Connector assembly for a battery system

What is claimed is: 1. A connector assembly for voltage monitoring battery cells of a battery module, the connector assembly comprising: a connector having a plurality of terminals configured to be mated with a control module connector associated with the battery module; a multi-wire planar cable extending from the connector, the multi-wire planar cable including a cable axis defined along a majority of a length of the multi-wire planar cable, the multi-wire planar cable having a plurality of flat wires terminated to corresponding terminals and a common jacket for the plurality of flat wires, the flat wires having conductors extending parallel to the cable axis, the flat wires having exposed terminating portions at a sensor end of the multi-wire planar cable for termination to different voltage sensors associated with corresponding buss bars of the battery module, the terminating portions being staggered along the cable axis, wherein the multi-wire planar cable is angled such that the cable axis is non-parallel to a cell stack-up direction of the battery cells with the exposed terminating portions being aligned along a terminating axis generally parallel to the cell stack-up direction. 2. The connector assembly of claim 1 , wherein each flat wire has a different length between the connector and the corresponding terminating portion. 3. The connector assembly of claim 1 , wherein each flat wire ends at the corresponding exposed terminating portion. 4. The connector assembly of claim 1 , wherein the sensor end is stepped defined by the staggered terminating portions. 5. The connector assembly of claim 1 , wherein the terminating portions are separated from other flat wires and are independently movable relative to the other flat wires. 6. The connector assembly of claim 1 , wherein the cable axis of the planar cable is angled relative to the buss bars. 7. The connector assembly of claim 1 , wherein the angle of the planar cable relative to the cell stack-up direction is defined by a width of the terminating portions and a pitch between the terminating portions. 8. The connector assembly of claim 1 , wherein each terminating portion includes a strain relief portion allowing the terminating portion to move relative to the other flat wires. 9. The connector assembly of claim 1 , wherein the planar cable includes a plurality of cablets associated with corresponding flat wires, each cablet includes the corresponding exposed terminating portion and an insulating sleeve surrounding the flat wire, the insulating sleeve being a portion of the jacket of the planar cable, the cablet being independently movable relative to the other flat wires. 10. The connector assembly of claim 9 , wherein the cablet is separated from the planar cable at a separation point, the separation point being aligned with the buss bar to which the corresponding terminating portion is terminated. 11. The connector assembly of claim 1 , wherein the planar cable is angled away from a second planar cable. 12. The connector assembly of claim 1 , wherein the jacket includes grooves between adjacent flat wires for controlled separation of the terminating portions and surrounding jacket portions. 13. A carrier assembly for battery cells of a battery module, the carrier assembly comprising: a tray configured to be coupled to a top of the battery module over the battery cells, the tray holding a plurality of buss bars configured to electrically connect adjacent battery cells of the battery module, the buss bars having voltage sensors associated therewith; a connector assembly coupled to the tray, the connector assembly having a connector including a plurality of terminals configured to be mated with a control module connector associated with the battery module and a multi-wire planar cable extending from the connector, the multi-wire planar cable including a cable axis defined along a majority of a length of the multi-wire planar cable, the multi-wire planar cable having a plurality of flat wires terminated to corresponding terminals and a common jacket for the plurality of flat wires, the flat wires having conductors extending parallel to the cable axis, the flat wires having exposed terminating portions at a sensor end of the multi-wire planar cable for termination to different voltage sensors associated with corresponding buss bars, the terminating portions being staggered along the cable axis, wherein the multi-wire planar cable is angled such that the cable axis is non-parallel to a cell stack-up direction of the battery cells with the exposed terminating portions being aligned along a terminating axis parallel to the cell stack-up direction. 14. The carrier assembly of claim 13 , wherein each flat wire has a different length between the connector and the corresponding terminating portion. 15. The carrier assembly of claim 13 , wherein the sensor end is stepped defined by the staggered terminating portions. 16. The carrier assembly of claim 13 , wherein the terminating portions are separated from other flat wires and are independently movable relative to the other flat wires. 17. The carrier assembly of claim 13 , wherein the angle of the planar cable relative to the cell stack-up direction is defined by a width of the terminating portions and a pitch between the terminating portions. 18. The carrier assembly of claim 13 , wherein the tray holds a second connector assembly, the planar cable is angled away from a second planar cable of the second connector assembly. 19. A battery system comprising: a plurality of battery cells forming a battery module, the battery cells being stacked in a cell stack-up direction; a carrier assembly mounted to the battery module, the carrier assembly having a tray holding a plurality of buss bars for electrically connecting adjacent battery cells of the battery module, the buss bars having voltage sensors sensing a voltage of the corresponding buss bar; and a connector assembly coupled to the tray, the connector assembly having a connector including a plurality of terminals configured to be mated with a control module connector associated with the battery module and a multi-wire planar cable extending from the connector, the multi-wire planar cable including a cable axis defined along a majority of a length of the multi-wire planar cable, the multi-wire planar cable having a plurality of flat wires terminated to corresponding terminals and a common jacket for the plurality of flat wires, the flat wires having conductors extending parallel to the cable axis, the flat wires having exposed terminating portions at a sensor end of the multi-wire planar cable for termination to different voltage sensors associated with corresponding buss bars, the terminating portions being staggered along the cable axis, wherein the multi-wire planar cable is angled such that the cable axis is non-parallel to a cell stack-up direction of the battery cells with the exposed terminating portions being aligned along a terminating axis parallel to the cell stack-up direction. 20. The battery system of claim 19 , wherein each flat wire has a different length between the connector and the corresponding terminating portion.