A driver IC film unit including a flexible film, a driver IC on a first surface of the flexible film and configured to receive an input signal and convert the input signal into an image signal for a display panel, at least first to third pad units, on the first surface of the flexible film, configured to electrically connect the driver IC and the flexible film, and at least first to third wire units, on the first surface of the flexible film, electrically connected to the at least first to third pad units, wherein at least one wire unit among the at least first to third wire units is configured to be extended to a second surface facing the first surface via a first via hole passing through the flexible film, and is configured to include a cut portion of wire corresponding to an edge of the flexible film.

A patterned conductive layer on a flexible substrate includes pads for mounting an array of LEDs, conductive strips, and conductive tabs that couple the conductive strips to the pads. The desired circuit configuration is created by removing select tabs by punching holes or otherwise piercing the flexible substrate at the location of the tabs. In some embodiments, the patterned conductive layer is arranged to permit each LED to be mounted in either of two mirrored orientations, and in some embodiments, the patterned conductive layer is arranged to permit a separation between LEDs that is not predefined by the pattern. In some embodiments, the unmodified patterned conductive layer is arranged to provide a parallel circuit configuration, and the modified patterned conductive layer is arranged to provide a series or series-parallel configuration.

A circuit assembly includes a flexible card having a main panel and an extension panel foldably connected along a fold line and a card circuit disposed on the flexible card and having one or more contact points disposed proximate the fold line, and a circuit board having one or more electrical contacts formed on a surface of the circuit board. The flexible card and the circuit board can be disposed in face-to-face contact with each contact point of the card circuit is in registry with a respective electrical contact of the circuit board, with the extension panel folded at the fold line over the circuit board. The assembly includes a clip disposed over the folded extension panel and main panel to apply a sandwiching force to secure the circuit board and the card circuit in electrical contact.

A control unit has a substrate with an electrically conductive structure, an integrated circuit device, which is installed on the substrate in an electrically conductive manner, and a sacrificial structure on the substrate. The sacrificial structure is configured to be irreversibly destroyed if the integrated circuit device is removed from the substrate. The electrically conductive structure has at least one conducting track applied to the substrate. The sacrificial structure is formed by a segment of the conducting track. An electrically insulating connecting layer that connects the integrated circuit device, the substrate, and the segment of the conducting track is formed. The sacrificial structure can be destroyed by the connecting layer when the integrated circuit device is removed.

An apparatus is provided with a component configured with an interface comprising a resilient material. In a first state, the component is mechanically and/or electrically attached to a substrate. Exposure of the interface to the temperature that meets or exceeds the transition temperature of interface causes the resilient material to undergo a state change. The state change of the interface alters the position of the component, including separation of the component from the substrate. The separation disrupts the attachment thereby mitigating damage to the substrate and/or component.

A method for processing a PCBa panel to individualize the PCBa's on the PCBa panel and depanel the PCBa panel in substantially one step is described. The PCBa panel initially comprises a number of PCBa's having components and traces common to a number of different product SKUs. During processing, the PCBa panel is loaded into a machine containing a first and second laser. The first laser severs extra traces on each PCBa to individualize the PCBa's for specific SKUs and the second laser cuts the links between each PCBa, thereby depaneling the PCBa panel.

The present disclosure is directed to a ceramic substrate that includes a plurality of contact pads, a plurality of electrical traces, and a microelectromechanical die. Contacts on the die are coupled to the plurality of contact pads through the plurality of electrical traces. The substrate also includes a plurality of memory bits formed directly on the substrate. Each memory bit is coupled between a first one of the contact pads and a second one of the contact pads.

The invention provides transient devices, including active and passive devices that electrically and/or physically transform upon application of at least one internal and/or external stimulus. Materials, modeling tools, manufacturing approaches, device designs and system level embodiments of transient electronics are provided.

The invention provides transient devices, including active and passive devices that physically, chemically and/or electrically transform upon application of at least one internal and/or external stimulus. Incorporation of degradable device components, degradable substrates and/or degradable encapsulating materials each having a programmable, controllable and/or selectable degradation rate provides a means of transforming the device. In some embodiments, for example, transient devices of the invention combine degradable high performance single crystalline inorganic materials with selectively removable substrates and/or encapsulants.

A flexible light engine, comprising insulating lower and upper laminate sheets; first and second electrically conductive metallic bus bars between the sheets; a plurality of electrically conductive metallic conductors between the sheets being disposed laterally between the bus bars, wherein each conductor defines two metallic contacts exposed in register with adjacent perforations in the perforated upper sheet; wherein each of the bus bars further comprises respective at least two interconnectors, and wherein the conductors are connected to respective interconnectors to define at least two series circuits and connectable in parallel between the bus bars, wherein each of the series circuits comprises a subset of the plurality of metallic conductors; and a plurality of LEDs attached to the contacts defining at least two series LED strings and connected in parallel between the bus bars, each said LED string comprising a plurality of LEDs.