Reduced energy self test operation in a defibrillator
First Claim
1. A method for self test in a defibrillator comprising:
- charging an energy storage circuit to maximum voltage;
conducting a voltage stress test of a high voltage switch coupled to said energy storage circuit;
charging said energy storage circuit to a partial voltage; and
conducting a current stress test of said high voltage switch.
5 Assignments
0 Petitions
Accused Products
Abstract
A defibrillator having a self test operation requiring reduced energy is provided. During a self test operation of the defibrillator, it is necessary to deliver a test pulse to a test load under appropriate levels of voltage and current stress to the HV circuits. In verifying the functionality of an HV switch under self test, several critical parameters must be evaluated. First, the voltage stress test is conducted at the maximum voltage level to ensure that the dielectric withstand voltage of the various components of the HV circuit are adequate under maximum voltage conditions. Second, the current stress test is conducted at the maximum current level but at a partial voltage which consumes substantially less energy. The maximum voltage and maximum current levels may be chosen to exceed the operating voltage and current levels encountered during normal operation of the defibrillator to more fully test the HV switch.
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Citations
31 Claims
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1. A method for self test in a defibrillator comprising:
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charging an energy storage circuit to maximum voltage;
conducting a voltage stress test of a high voltage switch coupled to said energy storage circuit;
charging said energy storage circuit to a partial voltage; and
conducting a current stress test of said high voltage switch. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
imposing said maximum voltage across said top half of said H bridge; and
imposing said maximum voltage across said bottom half of said H bridge.
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6. A method for self test in a defibrillator according to claim 4, said current stress test further comprising:
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sourcing a maximum current through said test load in a first phase; and
sourcing said maximum current through said test load in a second phase.
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7. A method for self test in a defibrillator according to claim 1 further comprising monitoring a current through said high voltage switch.
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8. A method for self test in a defibrillator according to claim 1 further comprising monitoring a voltage across said energy storage circuit.
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9. A method for self test in a defibrillator according to claim 1 wherein said energy storage circuit comprises a capacitor.
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10. A method for self test in a defibrillator according to claim 1 wherein said maximum voltage exceeds an operating voltage.
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11. A method for self test in a defibrillator according to claim 1 wherein said maximum current exceeds an operating current.
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12. A method for self test in a defibrillator comprising:
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charging an energy storage circuit to maximum voltage;
conducting a voltage stress test of a high voltage switch coupled to said energy storage circuit;
generating a calibration shock to a test load;
charging said energy storage circuit to a partial voltage; and
conducting a current stress test of said high voltage switch. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
imposing said maximum voltage across said top half of said H bridge; and
imposing said maximum voltage across said bottom half of said H bridge.
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16. A method for self test in a defibrillator according to claim 12, said current stress test further comprising:
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sourcing a maximum current through said test load in a first phase; and
sourcing said maximum current through said test load in a second phase.
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17. A method for self test in a defibrillator according to claim 12 further comprising monitoring a current through said high voltage switch.
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18. A method for self test in a defibrillator according to claim 12 further comprising monitoring a voltage across said energy storage circuit.
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19. A method for self test in a defibrillator according to claim 12 wherein said energy storage circuit comprises a capacitor.
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20. A method for self test in a defibrillator according to claim 12 wherein said maximum voltage exceeds an operating voltage.
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21. A method for self test in a defibrillator according to claim 12 wherein said maximum current exceeds an operating current.
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22. A defibrillator with a self test operation requiring reduced energy, comprising:
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an energy storage circuit for storing energy to deliver a defibrillation pulse;
an HV switch coupled to said energy storage circuit to selectively couple said defibrillation pulse to a pair of electrodes;
a charging circuit coupled to energy storage circuit to charge said energy storage circuit to a desired voltage level; and
a controller coupled to said energy storage circuit, said HV switch, and said charging circuit to control said self test operation;
wherein said self test operation comprises a current stress test and a voltage stress test. - View Dependent Claims (23, 24, 25, 26, 27, 28, 29, 30, 31)
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Specification