An apparatus includes an anode of a cell for a battery, a cathode of the cell, an anode thermoelectric device, and a cathode thermoelectric device. The anode thermoelectric device may be operably coupled to the anode of the cell, and the anode thermoelectric device may be connected in electrical series with the anode of the cell. The cathode thermoelectric device may be operably coupled to the cathode of the cell, and the cathode thermoelectric device being connected in electrical series with the cathode of the cell. The cathode thermoelectric device and the anode thermoelectric device may operate as a heat pump system configured to remove heat from the cathode and provide heat to the anode in response to the cell being discharged, and remove heat from the anode and provide heat to the cathode in response to the cell being charged.

An apparatus includes an anode of a cell for a battery, a cathode of the cell, an anode thermoelectric device, and a cathode thermoelectric device. The anode thermoelectric device may be operably coupled to the anode of the cell, and the anode thermoelectric device may be connected in electrical series with the anode of the cell. The cathode thermoelectric device may be operably coupled to the cathode of the cell, and the cathode thermoelectric device being connected in electrical series with the cathode of the cell. The cathode thermoelectric device and the anode thermoelectric device may operate as a heat pump system configured to remove heat from the cathode and provide heat to the anode in response to the cell being discharged, and remove heat from the anode and provide heat to the cathode in response to the cell being charged.

A temperature controlled enclosure that includes a temperature control device for controlling the temperature within an internal cavity of the temperature controlled enclosure. The temperature controlled enclosure also includes one or more charging ports for receiving and charging a battery pack. A controller within the temperature controlled enclosure controls the temperature within the internal cavity to a predetermined or desired temperature (e.g., 20° C.). When a battery pack is received in the one or more charging ports, the temperature of the battery pack can be determined. If, for example, the temperature of the battery pack is below 0° C., the battery pack is allowed to warm up inside the temperature controlled enclosure before the battery pack is charged.

A temperature controlled enclosure that includes a temperature control device for controlling the temperature within an internal cavity of the temperature controlled enclosure. The temperature controlled enclosure also includes one or more charging ports for receiving and charging a battery pack. A controller within the temperature controlled enclosure controls the temperature within the internal cavity to a predetermined or desired temperature (e.g., 20° C.). When a battery pack is received in the one or more charging ports, the temperature of the battery pack can be determined. If, for example, the temperature of the battery pack is below 0° C., the battery pack is allowed to warm up inside the temperature controlled enclosure before the battery pack is charged.

According to an example aspect of the present invention, there is provided a battery pack 100 having integrated thermal management. The battery pack contains a plurality of batteries 110, 112; a base plate 132 affixed to at least one terminal of each battery; a thermoelectric element 150 affixed to the base plate, and thermal insulation 151 on at least two sides of the thermoelectric element 150 adjacent the base plate 132.

According to an example aspect of the present invention, there is provided a battery pack 100 having integrated thermal management. The battery pack contains a plurality of batteries 110, 112; a base plate 132 affixed to at least one terminal of each battery; a thermoelectric element 150 affixed to the base plate, and thermal insulation 151 on at least two sides of the thermoelectric element 150 adjacent the base plate 132.

A battery pack for an electric vehicle or a hybrid vehicle may include a housing, a stack of battery cells disposed within the housing, and a cooling subassembly. The housing typically holds the cell stack together, and the cooling subassembly typically cools the cell stack to prevent damage to the battery cells and to maintain the performance of the battery cells. The cooling subassembly may include a cold plate defining a liquid flow channel and one or more thermoelectric devices (TEDs) that are operable to cool the cell stack when current is supplied thereto. Heat spreaders may be employed within the battery pack, and exemplary configurations of components to thermally and mechanically couple the cooling subassembly are described.

A battery pack for an electric vehicle or a hybrid vehicle may include a housing, a stack of battery cells disposed within the housing, and a cooling subassembly. The housing typically holds the cell stack together, and the cooling subassembly typically cools the cell stack to prevent damage to the battery cells and to maintain the performance of the battery cells. The cooling subassembly may include a cold plate defining a liquid flow channel and one or more thermoelectric devices (TEDs) that are operable to cool the cell stack when current is supplied thereto. Heat spreaders may be employed within the battery pack, and exemplary configurations of components to thermally and mechanically couple the cooling subassembly are described.

Various systems for cooling a battery cell array are described. In one example an energy storage system includes a housing enclosing a battery cell array, an evaporator, and a circulating pump. In another example, an evaporator is adjacent to battery cells to facilitate heat transfer. In another example, thermoelectric elements are positioned adjacent to battery cells to facilitate heat transfer.

Various systems for cooling a battery cell array are described. In one example an energy storage system includes a housing enclosing a battery cell array, an evaporator, and a circulating pump. In another example, an evaporator is adjacent to battery cells to facilitate heat transfer. In another example, thermoelectric elements are positioned adjacent to battery cells to facilitate heat transfer.