An apparatus is described. The apparatus includes a semiconductor chip package loading assembly having a heat sink and a first magnetic material, the first magnetic material to be mechanically coupled to a first side of a printed circuit board that is opposite a second side of the printed circuit board where input/outputs (I/Os) of the semiconductor chip package interface with the printed circuit board. The first magnetic material to be positioned between the printed circuit board and a second magnetic material. The first magnetic material is to be magnetically attracted to the second magnetic material to impede movement of the heat sink.

A flexible printed circuit board according to the present disclosures includes a base film having an insulating property, and a planar coil disposed on a surface of the base film, wherein a number of turns on an inside of a center point of a coil width of the planar coil in a plan view is greater than a number of turns on an outside of the center point.

An electronic component module includes a board, an electronic component, a sealing portion, a metal layer, and a magnetic layer. The board has a first main surface. The electronic component is provided on a first main surface of the board. The sealing portion seals the electronic component. The metal layer covers the sealing portion. The magnetic layer is provided between the sealing portion and the metal layer. The magnetic layer has a magnetic main body and a first cover sheet. The first cover sheet is provided between the magnetic main body and the metal layer. The first cover sheet has a first main surface and a second main surface. The first main surface faces the magnetic main body. The second main surface faces the metal layer. The second outer peripheral end of the second main surface is located inside the first outer peripheral end of the first main surface.

An electronic device may include an electronic circuit, a heat sink thermally coupled to the electronic circuit, and spaced apart cooling fins extending from the heat sink. Each cooling fin includes a circuit board and a cooling device mounted thereon. The cooling device may have a conductive trace layer on the circuit board defining an electromagnet, a mounting member extending upwardly from the circuit board, a fan blade coupled to an upper end of the mounting member to be movable in a rocking motion about an axis defined by the mounting member, and a permanent magnet carried by the fan blade and responsive to the electromagnet.

A manufacturing method for a conductive substrate with a filtering function includes preparing a core layer and forming first and second conductive holes in the core layer, forming a sacrificial copper layer on the first conductive hole and on the core layer, forming a metal layer on the second conductive hole, forming a metal post in the first conductive hole, forming a lower insulating layer on the core layer, forming a lower insulative post in the second conductive hole, forming a magnet wrapping around the metal post to obtain a first conductive post, forming an upper insulating layer on the core layer, forming an upper insulative post in the second conductive hole to obtain a second conductive post, removing the upper insulating layer, the lower insulating layer, and the remaining sacrificial copper post layer, followed by flattening.

A semiconductor package includes a VLSI semiconductor die and one or more output circuits connected to supply power to the die mounted to a package substrate. The output circuit(s), which include a transformer and rectification circuitry, provide current multiplication at an essentially fixed conversion ratio, K, in the semiconductor package, receiving AC power at a relatively high voltage and delivering DC power at a relatively low voltage to the die. The output circuits may be connected in series or parallel as needed. A driver circuit may be provided outside the semiconductor package for receiving power from a source and driving the transformer in the output circuit(s), preferably with sinusoidal currents. The driver circuit may drive a plurality of output circuits. The semiconductor package may require far fewer interface connections for supplying power to the die.

An icosahedral LED display screen belongs to the field of display screens and includes multiple cabinet main frames. Each cabinet main frame is formed with an accommodating cavity. A side of each cabinet main frame is provided with a flexible PCB, an outer side of the flexible PCB is disposed with LEDs, and an inner side of the flexible PCB is provided with a magnet fixedly therewith. The multiple e.g., twenty cabinet main frames are mutually connected to form an icosahedral sphere which has no end point similar to a football, and polygons that make up the sphere are the same, and therefore the cabinet main frames can be completely covered by the flexible PCBs to eliminate a missing of display at an endpoint and reduce design numbers and complexities of the cabinet main frames and the flexible PCBs. An installation of the LED display screen becomes more convenient.

A flexible printed circuit board according to the present disclosures includes a base film having an insulating property, and a planar coil disposed on a surface of the base film, wherein a number of turns on an inside of a center point of a coil width of the planar coil in a plan view is greater than a number of turns on an outside of the center point.

A toy includes a magnetically responsive member, a fulcrum member, a printed circuit board (PCB), a lid covering the PCB, an activation switch, a touch sensor, a motion sensor, an audio transducer, a signal generator and a controller. The flexible PCB includes an electromagnetic coil, and a plurality of light emitting diodes (LEDs). Opening of the lid actuates the activation switch, and in response, the controller controls the signal generator to generate a coil control signal for the electromagnetic coil to produce a magnetic field that interacts with the magnetically responsive member, to induce oscillatory flapping of the PCB. In response to detecting a touch signal from the controller, or a motion signal from the motion sensor, the controller also generates a LED control signal to control illumination of the LEDs while the PCB is flapping, and an audio control signal to control the audio transducer to output sound.

An FPC cable assembly is provided that includes a first ground layer, a second ground layer, and at least one signal line sandwiched by the first and second ground layers. The FPC cable assembly further includes an electromagnetic shielding structure including a first magnetic layer at least partially covering and electrically grounded to the first ground layer, a second magnetic layer at least partially covering and electrically grounded to the second ground layer, and a plurality of magnetic rings magnetically engaged with and electrically contacting the first magnetic layer and the second magnetic layer so as to surround the first and second ground layers, the at least one signal line, and the first and second magnetic layers, thereby providing electromagnetic shielding of the at least one signals line.