An apparatus is provided with a component configured to be operatively coupled to an interface. In a first state, the component is mechanically and/or electrically attached to a substrate. Exposure of the interface to a thermal event that meets or exceeds a first temperature the resilient material is subject to undergo a state change to a second state. The state change includes a physical transformation of the interface, and includes a position change of the component.

An electronic module includes a circuit board, a first component, and a socket element with a first surface and a second surface opposite the first surface. The first surface lies on a surface of the circuit board and is fixed to the circuit board. A second component is secured to the socket element and is electrically connected to the circuit board via the socket element. A protective compound is arranged on the surface of the circuit board and encapsulates the first component. The socket element is partly embedded into the protective compound such that lateral flanks of the socket element are covered by the protective compound, and the second surface of the socket element protrudes out of the protective compound. Connection elements of the socket element and connections of the second component are connected via a welding connection. Second components are attachable to the circuit board in a reliable manner.

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 printed circuit board arrangement, is provided having a first printed circuit board with at least two first contact elements fastened thereto and protruding vertically therefrom, a second printed circuit board with at least two second contact elements fastened thereto, protruding vertically therefrom and corresponding to the first contact elements, and a plastics housing which is mounted on the first printed circuit board and in which the first contact elements are held with a form fit and the second contact elements are mounted displaceably.

An apparatus is provided with a component configured to be operatively coupled to an interface. In a first state, the component is mechanically and/or electrically attached to a substrate. Exposure of the interface to a thermal event that meets or exceeds a first temperature the resilient material is subject to undergo a state change to a second state. The state change includes a physical transformation of the interface, and includes a position change of the component.

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.

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.

An electronic module includes a circuit board, a first component, and a socket element with a first surface and a second surface opposite the first surface. The first surface lies on a surface of the circuit board and is fixed to the circuit board. A second component is secured to the socket element and is electrically connected to the circuit board via the socket element. A protective compound is arranged on the surface of the circuit board and encapsulates the first component. The socket element is partly embedded into the protective compound such that lateral flanks of the socket element are covered by the protective compound, and the second surface of the socket element protrudes out of the protective compound. Connection elements of the socket element and connections of the second component are connected via a welding connection. Second components are attachable to the circuit board in a reliable manner.

A flexible LED screen includes a flexible printed circuit board having a front surface and a rear surface, a plurality of SMT-LEDs mounted on the front surface of the flexible printed circuit board, and a plurality of integrated circuits mounted on the rear surface of the flexible printed circuit board.

A heat dissipating module of an electronic device includes a casing, a circuit board, at least one heat generation element, and a fastening assembly. The casing includes at least one lateral plate. The at least one heat generation element is firmly fixed on the at least one lateral plate through a fixing element. After the at least one lateral plate and the circuit board are combined together through the fastening assembly, the at least one lateral plate and the circuit board pass through a reflow furnace, so that the at least one heat generation element is welded on the circuit board. The heat generated by the at least one heat generation element is transferred to the at least one lateral plate of the casing so as to be dissipated away.