Abstract:
A panel device including a substrate, a conductor pad, a turning wire, and a circuit board is provided. The substrate has a first surface and a second surface connected to the first surface while a normal direction of the second surface is different from a normal direction of the first surface. The conductor pad is disposed on the first surface of the substrate. The turning wire is disposed on the substrate and extends from the first surface to the second surface. The turning wire includes a wiring layer in contact with the conductor pad and a wire covering layer covering the wiring layer. The circuit board is bonded to and electrically connected to the wire covering layer. A manufacturing method of a panel device is also provided herein.
Abstract:
A power converter includes a housing including a convex radiator that radiates heat from a heater element and protrudes toward a board, in which the board and the heater element are arranged, and an urging member that is arranged between the board and a bottom surface of the housing and urges the heater element toward a first side surface of the convex radiator of the housing.
Abstract:
A system and method for placing an inductor on a circuit board. This method includes providing a circuit board, a pedestal, and an inductor, the pedestal has a top surface and a bottom surface and the circuit board has one or more electrical conductors, the inductor having a first inductor terminal and a second inductor terminal. Adhesive is placed on the circuit board and the bottom surface of the pedestal is placed on the adhesive located on the circuit board to secure the pedestal to the circuit board. Next, adhesive is placed on the top surface of the pedestal and the inductor is placed on the adhesive located on the top surface of the pedestal to secure the inductor to the pedestal. The inductor is electrically connected to the circuit board.
Abstract:
A device and a method for manufacturing of a printed circuit board for installing in a battery-powered device, the method including mounting on a printed circuit board (PCB) a PCB surface mount component comprising a planar mount configured to be mounted on the PCB and a kinetic energy absorption element with a battery contact on a distal end of the energy absorption element, and trimming the PCB out of a panel comprising the PCB and a border around the PCB, the border connected integrally with the PCB, wherein the border comprises supports configured to support corresponding ear extensions in the absorption element in order to align the battery contact with a PCB plane.
Abstract:
A lens driving device is provided, including a base, a holder, a first driving mechanism disposed on the first side of the base, a second driving mechanism disposed on the second side of the base opposite the first side, and a conductive member disposed on the base. The holder is configured to sustain a lens. The first driving mechanism is configured to force the holder to move along the optical axis of the lens. The second driving mechanism includes a circuit board assembly and a shape memory alloy (SMA) wire assembly configured to force the base to move in the plane perpendicular to the optical axis. The conductive member and the circuit board assembly are connected at an electrical connection point, and the SMA wire assembly is closer to the light-incident end of the lens with respect to the electrical connection point.
Abstract:
Disclosed is a display unit provided with a display control printed circuit board with a circuit configured to generate a display signal for display by a display panel and a fixing metal plate for securing the display control printed circuit board. The display control printed circuit board is provided with identification information reading means for reading identification information of the display panel, a memory stored with set values for generating display signals corresponding to the sizes of a plurality of display panels, and a display controller configured to generate the display signals. The fixing metal plate comprises one or more members electrically connected to the display control printed circuit board and configured to transmit the identification information of the display unit to the display control printed circuit board. The identification information reading means reads a set value for the display panel from the memory, based on the identification information of the display panel derived from the one or more electrically connected members, and sets the set values in the display controller configured to generate the display signals.
Abstract:
A suspension board with circuit includes a metal supporting board, a base insulating layer disposed at one side in a thickness direction of the metal supporting board, a conductor layer disposed at one side in the thickness direction of the base insulating layer and including a connecting terminal electrically connected to a slider, a cover insulating layer covering the conductor layer so as to expose the connecting terminal and disposed at the one side in the thickness direction of the base insulating layer, and a plating layer covering the connecting terminal. The cover insulating layer includes a first cover insulating layer disposed at the one side in the thickness direction of the base insulating layer and a second cover insulating layer disposed at one side in the thickness direction of the first cover insulating layer, and the thickness of the plating layer is not more than the total sum of the thickness of the first cover insulating layer and that of the second cover insulating layer.
Abstract:
A method includes forming a multi-stacked electronic device having two or more electronic components, each of the electronic components includes a leadframe, the leadframes of each electronic component are physically joined together using a non-solder metal joining process to form a joint, and the joint is located outside a solder connection region.
Abstract:
The circuit board includes a main body, at least one handle, and at least one connecting element. The main body defines at least one through hole. One end of each of the at least one handle defines a positioning portion. The positioning portion of each of the at least one handle extends through a corresponding one of the at least one through hole and is engaged with one of the at least one connecting elements.
Abstract:
PURPOSE: A pin for PCB(Printed Circuit Board) is provided to prevent the disconnection and earth phenomenon and reduce time and cost required for plating by manufacturing the pin with a red brass. CONSTITUTION: A pin(200) is inserted into a pin hole of PCB and pressure-fixed to the PCB to be soldered. The pin(200) for PCB, made of a red brass material, is comprised of a pressing unit(210), a support unit(220), and a winding unit(230). The pin(200) is formed by the red brass and plated with a tin. The red brass is made of a copper of 78.5%-96% and a tin of 4%-21.5%. The winding unit(230) includes a plurality of stopper for preventing the release of a coil. The pin(200) is provided with a friction preventing unit(240) in order to prevent the insulation badness due to a scratch among products.