A connector including a first connector side having a first rotatable connector mechanism and a second connector side having a second rotatable connector mechanism, the first rotatable connector mechanism and the second rotatable connector mechanism being configured to engage one another when the first connector side and the second connector side abut one another at a first angular orientation, the first rotatable connector mechanism and the second rotatable connector mechanism being configured to disengage from one another when the first connector side and the second connector side are rotated away from the first angular orientation in at least a first direction.

A printed circuit board (PCB) having an improved waterproof structure for preventing corrosion of a substrate is disclosed. A plurality of screen-printed protrusions is provided at the PCB surface. the plurality of protrusions allow water to be formed in waterdrops so that the waterdrops can flow to the outside of the PCB. The PCB is arranged to have a tilted structure for facilitating discharge of the water. The tilted structure discharges waterdrops to a lower side of the PCB. The PCB and a PCB assembly having the same are applicable to electronic appliances such as a washing machine.

An apparatus is described. The apparatus including a substrate; one or more sensors and one or more electrical circuits formed on the substrate, the one or more electrical circuits electrically coupled with at least one of the one or more sensors; and a metal layer formed over the sensors, wherein the metal layer is positioned over the one or more sensors to provide a barrier.

An apparatus is described. The apparatus including a substrate; one or more sensors and one or more electrical circuits formed on the substrate, the one or more electrical circuits electrically coupled with at least one of the one or more sensors; and a metal layer formed over the sensors, wherein the metal layer is positioned over the one or more sensors to provide a barrier.

A method for replacing an element of a display device includes: forming a structure with a first liquid layer between a first micro device and a conductive pad of a substrate in which the first micro device is gripped by a capillary force produced by the first liquid layer; evaporating the first liquid layer such that the first micro device is bound to the substrate; determining if the first micro device is malfunctioned or misplaced; removing the first micro device when the first micro device is malfunctioned or misplaced; forming an another structure with a second liquid layer between a second micro device and the conductive pad of the substrate in which the second micro device is gripped by a capillary force produced by the second liquid layer; and evaporating the second liquid layer such that the second micro device is bound to the substrate.

A method for replacing an element of a display device includes: forming a structure with a first liquid layer between a first micro device and a conductive pad of a substrate in which the first micro device is gripped by a capillary force produced by the first liquid layer; evaporating the first liquid layer such that the first micro device is bound to the substrate; determining if the first micro device is malfunctioned or misplaced; removing the first micro device when the first micro device is malfunctioned or misplaced; forming an another structure with a second liquid layer between a second micro device and the conductive pad of the substrate in which the second micro device is gripped by a capillary force produced by the second liquid layer; and evaporating the second liquid layer such that the second micro device is bound to the substrate.

An electrooptical display device comprising an electrooptical display and a plurality of foils which are arranged on one of another and the plurality of foils is situated in front of the electrooptical display, so that the plurality of foils is situated between the electrooptical display and a possible viewer or observer of the electrooptical display device is disclosed. The foils comprise centering features for centering the foils in a frame of the electrooptical display device and the foils are connected by a linking.

An electrooptical display device comprising an electrooptical display and a plurality of foils which are arranged on one of another and the plurality of foils is situated in front of the electrooptical display, so that the plurality of foils is situated between the electrooptical display and a possible viewer or observer of the electrooptical display device is disclosed. The foils comprise centering features for centering the foils in a frame of the electrooptical display device and the foils are connected by a linking.

A user equipment (UE) overheating protection method includes: in response to determining that UE is experiencing an overheating condition, sending, to a base station, first signaling to request a cooling configuration, and starting a timer of a preset timing period, wherein the first signaling includes assistance information signaling to a base station to solve the overheating condition, and the assistance information includes at least one of temporary capability of the UE or a target radio link configuration to which the UE is to be adjusted.

A user equipment (UE) overheating protection method includes: in response to determining that UE is experiencing an overheating condition, sending, to a base station, first signaling to request a cooling configuration, and starting a timer of a preset timing period, wherein the first signaling includes assistance information signaling to a base station to solve the overheating condition, and the assistance information includes at least one of temporary capability of the UE or a target radio link configuration to which the UE is to be adjusted.