Chemistry: electrical current producing apparatus – product – and – Having diverse cells or diverse removable cells in a support...
Reexamination Certificate
1999-02-10
2001-07-10
Kalafut, Stephen (Department: 1745)
Chemistry: electrical current producing apparatus, product, and
Having diverse cells or diverse removable cells in a support...
C429S123000, C429S150000
Reexamination Certificate
active
06258473
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention generally relates to the conversion of chemical energy to electrical energy. More particularly, the present invention relates to an electrochemical cell dischargeable under both a constant discharge rate and a pulse discharge rate. Cardiac defibrillators present both electrical power requirements.
The constant discharge rate portion of the multiplate cell of the present invention, referred to hereinafter as the medium rate region, preferably includes a high mass, low surface area cathode structure associated with an alkali metal anode in a side-by-side prismatic configuration. The pulse discharge rate portion of the multiplate cell of the present invention, referred to hereinafter as the high rate region, preferably includes a high surface area cathode associated with an alkali metal anode in a side-by-side prismatic configuration. Preferably the same anode structure is electrically associated with both the medium rate cathode region and the high rate cathode region housed within the same hermetically sealed casing. This structure defines what is meant by a medium rate region and a high rate region contained within the same electrochemical cell.
2. Prior Art
Traditionally, cardiac defibrillator cells have been built using a multiplate electrode design. The cell designer must decide between providing additional electrochemically active components for increased mass and energy density or providing increased surface area for greater power density. Because of the wide disparity in the energy/power requirements placed upon a cardiac defibrillator cell or battery, that being intermittent low rate and high rate operation, a compromise is often decided upon. However, any design attempt to balance the energy/power requirements placed upon the cell or battery by the defibrillator device must not consequently produce unwanted self-discharge reactions. This compromise can provide for inefficiency and can decrease the overall gravimetric and volumetric energy density of the cell.
It is generally accepted that when low electrical currents are desired, the electrodes within a cell should have as much mass and as little surface area as possible. At the expense of power density, this provides for increased energy density while the low electrode surface area minimizes undesirable self-discharge reactions. Conversely, when larger electrical discharge currents are required, electrode surface area and power density are maximized at the expense of energy density and self-discharge rate.
The cell of the present invention having an electrode assembly with differing discharge rate portions fulfills this need. The present cell comprises regions containing a low interelectrode surface area in a side-by-side, prismatic configuration, preferred for routine monitoring by a device, for example a cardiac defibrillator, and regions containing a high interelectrode surface area in a side-by-side, prismatic configuration for use when high rate electrical pulse charging of capacitors is required with minimal polarization. It is believed that the present electrochemical cell having multiplate electrodes with differing discharge rate regions represents a pioneering advancement wherein a medium discharge rate region and a high discharge rate region are provided within the same case for the purpose of having the cell supply at least two different electrical energy requirements.
SUMMARY OF THE INVENTION
The present invention provides an improved multiplate electrode design for a cell dischargeable to provide background current intermittently interrupted by current pulse discharge. The disclosed cell is of a case-negative design in which the anode assembly is in electrical contact with the case. Two positive terminal pins are respectively connected to two independent cathode regions. One cathode region has a relatively low surface area and high density for providing low electrical current on the order of microamperes to milliamperes and the other cathode region has a relatively high surface area for providing high electrical current on the order of several amperes.
The medium rate, constant discharge region of the present multiplate cell comprises a cathode structure of one or more cathode plates flanked on either side by an alkali metal anode. The cathode material, which preferably comprises a mixed metal oxide or a carbon/graphite intercalation compound, suitable conductive additive(s) and a binder, may be in a dry powder form and is pressed onto a conductive metal screen. The alkali metal anode is preferably a piece of lithium or lithium-alloy foil that is also pressed onto a conductive metal screen. A metallic lead connects the medium rate cathode region to a feedthrough terminal pin in the battery header which is insulated from the battery case by a glass-to-metal seal. The anode can either be connected to the case resulting in a case-negative configuration or to another feedthrough pin also located in the header of the battery. A separator prevents short circuiting between the couple.
The high rate, pulse discharge region of the present multiplate cell comprises a cathode structure of one or more cathode plates flanked on either side by the same anode that is coupled to the medium rate region. The interelectrode surface area of the high rate region is greater than that of the medium rate region to deliver high current pulses during device activation. Preferably the medium high rate region contributes greater than 10% of the total energy density provided by the cell while having less than 50% of the total cathode surface area. Still more preferably, the medium rate region contributes greater than 10% of the total energy density provided by the cell while having less than 30% of the total cathode surface area.
Thus, the present invention offers the advantage of having both a medium rate, constant discharge or constant drain region and a high rate, pulse discharge region provided within the same electrochemical cell. The electrochemical couple used for both the medium rate region and the high rate region is, for example, an alkali metal/mixed metal oxide couple such as a lithium-silver vanadium oxide couple. However, both discharge region couples need not necessarily be identical. Multiplate electrode electrochemical cells according to the present invention having medium rate and high rate discharge regions can be constructed/designed to meet the drain rate and current discharge requirements of a particular application.
These and other aspects of the present invention will become more apparent to those skilled in the art by reference to the following description and the appended drawings.
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Spillman David M.
Takeuchi Esther S.
Hodgson & Russ LLP
Kalafut Stephen
Mercado Julian A.
Wilson Greatbatch Ltd.
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