A multi-core lithium ion battery includes a sealed enclosure and a support member disposed within the sealed enclosure. The support member includes a plurality of cavities and a plurality of lithium ion core members which are disposed the plurality of cavities. The battery further includes a plurali
A multi-core lithium ion battery includes a sealed enclosure and a support member disposed within the sealed enclosure. The support member includes a plurality of cavities and a plurality of lithium ion core members which are disposed the plurality of cavities. The battery further includes a plurality of cavity liners, each of which is positioned between a corresponding one of the lithium ion core members and a surface of a corresponding one of the cavities.
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1. A lithium ion battery, comprising: a support member including a plurality of cavities defined by cavity surfaces, wherein each of the plurality of cavities is configured to receive a lithium ion core member through a cavity opening;a plurality of lithium ion core members, each of the plurality of
1. A lithium ion battery, comprising: a support member including a plurality of cavities defined by cavity surfaces, wherein each of the plurality of cavities is configured to receive a lithium ion core member through a cavity opening;a plurality of lithium ion core members, each of the plurality of lithium ion core members (i) including an anode, a cathode, a separator positioned between the anode and the cathode, and electrolyte, and (ii) positioned in one of the plurality of cavities of the support member, anda hermetically sealed enclosure that (i) surrounds and encloses the support member, and (ii) defines a shared atmosphere region;wherein each of the lithium ion core members is surrounded by a cavity surface of one of the plurality of cavities along its length such that electrolyte is prevented from escaping the cavity within which it is contained;wherein the anode, cathode and electrolyte of each ion core member communicates with the shared atmosphere region through a cavity opening when positioned in a cavity of the support member; andwherein electrical connection of the lithium ion core members is selected from the group consisting of: (i) parallel connection of the lithium ion core members, (ii) series connection of the lithium ion core members, and (iii) parallel connection of a first set of lithium ion core members, parallel connection of a second set of lithium ion core members, and series connection of the first set of lithium ion core members and the second set of lithium ion core members. 2. The lithium ion battery of claim 1, wherein the support member includes a kinetic energy absorbing material. 3. The lithium ion battery of claim 2, wherein the kinetic energy absorbing material is formed of one of aluminum foam, ceramic, and plastic. 4. The lithium ion battery of claim 1, further comprising a cavity liner positioned in each cavity, wherein each of the cavity liners is formed of a plastic or aluminum material and receives one of the lithium ion core members. 5. The lithium ion battery of claim 4, wherein each of the cavity liners is moisture and electrolyte impermeable. 6. The lithium ion battery of claim 4, wherein each of the cavity liners is formed as part of a monolithic liner member. 7. The lithium ion battery of claim 1, further including an electrical connector within said hermetically sealed enclosure electrically connecting said ion core members to an electrical terminal external to the hermetically sealed enclosure. 8. The lithium ion battery of claim 7, wherein said electrical connector comprises a first bus bar and a second bus bar, the first bus bar interconnecting the anodes of said ion core members to a negative terminal member of the terminal external to the hermetically sealed enclosure, and the second bus bar interconnecting the cathodes of said ion core members to a positive terminal member of the terminal external to the hermetically sealed enclosure. 9. The lithium ion battery of claim 8, further including a tab for electrically connecting each anode to the first bus bar and a tab for electrically connecting each cathode to the second bus bar, wherein each tab includes a means for interrupting the flow of electrical current through each said tab when a predetermined current has been exceeded. 10. The lithium ion battery of claim 8, wherein the first bus bar includes a fuse element proximate each point of interconnection between the anodes to the first bus bar, and the second bus bar includes a fuse element proximate each point of interconnection between the cathodes to the second bus bar, for interrupting the flow of electrical current through said fuse elements when a predetermined current has been exceeded. 11. The lithium ion battery of claim 1, wherein the support member is in the form of a honeycomb structure. 12. The lithium ion battery of claim 1, wherein the hermetically sealed enclosure includes a wall having a compressible element which when compressed due to a force impacting the wall creates an electrical short circuit of the lithium ion battery. 13. The lithium ion battery of claim 12, wherein at least one of the plurality of cavities and its corresponding ion core member have different shapes than the other of the plurality of cavities and their corresponding ion core members. 14. The lithium ion battery of claim 1, wherein at least one of the ion core members has high power characteristics and at least one of the ion core members has high energy characteristics. 15. The lithium ion battery of claim 1, wherein the hermetically sealed enclosure includes a fire retardant member. 16. The lithium ion battery of claim 15, wherein the fire retardant member comprises a fire retardant mesh material affixed to the exterior of the hermetically sealed enclosure. 17. The lithium ion battery of claim 15, wherein the fire retardant member is selected from the group consisting of a polyurethane foam, an epoxy foam, and glass fiber wool. 18. The lithium ion battery of claim 15, wherein the fire retardant member comprises filler material positioned in empty space inside the hermetically sealed enclosure. 19. The lithium ion battery of claim 1, wherein the hermetically sealed enclosure defines a lithium ion cell region and the shared atmosphere region in the interior of the hermetically sealed enclosure. 20. The lithium ion battery of claim 1, further including a protective sleeve surrounding each of the ion core members. 21. The lithium ion battery of claim 1, wherein the support member is absorptive to electrolyte. 22. The lithium ion battery of claim 1, wherein the support member is deformable and kinetic energy absorbing in response to an impact load. 23. The lithium ion battery of claim 1, wherein the cavities are uniformly distributed in the support member. 24. The lithium ion battery of claim 1, wherein the cavities are staggered in the support member. 25. The lithium ion battery of claim 1, wherein each of the ion core members is introduced to a cavity of the support member without an individual hermetic enclo sure. 26. The lithium ion battery of claim 1, wherein the electrolyte comprises at least one of a flame retardant, a gas generating agent, and a redox shuttle. 27. The lithium ion battery of claim 1, wherein the hermetically sealed enclosure includes a wall having a compressible element which, when compressed due to a force impacting the wall, creates an electrical short circuit. 28. The lithium ion battery of claim 1, wherein the lithium ion core members are connected in parallel. 29. The lithium ion battery of claim 1, wherein the lithium ion core members are connected in series. 30. The lithium ion battery of claim 1, wherein a first set of lithium ion core members are connected in parallel, a second set of lithium ion core members are connected in parallel, and the first set of lithium ion core members and the second set of lithium ion core members are connected in series.
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