An ear-worn electronic device is configured to be worn by a wearer and comprises a housing configured to be supported at, by, in or on the wearer's ear. A processor is disposed in the housing. A speaker or a receiver is operably coupled to the processor. A radio frequency transceiver is disposed in the housing and operably coupled to the processor. An antenna is disposed on or in the housing and operably coupled to the transceiver. The antenna comprises a radiating element, a ground plane, and a substrate disposed between the radiating element and the ground plane. The substrate comprises one or both of a dielectric gel and a dielectric liquid.

A battery module includes: a battery having a flat shape and including an electrode disposed on a one-side surface in the thickness direction; and a metal plate disposed at one side in the thickness direction relative to the electrode. The metal plate has electrode bond portions bonded to the electrode. The metal plate includes: a board bondable portion bondable to a wired circuit board via a molten metal; and an opening penetrating the metal plate in the thickness direction. The opening is disposed between the electrode bond portions and board bondable portion.

A battery pack includes battery cells arranged in a first direction, and a busbar assembly coupled to upper portions of the battery cells, the busbar assembly having a busbar electrically connected to the battery cells, a flexible substrate configured to measure a state information of the battery cells, and an insulating film surrounding the busbar and the flexible substrate.

A wired circuit board for battery includes a stainless steel layer, an insulating base layer, and a conductor layer sequentially toward one side in the thickness direction. The stainless steel layer is electrically connected to the conductor layer. The stainless steel layer includes a first laser weld portion that can be laser welded. The first laser weld portion is exposed to the one side and the other side in the thickness direction.

A battery connection module is provided. The battery connection module is adapted to connect a plurality of batteries, the battery connection module includes a plurality of busbars and a single layer wiring flexible circuit board. The plurality of busbars are used to connect a plurality of batteries in series. The single layer wiring flexible circuit board has multiple connector connecting points positioned to a front end portion thereof and a multiple traces, front ends of the multiple traces are respectively connected to the multiple connector connecting points, and rear end connecting points of some of the multiple traces are electrically and mechanically connected to the plurality of busbars, the multiple traces includes at least one rounding trace and at least one rounded trace, the rounding trace rounds the rear end connecting point of the rounded trace so as to round from one side of the at least one rounded trace to the other side of the at least one rounded trace.

A matrix of battery cell modules includes a flexible printed circuit board assembly (PCBA) for a conformal wearable battery (CWB) with a plurality of attachment sections for each of a plurality of battery cells that are arranged in a grid-like pattern on a same side of the flexible PCBA. Each battery cell may be joined with a flexible PCB via a welding process. The flexible PCBA is configured to fold along a bend axis so that the flexible PCBA is folded approximately in half. When affixed to the flexible PCBA, the plurality of battery cell modules and a circuitry module form a grid of physical components. When folded, the flexible PCBA forms a three-dimensional grid of physical components comprising at least the battery cell modules.

A mouth guard senses impact forces and determines if the forces exceed an impact threshold. If so, the mouth guard notifies the user of the risk for injury by haptic feedback, vibratory feedback, and/or audible feedback. The mouth guard system may also remotely communicate the status of risk and the potential injury. The mouth guard uses a local memory device to store impact thresholds based on personal biometric information obtained from the user and compares the sensed forces relative to those threshold values. The mouth guard and its electrical components on the printed circuit board are custom manufactured for the user such that the mouth guard provides a comfortable and reliable fit, while ensuring exceptional performance.

A module includes a first wiring board, a first integrated circuit component mounted on the first wiring board, a second wiring board overlapping with the first wiring board, a second integrated circuit component mounted on the second wiring board, and a connection member disposed between the first wiring board and the second wiring board and configured to electrically connect the first wiring board and the second wiring board, wherein the second integrated circuit component overlaps with the first wiring board and supplies power to the first integrated circuit component via the connection member.

An embodiment of the present invention comprising of a conductive top layer with a plurality of terminals enabling battery connections to be made in series. An insulator middle layer with conductive material extending from the top terminals to the bottom terminals. A conductive bottom layer with a plurality of terminals enabling battery connections to be made to the output terminal or terminals. Output terminal or terminals enabling a load or additional lantern battery adapters to be connected either in series or parallel configuration.

A flexible circuitry layer may comprise a conductive mesh including a circuitry trace; and an interfacing component, comprising: a flexible substrate; a terminal electrically connected to the circuitry trace; and a connector configured to be detachably connected to an external device.