A battery that includes collectors with tabs that are wide with respect to the area of the collector. The wide tabs present a low electrical and thermal resistance to improve the flow of current and/or heat to and from the collector thereby improving electrical and thermal performance of the battery. The battery further includes terminals with a channel that supports the flow of medium (e.g., liquid) to heat and/or cool the battery. The terminals may include fins or pins to increase the surface area of the terminal to improve thermal transfer to and from the battery and collectors of the battery. The batteries may be formed into a battery module that includes a system for monitoring and regulating the temperature of the batteries of the module.

This disclosure describes various embodiments of a battery assembly for an electrified vehicle battery pack. The battery assemblies include one or more battery cells (e.g., cylindrical, prismatic, or pouch cells) and a cooling device extending at least partially through the battery cells. The cooling device is configured to either conductively or convectively cool the battery cells. In some embodiments, the cooling device is a solid rod, a hollow tube, a slab, or some combination of these features. In other embodiments, the cooling device connects to a coolant manifold configured to communicate coolant for convectively cooling the battery cells of the battery assembly.

This disclosure describes various embodiments of a battery assembly for an electrified vehicle battery pack. The battery assemblies include one or more battery cells (e.g., cylindrical, prismatic, or pouch cells) and a cooling device extending at least partially through the battery cells. The cooling device is configured to either conductively or convectively cool the battery cells. In some embodiments, the cooling device is a solid rod, a hollow tube, a slab, or some combination of these features. In other embodiments, the cooling device connects to a coolant manifold configured to communicate coolant for convectively cooling the battery cells of the battery assembly.

A secondary battery according to the present invention, in which an electrode assembly is built in a cylindrical can, a top cap connected to a positive electrode of the electrode assembly is coupled to an upper end of the can, and the can is connected to a negative electrode. The secondary battery includes a cooling member which receives heat generated in the electrode assembly to release the heat and is coupled to a lower portion of the can, wherein the cooling member has a plurality of cooling pins disposed parallel to each other.

A secondary battery according to the present invention, in which an electrode assembly is built in a cylindrical can, a top cap connected to a positive electrode of the electrode assembly is coupled to an upper end of the can, and the can is connected to a negative electrode. The secondary battery includes a cooling member which receives heat generated in the electrode assembly to release the heat and is coupled to a lower portion of the can, wherein the cooling member has a plurality of cooling pins disposed parallel to each other.

A secondary battery includes a first electrode assembly including a first cathode and a first anode, a second electrode assembly that is disposed to be opposite the first electrode assembly and that includes a second cathode and a second anode, a cooling plate disposed between the first and second electrode assemblies for cooling of the first and second electrode assemblies, an exterior material in which the first and second electrode assemblies are disposed, a cathode tab electrically connected to the first and second cathodes and exposed outside the exterior material, and an anode tab electrically connected to the first and second anodes and exposed outside the exterior material, in which at least one of the cathode tab and the anode tab is coupled to the cooling plate.

In some examples, a battery assembly for an implantable medical device. The assembly includes a housing, an electrode stack comprising a plurality of electrode plates disposed inside the housing, and an intermediate member configured to align the electrode stack at a fixed position within the housing, the intermediate member comprising a plurality of side walls, and at least one protrusion disposed on an exterior surface of the side walls, wherein the at least one protrusion is in thermal contact with an interior surface of the housing.

In some examples, a battery assembly for an implantable medical device. The assembly includes a housing, an electrode stack comprising a plurality of electrode plates disposed inside the housing, and an intermediate member configured to align the electrode stack at a fixed position within the housing, the intermediate member comprising a plurality of side walls, and at least one protrusion disposed on an exterior surface of the side walls, wherein the at least one protrusion is in thermal contact with an interior surface of the housing.

A battery structure is provided. The battery structure includes a casing, a jelly roll assembly, electrodes, insulation and a thermal control feature. The casing includes an internal tube defining a central hole. The jelly roll assembly is disposed with an electrolyte in an annular space about the internal tube within the casing. The electrodes are electrically coupled to the jelly roll assembly and disposed to extend out of the casing. The insulation is disposed to insulate the jelly roll assembly and the electrodes from the casing. The thermal control feature is communicative with the central hole and configured to control battery structure temperatures proximate to the central hole.

The present document relates to an electrode for use in a layered device structure, the electrode comprising at least one layer of conductive material, wherein the electrode comprises at least one micro evaporator having an evaporator inlet for receiving a cooling fluid and an evaporator outlet for removing the cooling fluid after evaporation, wherein the micro evaporator includes a plurality of micro channels forming an evaporation volume, the micro channels being embedded in the layer of conductive material. The present document further relates to a battery design including such an electrode.