Thin film battery module, thin film battery package, thin film battery package manufacturing device, and thin film battery package manufacturing method

The invention claimed is: 1. A thin film battery package comprising: a package housing having one or more sidewalls and a bottom surface, and including electrodes formed at the bottom surface; a battery module being electrically connected to the electrodes, the battery module comprising unit cells, the unit cells being stacked upon one another within the package housing such that a lowermost unit cell adjoins the electrodes formed at the bottom surface of the package housing; and an impact absorption portion over an upper surface of a topmost unit cell and between at least the topmost unit cell and the one or more sidewalls of the package housing, wherein the impact absorption portion comprises: a first impact absorption region surrounding the circumference of the battery module and having a solid phase; and a second impact absorption region surrounding a circumference of the first impact absorption region and comprising an epoxy resin having viscosity; wherein at least two of the unit cells are spaced apart by a first gap and the first impact absorption portion is in the gap, and wherein the electrodes and the lowermost unit cell are spaced apart by a second gap and the first impact absorption portion is in the second gap. 2. The thin film battery according to claim 1 , wherein the impact absorption portion comprises at least one of a silicon-based elastic epoxy resin or an epoxy resin having viscosity. 3. The thin film battery according to claim 1 , wherein a boundary is defined between the first impact absorption region and the second impact absorption region. 4. The thin film battery according to claim 1 , wherein the first impact absorption region comprises a partially cured liquid material, a liquid phase of the partially cured liquid material having a viscosity at a predetermined temperature such that the partially cured liquid material has a hardness capable of absorbing an external impact that falls within a range of 500 gf to 1500 gf. 5. The thin film battery according to claim 1 , wherein the impact absorption portion over the upper surface of the topmost unit cell and between the topmost unit cell and the sidewalls of the package housing has a uniform thickness. 6. The thin film battery according to claim 1 , wherein each of the sidewalls of the housing includes one or more partition walls on a top side of the sidewall. 7. The thin film battery according to claim 6 , wherein each of the one or more partition walls comprises Kovar alloy. 8. The thin film battery according to claim 1 , wherein the package material comprises a ceramic material. 9. The thin film battery according to claim 1 , further comprising: a cover over the sidewalls; and one or more partition walls disposed between the cover and the package housing. 10. The thin film battery according to claim 9 , wherein the cover is welded to an upper end of the package housing. 11. The thin film battery according to claim 9 , wherein an inner surface of the cover facing the battery module is separated from the upper surface of the topmost unit cell. 12. The thin film battery according to claim 11 , wherein at least some of the impact absorption portion is between the inner surface of the cover and the upper surface of the topmost unit cell. 13. The thin film battery according to claim 9 , wherein an upper end of the package housing substantially corresponds to an upper end of each of the partition walls. 14. The thin film battery according to claim 1 , wherein the first impact absorption region comprises a cured liquid material having a hardness capable of absorbing an external impact that falls within a range of 1500 gf to 4000 gf. 15. A thin film battery package comprising: a package housing having one or more sidewalls and a bottom surface, and including electrodes formed at the bottom surface; a battery being electrically connected to the electrodes, the battery comprising unit cells, the battery being within the package housing and adjoining the electrodes formed at the bottom surface of the package housing; an impact absorption portion at least over an upper surface of the battery; and a cover over the impact absorption portion; wherein the impact absorption portion comprises: a first impact absorption region surrounding the circumference of the battery and having a solid phase; and a second impact absorption region surrounding a circumference of the first impact absorption region and comprising an epoxy resin having viscosity; wherein at least two of the unit cells are spaced apart by a first gap and the first impact absorption portion is in the first gap, and wherein the electrodes and the battery are spaced apart by a second gap and the first impact absorption portion is in the second gap. 16. A thin film battery package comprising: a package housing having one or more sidewalls and a bottom surface, and including electrodes formed at the bottom surface; a battery being electrically connected to the electrodes, the battery comprising unit cells, the battery being within the package housing and adjoining the electrodes formed at the bottom surface of the package housing; and an impact absorption portion over an upper surface of the battery and between the battery and the one or more sidewalls of the package housing; wherein the impact absorption portion comprises: a first impact absorption region surrounding the circumference of the battery and having a solid phase; and a second impact absorption region surrounding a circumference of the first impact absorption region and comprising an epoxy resin having viscosity; wherein at least two of the unit cells are spaced apart by a first gap and the first impact absorption portion is in the first gap, and wherein the electrodes and the battery are spaced apart by a second gap and the first impact absorption portion is in the second gap. 17. The thin film battery according to claim 1 , wherein the epoxy resin in the second impact absorption region is a liquid-phase filling material. 18. The thin film battery according to claim 1 , wherein the epoxy resin in the second impact absorption region has a viscosity of 400 centipoise or less.