Defibrillator battery with dual cell stack configuration
First Claim
1. A battery circuit comprising:
- a first set of battery cells having having a plurality of battery cells coupled in a series arrangement for generating a relatively higher voltage, the first set of battery cells being dividable into a first portion of cells and a second portion of cells, the first and second portions of cells being arranged in series;
a second set of battery cells arranged in series, the second set of cells connected in parallel with one of the first and second portions of cells for developing a relatively lower voltage, the voltage developed being substantially equal to a voltage developable by the portion of cells being in parallel with the second set of battery cells; and
a first reverse bias protecting diode operably coupled to the second set of cells and a second reverse biasing protecting diode operably coupled to the portion of cells being in parallel with the second set of battery cells.
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Accused Products
Abstract
A defibrillator battery pack comprises a housing having a first set of battery cells having an upper set and a lower set of cells and a second set of battery cells connected in parallel with one of the upper or the lower sets of the first set of battery cells. The first set of battery cells is used for charging a capacitor bank of a defibrillator. The second set of battery cells cannot be used for charging and is only used for developing a nominal 5 volts to drive a microprocessor and other circuitry components of an electrical control system of the defibrillator. This arrangement increases the life of the battery pack in the lower voltage range, which is advantageous for operating the microprocessor. This arrangement also maintains the intelligence of the electrical control system because the battery cells supplying power to the microprocessor will always fail after, and not before, failure of the battery cells supplying power for charging the capacitor bank.
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Citations
10 Claims
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1. A battery circuit comprising:
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a first set of battery cells having having a plurality of battery cells coupled in a series arrangement for generating a relatively higher voltage, the first set of battery cells being dividable into a first portion of cells and a second portion of cells, the first and second portions of cells being arranged in series; a second set of battery cells arranged in series, the second set of cells connected in parallel with one of the first and second portions of cells for developing a relatively lower voltage, the voltage developed being substantially equal to a voltage developable by the portion of cells being in parallel with the second set of battery cells; and a first reverse bias protecting diode operably coupled to the second set of cells and a second reverse biasing protecting diode operably coupled to the portion of cells being in parallel with the second set of battery cells. - View Dependent Claims (2, 3, 4)
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5. A battery circuit comprising:
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a first set of battery cells having an upper set of cells arranged in series and a lower set of cells arranged in series; a second set of battery cells arranged in series, the second set of cells connected in parallel with at least one cell of the first set of cells, the upper set of cells including two battery cells and the lower set of cells including two battery cells; and a first temperature sensing fuse disposed between the two cells of the upper set of cells and a second temperature sensing fuse disposed between the two cells of the lower set of cells. - View Dependent Claims (6, 7)
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8. A battery circuit comprising:
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a first set of battery cells having an upper set of cells arranged in series and a lower set of cells arranged in series; a second set of battery cells arranged in series, the second set of cells connected in parallel with at least one cell of the first set of cells; a first reverse bias protecting diode being disposed at the top of the second set of cells and a second reverse biasing protecting diode being disposed at the top of at least one of the upper set of cells and the lower set of cells that are connected in parallel to the second set of cells; and a first output line defined at the top of the upper set of battery cells is a positive six volt supply, a second output line defined at the top of the second set of battery cells is a zero volt ground line, and a third output line defined at the bottom of the lower set of battery cells is a negative six volt supply.
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9. An automated external defibrillator battery pack comprising:
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a housing removably mountable to an automated external defibrillator; a battery circuit including; a first set of battery cells having an upper set of cells arranged in series and a lower set of cells arranged in series; a second set of battery cells arranged in series, the second set of cells connected in parallel with the lower set of cells; a first reverse bias protecting diode disposed at the top of the second set of cells; and a second reverse biasing diode disposed at the top of the lower set of the first set of cells; and a defibrillator battery pack housing enclosing the battery circuit and being shaped and sized to be removably insertable and electrically connectable to a defibrillator.
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10. An automated external defibrillator battery pack comprising:
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a housing removably mountable to an automated external defibrillator; a battery circuit including; a first set of battery cells having an upper set of cells arranged in series and a lower set of cells arranged in series; a second set of battery cells arranged in series, the second set of cells connected in parallel with the upper set of cells at a first node; a first reverse bias protecting diode disposed between the first node and the top of the second set of cells; and a second reverse biasing diode disposed between the first node and the top of the upper set of the first set of cells, wherein the first node defines a positive six volt output line and a second node at the bottom of the lower set of cells defines a negative six volt output line.
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Specification