A multiplexed battery set includes a plurality of battery units connected in series in such a manner that the battery units are bendable at connection positions, each of which is between each adjacent two of the battery units. Each battery unit includes a plurality of contacts. The battery set further includes a plurality of electrical wires respectively electrically connected between the contacts of each adjacent two battery units to electrically connect the battery units in series. The electrical wires has a length capable for keeping battery units in an electrically connected status when each adjacent two battery units are bent by an external force.

A battery includes a first power generation element, a first outer cover body which encloses the first power generation element, and a first planar electrode having, as principal surfaces, a first connecting surface and a first protruding surface opposite the first connecting surface. The first connecting surface is electrically connected to the first power generation element. The first outer cover body includes a first covering portion provided with a first opening. The first protruding surface protrudes from the first opening toward an outside of the first covering portion. The first covering portion is joined to at least one of the first planar electrode and the first power generation element.

A battery module includes a first battery cell, a second battery cell, and a terminal connection member connecting the first and second terminal portions together, and including: a first contact portion, the first contact portion having a first facing portion contacting the first terminal portion, a second contact portion, the second contact portion having a second facing portion contacting the second terminal portion, the second facing portion being spaced apart from the first facing portion in a first direction, an outermost portion of the first contact portion being spaced apart in the first direction from an outermost portion of the second contact portion by a first distance, and a support portion, the support portion extending in the first direction between the first contact portion and the second contact portion, the support portion having an overall length in the first direction that is greater than the first distance.

A battery assembly includes at least one first cell unit of a first cell type and a first connection which is connected to a pole of the at least one first cell unit. The battery assembly also includes at least one second cell unit of a second cell type. The at least one second cell unit is different from the at least one first cell unit. The battery assembly also includes a second connection which is connected to a pole of the at least one second cell unit.

The present invention relates to a battery module for storage of electrochemical cells, including a cover assembly including an inner frame that encloses an end of the cells and applies a compressive force thereto, an intermediate frame that is snap fit to an outer surface of the inner frame and supports ancillary structures of the battery system, and an outer cover that is snap fit to an outer surface of the intermediate frame.

Described is a distributed battery management system that utilizes circuit boards as direct current busses for primary power in large-scale battery energy storage systems.

A battery device and a battery connection module are provided. The battery device includes a pack, a connection module, a management circuit board and an electrical connecting unit. The connection module includes an insulating frame having an assembling side, electrode connecting members, extension terminals and an adapter circuit board. The connecting members are provided to the frame and connect the electrode of the pack. The terminals are provided to the frame and respectively correspond to the connecting members. Each terminal has a fixed segment embedded to the frame, an internal connection segment exposed to the frame and connected with the corresponding connecting member and an external connecting segment extending out of the side of the frame. The adapter circuit board is fixed to the side of the frame and connects with the external connecting segments of the terminals. The connecting unit connects the management and adapter circuit boards.

A battery module for use with a controller includes a printed circuit board assembly (PCBA) mounted to a plurality of battery cells. The PCBA includes a substrate, a radio frequency (RF) communications circuit, a cell sensing circuit, and a conductive interconnecting member. The cell sensing circuit is operable for measuring a respective cell voltage of each of the battery cells. The conductive interconnect member forms an electrical connection between the battery cells. The RF communications circuit is in wireless communication with the controller and is operable for wirelessly transmitting the measured cell voltages to the controller. A battery system includes a master battery controller and the battery pack. A vehicle includes an electric machine operable for generating output torque for propelling the vehicle, as well as the battery system noted above.

A system for monitoring an energy storage system composed of multiple cells connected in series has a chain of monitors including at least first and second monitors. The first monitor is configured for monitoring at least a first cell in the energy storage system to produce first monitored data. The second monitor is configured for monitoring at least a second cell in the energy storage system to produce second monitored data. The first monitor is further configured for transferring the first monitored data to the second monitor for delivery to a controller.

A lithium ion secondary battery that can be charged without regard to polarity is disclosed. The lithium ion secondary battery includes a lithium ion secondary battery unit, which includes a first electrode layer and a second electrode layer that are laminated on an electrolytic region. The first electrode layer and the second electrode layer contain Li.sub.2Mn.sub.2O.sub.4 as a common active material.