An electronic control unit (ECU) with separable cooling and memory modules is described. The cooling module has an integrated liquid-cooling circuit with a direct connection to the cooling circuit. The memory module includes an independent memory that can store data and be tested independent of the cooling module. The cooling module and the memory module contact at thermal-contact surfaces to enable cooling when installed in a vehicle. In this way, the cooling module may provide cooling through the thermal-contact surface to one or more memory modules and the memory module may be implemented without an internal cooling system.

A display device according to one or more embodiments comprises a flexible display panel, a connection film at least partially overlapping the display panel, and electrically connected to the display panel, source boards at least partially overlapping the connection film, and electrically connected to the connection film, and a flexible printed circuit portion electrically connecting the source boards, and wound or folded on the source boards.

The present disclosure relates to a wearable device that includes a housing, battery terminal connector, conductive traces, and an insulator for recording signals. The device may include a housing enclosing a circuit board and a battery. The device may include two conductive traces electrically connected to terminals of the battery and an insulator separating the conductive traces. The battery terminal connector can present both the conductive traces to the outer surface for coupling to a circuit board. The device can assess the physiological signals to infer a likelihood of arrhythmia of a user.

Aspects of the present disclosure are presented for providing coordinated energy outputs of separate but connected modules, in some cases using communication protocols such as the Data Distribution Service standard (DDS). In some aspects, there is provided a communication circuit between a header or main device, a first module, and a second module, each including connection to a segment of a common backplane, where the output from a first module can be adjusted by sensing a parameter from a second module. In some aspects, the signal can pass from the first module through the header to the second module, or in other cases directly from the first module to the second module. Aspects of the present disclosure also include methods for automatically activating a bipolar surgical system in one or more of the modular systems using the DDS standard.

A method for controlling an output of an energy module of a modular energy system. The energy module can comprise a plurality of amplifiers configured to generate a drive signal at a frequency range and a plurality of ports coupled to the plurality of amplifiers. The method includes determining to which port of the plurality of ports the surgical instrument is connected, selectively coupling an amplifier of the plurality of amplifiers to the port of the plurality of ports to which the surgical instrument is connected, and controlling the amplifier to deliver the drive signal for driving the energy modality to the surgical instrument through the port.

A first module configured to engage with a second module in a stacked configuration to define a modular energy system is provided. The second module comprises a second bridge connector portion that comprises a second outer housing and a second electrical connection element. The first module comprises a first bridge connector portion comprising a first outer housing and a first electrical connection element. The first outer housing is configured to engage the second outer housing during assembly of the modular energy system prior to the first electrical connection element engaging the second electrical connection element.

An electronic device can include a housing defining an aperture and a display assembly at least partially positioned in the aperture. The display assembly can include a substrate having a conductive portion, a display layer having pixels, a touch sensitive layer positioned on a first side of the substrate, an operational component positioned on a second side of the substrate opposite the first side, and a flexible electrical connector electrically coupled with the conductive portion and the operational component. The flexible electrical connector can include an electromagnetic antenna. A transparent cover can overlay the display assembly and can be secured to the housing.

The present disclosure relates to a wearable device with a bridge portion and systems/methods relating to the device. Preferred embodiments may include two flexible wings and a bridge connecting the two wings. In some embodiments, the upper surface of the bridge can be non-adhesive and uncoupled to the flexible wing such that the flexible wing can be decoupled from the bridge when the adhesive is adhered to the surface of a user. The bridge can be narrower in some portions, and extend around the housing of the monitor. The bridge can extend beneath the housing and bisect the two flexible wings.

A fishing reel comprises: a circuit board; a plurality of electrical components electrically connected to the circuit board; an external-device connection unit electrically connected to the circuit board; and a watertight structure to accommodate the circuit board inside. The external-device connection unit comprises: an external connection part disposed outside of the watertight structure, the external connection part being designed to electrically connect to a connector of an external device; an internal connection part disposed inside of the watertight structure, the internal connection part being designed to electrically connect to the circuit board and the external connection part; an internal waterproof part to make a gap between the external connection part and the internal connection part waterproof; a housing to hold the external connection part, the internal connection part, and the internal waterproof part; and an external waterproof part to make a gap between the housing and the watertight structure waterproof.

An apparatus and method to reliably attach an electronic module to a textile. The overall mechanical assembly of the invention includes: (a) light pipe, (b) top enclosure, (b) magnet, (c) main electronics which contains (d) the main PCB, (e) battery and (f) other electronic components, (g) bottom enclosure, which holds (h) the connector PCB, (i) module dock, (j) top textile PCB which are located above the (j) textile band and under the (k) textile pocket and the (l) bottom textile PCB and (m) fabric and laminate padding, which are located below the textile band. The invention is physically embodied by an electronic module, comprising at least one printed circuit board (PCB), comprising at least one conductive circuit and at least one electronic component; a metallic rivet, grommet or eyelet to mechanically and electrically connect the; and a textile substrate with at least one electrically conductive circuit.