Abstract: A cell temperature measurement system for a battery module is described. The system may include a cell monitoring unit (CMU) configured to generate temperature measurements for a plurality of battery cells included as part of the battery module according to contactless, optical, or line-of-sight measurements made with one or more sensors associated with a temperature measurement device.

Abstract: In an embodiment, a cooling plate comprises a first substrate and a second substrate; wherein the first substrate and the second substrate are adhesively bonded via an adhesive layer; wherein a conduit is formed between the first substrate and the second substrate having an inlet and an outlet that forms a flow field for a coolant to flow through; wherein the adhesion layer forms a tight fluid seal to prevent leakage of the coolant from the conduit to a bonded region proximal to the conduit area between the first substrate and the second substrate.

Abstract: A method of leak testing a fluid passage of a part manufactured from a low conductivity material includes measuring an electrical resistance between an interior wall surface of the fluid passage of the part, and an exterior wall surface of the fluid passage of the part. The measured electrical resistance is compared to a threshold value to determine if the measured electrical resistance is equal to or greater than the threshold value, or if the measured electrical resistance is less than the threshold value. The threshold value is equal to a nominal wall thickness of the fluid passage multiplied by a resistivity of the material used to form the part. The part passes the leak test when the measured electrical resistance is equal to or greater than the threshold value. The part fails the leak test when the measured electrical resistance is less than the threshold value.

Abstract: Provided herein are battery packs comprising a first polymeric endplate, a second polymeric endplate, and a plurality (n) of partitions extending between the first endplate and second endplate and defining (n?1) battery cavities. Each cavity is capable of receiving a battery cell stack comprising a plurality of battery cells and optionally cooling plates and foam pads. Partitions comprise a plurality of polymeric repeating spacers, and each spacer from each partition can correspond to a cooling plate common to a plurality of battery cell stacks. Each of the repeating spacers and cooling plates can include a plurality of aligned apertures, and corresponding bolts can occupy the aligned apertures and secure the same to the endplates. Each repeating spacer can correspond to a complete or partial battery unit, wherein a complete battery unit comprises a first battery cell, a cooling plate, a second battery cell, and a foam pad.

Abstract: A method of assembling a power module includes placing a first plurality of cells adjacent to one another to form a first cell layer. A flexible circuit layer is positioned above the first cell layer, the flexible circuit being electrically conductive. A second plurality of cells is positioned adjacent to one another to form a second cell layer aligned with the first cell layer such that the flexible circuit layer is sandwiched between the first cell layer and the second cell layer. The flexible circuit layer is folded along each of a plurality of axes of rotation such that each one of the first plurality of cells faces another one of the second plurality of cells. Each of the first plurality of cells and the second plurality of cells has respective first and second tabs (extending from their respective short ends) which are welded to the flexible circuit layer.

Abstract: A battery assembly includes a plurality of battery cells each including a cell tab and a bus bar connected to the cell tabs of adjacent battery cells. The bus bar including a pair of 180 degree bend regions that each define a channel for receiving a respective cell tab and a cut-out region defining an opening having opposing edge portions that allows direct access to the cell tab within the cut-out region. A weld line connects the cell tab to at least one of the opposing edge portions within the cut-out region.

Abstract: Provided herein are battery packs comprising a first polymeric endplate, a second polymeric endplate, and a plurality (n) of partitions extending between the first endplate and second endplate and defining (n?1) battery cavities. Each cavity is capable of receiving a battery cell stack comprising a plurality of battery cells and optionally cooling plates and foam pads. Partitions comprise a plurality of polymeric repeating spacers, and each spacer from each partition can correspond to a cooling plate common to a plurality of battery cell stacks. Each of the repeating spacers and cooling plates can include a plurality of aligned apertures, and corresponding bolts can occupy the aligned apertures and secure the same to the endplates. Each repeating spacer can correspond to a complete or partial battery unit, wherein a complete battery unit comprises a first battery cell, a cooling plate, a second battery cell, and a foam pad.

Abstract: A cooling system for a battery is provided which includes a first tube, a second tube and a middle section which may be formed from an electrically insulating yet thermally conductive material. The first tube and the second tube may each be adapted to transfer coolant from a first end to a second end. The middle section integral may be the first tube on the first side of the middle section and integral to the second tube on the second side of the middle section. The first tube, the second tube and the middle section may be operatively configured to draw thermal energy away from at least one bus bar and corresponding cell tabs for a battery.

Abstract: A rechargeable battery assembly includes battery cells, a plurality of heat spreaders, a first heat exchanger and a second heat exchanger. Each heat spreader includes a plate portion, a first end portion and a second end portion. The battery cells are disposed in a stacked arrangement, with the heat spreaders interleaved between adjacent ones of the battery cells. Fluidic channels includes a first port that is in fluidic communication with the first manifold and a second port that is in fluidic communication with the second manifold. The fluidic channels are disposed between the first and second fluidic manifolds. The stacked arrangement is interposed between the first heat exchanger and the second heat exchanger. The first end portions of the heat spreaders are in thermal contact with the first heat exchanger and the second end portions of the heat spreaders are in thermal contact with the second heat exchanger.

