprises testing at least one element from the group consisting of a charge circuit, a discharge circuit, a battery circuit, a capacitor circuit, a defibrillation pad circuit, an analog circuit, a digital circuit, a microprocessor, an integrated circuit, a memory circuit, a user-interface circuit, a status indicator circuit, a real-time clock circuit, an audio circuit, a power control circuit, a current overload protection circuit, a temperature circuit, a system monitor circuit, a button circuit, a power supply circuit, and a reference voltage circuit;
wherein the self-test controller tests the battery circuit and capacitor circuit only if the defibrillator system has not previously failed a self-test.
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Abstract
An automatic external defibrillator with an intelligent self-test system that ensures device readiness. The self-test system conditionally runs functional tests based on knowledge of device use, time of day, pre-programmed information, operational features and previous events. The condition of the defibrillator is indicated visually, audibly or both based on the results of the self-test performed.
21 Citations
14 Claims
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1. A defibrillator system comprising:
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a capacitor for storing a charge; a charge circuit to charge the capacitor; a discharge circuit to discharge the capacitor and deliver a biphasic waveform to a patient; user interface controls connected to the charge circuit and the discharge circuit and configured to receive operator instructions and to provide system information to the operator; and a microprocessor-based self-test controller for running periodic self-tests of the defibrillator system; wherein the self-test controller is configured to conditionally run the periodic self-tests of the defibrillator system based on prior operation of the defibrillator system; and further wherein prior operation of the defibrillator system comprises at least one event from the group consisting of the time interval since the last capacitor discharge, the time interval since the last power-on, the accumulated time duration of power-on operation since the battery was installed, the accumulated time duration of stand-by operation since the battery was installed, the number of previous self-tests performed, the accumulated time duration of stand-by operation since electrodes were installed, and a prior event, wherein the prior event comprises at least one event from the group consisting of a previous self-test result;
the occurrence of over-current during discharge;
a voltage measurement;
a frequency measurement;
a button press;
a non-maskable interrupt;
a system reset;
a flag setting;
a removal of the battery;
a removal of the memory card;
an insertion of the electrode connector; and
use of the system since a previous self-test;wherein the self-test comprises testing at least one element from the group consisting of a charge circuit, a discharge circuit, a battery circuit, a capacitor circuit, a defibrillation pad circuit, an analog circuit, a digital circuit, a microprocessor, an integrated circuit, a memory circuit, a user-interface circuit, a status indicator circuit, a real-time clock circuit, an audio circuit, a power control circuit, a current overload protection circuit, a temperature circuit, a system monitor circuit, a button circuit, a power supply circuit, and a reference voltage circuit; wherein the self-test controller tests the battery circuit and capacitor circuit only if the defibrillator system has not previously failed a self-test. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 13, 14)
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9. A defibrillator system comprising:
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a battery; a capacitor for storing a charge; a charge circuit to charge the capacitor from the battery; a discharge circuit to discharge the capacitor and deliver a biphasic waveform to a patient; user interface controls connected to the charge circuit and the discharge circuit and configured to receive operator instructions and to provide system information to the operator; and a microprocessor-based self-test controller for running periodic self-tests of the defibrillator system; wherein the self-test controller is configured to conditionally run the periodic self-tests of the defibrillator system based on prior operation of the defibrillator system; wherein prior operation of the defibrillator system comprises at least one event from the group consisting of the time interval since the last capacitor discharge, the time interval since the last power-on, the accumulated time duration of power-on operation since the battery was installed, the accumulated time duration of stand-by operation since the battery was installed, the number of previous self-tests performed, the accumulated time duration of stand-by operation since electrodes were installed, and a prior event, wherein the prior event comprises at least one event from the group consisting of a previous self-test result;
the occurrence of over-current during discharge;
a voltage measurement;
a frequency measurement;
a button press;
a non-maskable interrupt;
a system reset;
a flag setting;
a removal of the battery;
a removal of the memory card;
an insertion of the electrode connector; and
use of the system since a previous self-test;wherein the self-test comprises testing at least one element from the group consisting of a charge circuit, a discharge circuit, a battery circuit, a capacitor circuit, a defibrillation pad circuit, an analog circuit, a digital circuit, a microprocessor, an integrated circuit, a memory circuit, a user-interface circuit, a status indicator circuit, a real-time clock circuit, an audio circuit, a power control circuit, a current overload protection circuit, a temperature circuit, a system monitor circuit, a button circuit, a power supply circuit, and a reference voltage circuit; wherein the self-test controller tests the battery circuit and capacitor circuit only if the defibrillator system has not previously failed a self-test. - View Dependent Claims (10, 11)
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12. A method for operating a defibrillator system, comprising:
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providing a defibrillator system comprising; a capacitor for storing a charge; a charge circuit to charge the capacitor; a discharge circuit to discharge the capacitor and deliver a biphasic waveform to a patient; user interface controls connected to the charge circuit and the discharge circuit and configured to receive operator instructions and to provide system information to the operator; and a microprocessor-based self-test controller for running periodic self-tests of the defibrillator system; wherein the self-test controller is configured to conditionally run the periodic self-tests of the defibrillator system based on prior operation of the defibrillator system; wherein prior operation of the defibrillator system comprises at least one event from the group consisting of a the time interval since the last capacitor discharge, the time interval since the last power-on, the accumulated time duration of power-on operation since the battery was installed, the accumulated time duration of stand-by operation since the battery was installed, the number of previous self-tests performed, the accumulated time duration of stand-by operation since electrodes were installed, and a prior event, wherein the prior event comprises at least one event from the group consisting of a previous self-test result;
the occurrence of over-current during discharge;
a voltage measurement;
a frequency measurement;
a button press;
a non-maskable interrupt;
a system reset;
a flag setting;
a removal of the battery;
a removal of the memory card;
an insertion of the electrode connector; and
use of the system since a previous self-test;wherein the self-test comprises testing at least one element from the group consisting of a charge circuit, a discharge circuit, a battery circuit, a capacitor circuit, a defibrillation pad circuit, an analog circuit, a digital circuit, a microprocessor, an integrated circuit, a memory circuit, a user-interface circuit, a status indicator circuit, a real-time clock circuit, an audio circuit, a power control circuit, a current overload protection circuit, a temperature circuit, a system monitor circuit, a button circuit, a power supply circuit, and a reference voltage circuit; wherein the self-test controller tests the battery circuit and capacitor circuit only if the defibrillator system has not previously failed a self-test; and operating the system in standby mode so that the self-test controller self-tests the system while in standby mode.
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Specification