System and method for crimping interconnection of battery cells

The invention claimed is: 1. A battery module, comprising: a power assembly comprising a first battery cell and a second battery cell in a stacked orientation relative to each other, wherein the first battery cell comprises a first tab electrode extending therefrom, the second battery cell comprises a second tab electrode extending therefrom, the first tab electrode and the second tab electrode each comprise a first portion and a second portion, the first portions overlap with and conform to an outer surface of a coupling structure that is parallel to a first axis, and the second portions extend beyond the outer surface of the coupling structure in a first direction along a second axis cross-wise to the first axis such that the second portions do not contact the coupling structure; and an interconnect assembly configured to facilitate electrically coupling the first tab electrode with the second tab electrode with the first and second battery cells being in the stacked orientation, wherein the interconnect assembly comprises a crimping element disposed over the second portions of the first and second tab electrodes, wherein the crimping element is configured to apply a first compressive force to the second portions of the first and second tab electrodes in a second direction along the first axis and a second compressive force to the second portions of the first and second tab electrodes in a third direction opposite the second direction along the first axis such that the first and second tab electrodes are secured in electrical communication via direct contact of the second portions, and wherein the crimping element does not contact the coupling structure. 2. The battery module of claim 1 , wherein the crimping element comprises a spring element or biasing feature configured to facilitate attachment and removal of the crimping element from the first and second tab electrodes. 3. The battery module of claim 1 , wherein the coupling structure is disposed proximate the first and second tab electrodes and is separate from the crimping element, wherein the first portions of the first and second tab electrodes are secured against the coupling structure via the crimping element. 4. The battery module of claim 3 , wherein the coupling structure comprises sensor leads coupled to sensors disposed on a printed circuit board (PCB) of the battery module, wherein the sensor leads are in electrical communication with the first and second tab electrodes when the first and second tab electrodes are secured against the coupling structure. 5. The battery module of claim 1 , wherein the crimping element is electrically conductive. 6. The battery module of claim 1 , wherein the crimping element comprises a single-piece spring element shaped to apply the first compressive force to the first tab electrode and the second compressive force to the second tab electrode. 7. The battery module of claim 1 , wherein the crimping element comprises high voltage tape. 8. The battery module of claim 1 , wherein the crimping element comprises a clip comprising two rigid arms coupled via a biasing feature. 9. The battery module of claim 1 , comprising a tab electrical contact extending from a PCB of the battery module, wherein the crimping element is configured to be disposed over the tab electrical contact and the second portions of the first and second tab electrodes to electrically couple the first and second tab electrodes with the tab electrical contact. 10. A battery cell interconnect assembly for use in a battery module, comprising: a coupling structure configured to receive a first tab electrode and a second tab electrode in a partially conforming orientation with respect to the coupling structure, wherein the first tab electrode extends from a first battery cell of the battery module and the second tab electrode extends from a second battery cell of the battery module, wherein the first tab electrode and the second tab electrode each comprise a first portion and a second portion, the first portions overlap with and conform to an outer surface of the coupling structure that is parallel to a first axis, and the second portions extend beyond the outer surface of the coupling structure in a first direction along a second axis cross-wise to the first axis, such that the second portions do not contact the coupling structure; and a crimping element configured to be disposed about the second portions of the first and second tab electrodes such that the second portions of the first and second tab electrodes are in direct contact with one another, wherein the crimping element is configured to apply a first compressive force to the second portions of the first and second tab electrodes in a second direction along the first axis and a second compressive force to the second portions of the first and second tab electrodes in a third direction opposite the second direction along the first axis to secure the first and second tab electrodes around the coupling structure. 11. The battery cell interconnect assembly of claim 10 , wherein the crimping element comprises a spring element or biasing feature configured to facilitate removal of the crimping element from the second portions of the first and second tab electrodes. 12. The battery cell interconnect assembly of claim 10 , wherein the crimping element comprises a single-piece spring element shaped to provide the compressive force. 13. The battery cell interconnect assembly of claim 12 , wherein the spring element comprises a first arm at a first end of the spring element and a second arm at a second opposite end of the spring element, wherein the first and second arms are biased toward each other to provide the first compressive force and the second compressive force. 14. The battery cell interconnect assembly of claim 13 , wherein the first and second ends of the spring element comprise end separation features, wherein the end separation features are configured to be engaged and separated from each other to facilitate removal of the spring element from the first and second tab electrodes. 15. The battery cell interconnect assembly of claim 10 , wherein the crimping element comprises high voltage tape. 16. The battery cell interconnect assembly of claim 10 , wherein the crimping element comprises a clip having two rigid arms coupled via a biasing feature, wherein the biasing feature provides the first compressive force and the second compressive force and facilitates removal of the crimping element.