Abstract: A method of assembling a power module includes placing a first plurality of cells adjacent to one another to form a first cell layer. A flexible circuit layer is positioned above the first cell layer, the flexible circuit being electrically conductive. A second plurality of cells is positioned adjacent to one another to form a second cell layer aligned with the first cell layer such that the flexible circuit layer is sandwiched between the first cell layer and the second cell layer. The flexible circuit layer is folded along each of a plurality of axes of rotation such that each one of the first plurality of cells faces another one of the second plurality of cells. Each of the first plurality of cells and the second plurality of cells has respective first and second tabs (extending from their respective short ends) which are welded to the flexible circuit layer.

Abstract: A battery assembly includes a plurality of battery cells each including a cell tab and a bus bar connected to the cell tabs of adjacent battery cells. The bus bar including a pair of 180 degree bend regions that each define a channel for receiving a respective cell tab and a cut-out region defining an opening having opposing edge portions that allows direct access to the cell tab within the cut-out region. A weld line connects the cell tab to at least one of the opposing edge portions within the cut-out region.

Abstract: A method of leak testing a fluid passage of a part manufactured from a low conductivity material includes measuring an electrical resistance between an interior wall surface of the fluid passage of the part, and an exterior wall surface of the fluid passage of the part. The measured electrical resistance is compared to a threshold value to determine if the measured electrical resistance is equal to or greater than the threshold value, or if the measured electrical resistance is less than the threshold value. The threshold value is equal to a nominal wall thickness of the fluid passage multiplied by a resistivity of the material used to form the part. The part passes the leak test when the measured electrical resistance is equal to or greater than the threshold value. The part fails the leak test when the measured electrical resistance is less than the threshold value.

Abstract: A cooling system for a battery is provided which includes a first tube, a second tube and a middle section which may be formed from an electrically insulating yet thermally conductive material. The first tube and the second tube may each be adapted to transfer coolant from a first end to a second end. The middle section integral may be the first tube on the first side of the middle section and integral to the second tube on the second side of the middle section. The first tube, the second tube and the middle section may be operatively configured to draw thermal energy away from at least one bus bar and corresponding cell tabs for a battery.

Abstract: A cooling plate design for cooling a battery cell is provided that employs a plastic plate having cutouts for coolant flow paths. The plastic plate has a layer of adhesive film on each side to maintain coolant in the channels. Compression within an alternating battery cell and coolant plate stack provides pressure that minimizes coolant load on the film. Methods to manufacture the cooling plate are also provided.

Abstract: An electric joint formed between a high current source and a high current load, and a method of making electrical connection between them. In one form, the source is made up of one or more cells in a battery pack and the load is an electric motor. An electrical connection assembly includes a first conductor, a fastener and a second conductor joined together such that electrical continuity between the conductors is not established until the fastener imparts a substantially normal force to both of them in such a way that they become secured together to produce a deformable shape to adjacently-facing surfaces one or both conductors, thereby ensuring significant contact and a related low electrical resistance as a way to avoid imperfect or partial attachments at the joint.

Abstract: A battery pack, an integrated device for sensing individual battery voltages in a battery pack and protecting the battery pack in the event of a circuit-breaking event, and a method of forming an integrated voltage-sensing circuit for use in a battery-powered automobile propulsion system. The battery pack includes numerous voltage sensing circuits with patterned sense line trace fuses and an encapsulant formed around each of the fuses. The encapsulant is robust enough to provide environmental isolation of the patterned fuse such that the tendency of the fuse to form short-circuit connections to adjacent circuits is avoided under both normal battery pack operation and after a circuit-breaking episode where the fuse blows.

Abstract: A modular battery pack assembly and method of making the same. Prismatic battery cells are placed along a stacking axis within a structural frame that is made of a polymeric material that includes foldable components made up of a top section disposed adjacent an edge of the stacked cells, and numerous side sections cooperatively coupled to the top sections to define an enclosure about the cells. In one form, apertures, protrusions and other features may be formed in or on the enclosure surface that faces or otherwise engages the cells, while in another form, built-in hinges permit selective latching between adjacent enclosure sections. A bottom section, which may be made of the same or similar material, may be secured to the remainder of the enclosure that is formed by the top and side sections such that the stacked cells are completely enclosed in a portable, modular assembly.

Abstract: An electric joint formed between a high current source and a high current load, and a method of making electrical connection between them. In one form, the source is made up of one or more cells in a battery pack and the load is an electric motor. An electrical connection assembly includes a first conductor, a fastener and a second conductor joined together such that electrical continuity between the conductors is not established until the fastener imparts a substantially normal force to both of them in such a way that they become secured together to produce a deformable shape to adjacently-facing surfaces one or both conductors, thereby ensuring significant contact and a related low electrical resistance as a way to avoid imperfect or partial attachments at the joint.

Abstract: A cooling plate design for cooling a battery cell is provided that employs a plastic plate having cutouts for coolant flow paths. The plastic plate has a layer of adhesive film on each side to maintain coolant in the channels. Compression within an alternating battery cell and coolant plate stack provides pressure that minimizes coolant load on the film. Methods to manufacture the cooling plate are also provided.

Abstract: System and methods for measuring parameters of a battery system using a battery sensing circuit are presented. In certain embodiments, the systems and methods allow a vehicle battery sensing circuit and/or other associated system to measure a compensation parameter. The compensation parameter may be utilized by the battery sensing circuit and/or other associated system in measuring other parameters relating to the battery system including cell voltages.