Battery module with integrated RF communication and cell sensing board

The invention claimed is: 1. A battery module for use with a controller, the battery module comprising: a plurality of battery cells; and a printed circuit board assembly (PCBA) mounted with respect to the battery cells, and having: a substrate defining a conductive interconnect member having a plurality of conductive tabs, wherein the plurality of conductive tabs are oriented parallel to a plane of orientation of the substrate and form a serial electrical connection between the battery cells within the battery module; a radio frequency (RF) communications circuit connected to a surface of the substrate; and a cell sensing circuit connected to the surface of the substrate, and to the RF communications circuit via the substrate, wherein the cell sensing circuit is operable for determining a respective cell voltage of each of the battery cells; wherein the RF communications circuit is in wireless communication with the controller and is operable for wirelessly transmitting the determined cell voltages to the controller. 2. The battery module of claim 1 , wherein the RF communications circuit is in wireless communication with the controller via a 2.4 GHz protocol. 3. The battery module of claim 1 , wherein the substrate is constructed of molded plastic. 4. The battery module of claim 1 , wherein the plurality of conductive tabs includes first and second strips of conductive tabs in the form of alternating pads or squares of different conductive materials arranged along different edges of the substrate, and wherein the RF communications circuit and the cell sensing circuit are both mounted to the surface of the substrate between the first and second strips of conductive tabs. 5. The battery module of claim 1 , wherein the RF communications circuit communicates with the controller using Time Synchronized Channel Hopping. 6. The battery module of claim 1 , further comprising a module cover spanning the PCBA and the plurality of battery cells. 7. The battery module of claim 6 , wherein the controller is positioned at least 0.1 m from the module cover. 8. A battery system comprising: a master battery controller; and a battery pack having a plurality of battery modules each including: a plurality of battery cells; and a printed circuit board assembly (PCBA) mounted with respect to the plurality of battery cells and having: a substrate defining a conductive interconnect member having a plurality of conductive tabs, wherein the plurality of conductive tabs are oriented parallel to a plane of orientation of the substrate and form a serial electrical connection between the battery cells within the battery module; a radio frequency (RF) communications circuit connected to a surface of the substrate; and a cell sensing circuit connected to the surface of the substrate, and to the RF communications circuit through the substrate, wherein the cell sensing circuit is operable for determining a respective cell voltage of each of the battery cells; wherein the RF communications circuit is in wireless communication with the master battery controller and is operable for wirelessly transmitting the cell voltages to the master battery controller, and wherein the master battery controller is programmed to execute a control action with respect to the battery pack using the cell voltages. 9. The battery system of claim 8 , wherein the master battery controller is positioned at least about 0.1 m away from the battery modules. 10. The battery system of claim 8 , wherein the RF communications circuit is in wireless communication with the master battery controller via a 2.4 GHz protocol. 11. The battery system of claim 8 , wherein the conductive interconnect member includes first and second strips of conductive tabs in the form of alternating pads or squares of different conductive materials arranged along different edges of the substrate, and the RF communications circuit and the cell sensing circuit are both mounted to the surface of the substrate between the first and second strips. 12. The battery system of claim 8 , wherein the RF communications circuit communicates with the controller using Time Synchronized Channel Hopping. 13. The battery system of claim 8 , further comprising a module cover spanning the PCBA and the plurality of battery cells. 14. A vehicle comprising: an electric machine operable for generating output torque for propelling the vehicle; and a battery system electrically connected to the electric machine, and having: a master battery controller; and a battery pack having a plurality of battery modules, with each battery module including: a plurality of battery cells; and a printed circuit board assembly (PCBA) mounted to the plurality of battery cells, the PCBA including: a substrate defining a conductive interconnect member having a plurality of conductive tabs, wherein the plurality of conductive tabs are oriented parallel to a plane of orientation of the substrate and form a serial electrical connection between the battery cells within the battery module; a radio frequency (RF) communications circuit connected to a surface of the substrate; and a cell sensing circuit connected to the surface of the substrate, and to the RF communications circuit through the substrate, wherein the cell sensing circuit is operable for measuring a respective cell voltage of each of the battery cells; wherein the RF communications circuit is in wireless communication with the master battery controller and is operable for wirelessly transmitting the measured cell voltages to the master battery controller, and the controller is programmed to execute a control action with respect to the vehicle using the measured cell voltages. 15. The vehicle of claim 14 , wherein the substrate has a plurality of conductive tabs oriented parallel to the plane of orientation of the substrate, and wherein the conductive interconnect member includes the conductive tabs. 16. The vehicle of claim 14 , wherein the conductive interconnect member includes first and second strips of conductive tabs arranged along different edges of the substrate, and the RF communications circuit and the cell sensing circuit are both mounted to the surface of the substrate between the first and second strips. 17. The vehicle of claim 14 , wherein the RF communications circuit communicates with the controller using Time Synchronized Channel Hopping. 18. The vehicle of claim 14 , further comprising a module cover spanning the PCBA and the plurality of battery cells. 19. The vehicle of claim 14 , wherein the RF communications circuit is in wireless communication with the master battery controller via a 2.4 GHz protocol.