A method of manufacturing printed circuit boards includes some or all of: chemically or electrically applying metallic layers to a substrate; incorporating bores into the substrate; through-contacting the bores incorporated into the substrate; applying a layer from a photoresist to an electrically conducting layer in a masking step; exposing the photoresist while using an exposure mask in an exposing step; removing exposed or unexposed regions of the layer from the photoresist while in regions laying bare the electrically conducting layer in a developing step; removing the laid-bare regions of the electrically conducting layer in an etching step; cleaning the substrate in a rinsing step; and drying the substrate, wherein the substrate for carrying out the developing step and/or the etching step is set in rotation and a developer solution and/or an etching liquid is applied to the rotating substrate by at least one nozzle.

A clamping device which uses its own weight to apply pressure during a soldering operation to a solderable part or component for attachment to a circuit board is provided. The clamping device includes a base plate and at least one press block which is configured to be arranged on the base plate and is free to move up or down by gravity relative to the base plate. When the gravitational orientation of the clamping device is correct, the press block moves down relative to the base plate and so presses on the solderable part during soldering.

A frame is provided, for applying potting material to a printed circuit board (PCB). The frame includes a plurality of substantially vertically oriented walls arranged to isolate a surface of the PCB into a plurality of zones. This allows the frame to be aligned over the surface of the PCB to isolate the surface of the PCB into a plurality of zones, each zone comprising at least one PCB component; and allows the potting material to be applied into the zones to achieve coverage of the PCB components in that zone.

The present disclosure provides a manufacturing method. According to this manufacturing method, either a first claw or a second claw is inserted through a notch formed by notching an edge of the hole. The first claw and the second claw are so provided as to project outward from a wall portion of a cover member that covers the body portion of the component from a soldering surface side. The cover member is held on the wiring board, by sliding the cover member relative to the wiring board in a direction along a component mounting surface of the wiring board to position the edge of the hole between the first claw and the second claw provided on a surface of the wall portion identical to a surface on which the first claw is provided. The body portion is inserted into the hole, and an electrode terminal of the body portion is disposed on the wiring board. Solder is applied by flow soldering to the wiring board on which the cover member is held. The cover member is detached from the wiring board, by sliding the cover member relative to the wiring board to which solder has been applied to shift the first claw from the component mounting surface side to the soldering surface side with the first claw passing through the notch.

An electric component includes a printed circuit board with each of a pair of surfaces serving as a component mounting surface. The component mounting surface has a predetermined region on which electronic components are coated with a resin. A predetermined one of the electronic components in the region is not covered with the resin at a portion above a predetermined height from the component mounting surface.

An electronic component includes a main body and signal terminals projecting in a projection direction of a module control terminal, the signal terminals being arranged in an arrangement direction. Through-holes are formed in a control board, and the signal terminals are inserted into the through-holes. In a case, an opening that opens in the projection direction is formed, and ends of the signal terminals are positioned in the projection direction. At a position adjacent to a through-hole group including the through-holes in the arrangement direction, a communication space is formed which makes a first space, which is positioned at a side of electronic component in the projection direction, communicate with a second space opposite to the first space. When a length of the through-hole group is a, and a distance between the through-hole group and the communication space is b, a length of the communication space is longer than a+b.

A stylus for operation with a digitizer device is described. The stylus comprises a housing, at least one transmitter within the housing, electronic circuitry within the housing, the electronic circuitry configured to generate a signal for transmission by the transmitter such that in use, the digitizer device is able to detect the transmitted signal and infer a position of the transmitter with respect to the digitizer device; and an electrically conducting connector. The connector connects the transmitter to the electronic circuitry, and conveys the generated signal from the electronic circuitry to the transmitter. The connector and the transmitter are formed as a single element.

The disclosed apparatus may include (1) a removable stiffening brace that (A) temporarily interfaces with a bottom surface of a circuit board during a reflow process in which at least one component is soldered to the circuit board and (B) provides structural support to the circuit board to prevent the circuit board from warping during the reflow process and (2) at least one fastener that secures the removable stiffening brace to the bottom surface of the circuit board during the reflow process. Various other apparatuses, systems, and methods are also disclosed.

Apparatus and methods are provided to reduce warpage of an integrated circuit package while reflowing solder to couple a first substrate of a first electronic device with a second substrate or second electronic device. In an example, the method can include placing an anti-warpage fixture onto the first electronic device to provide a captured electronic device, placing the captured electronic device and the anti-warpage fixture on the second substrate, and reflowing the captured electronic device to the second substrate. In certain examples, the method can include limiting a clearance distance between the first substrate and the second substrate to a minimum distance.

An electronic component includes a main body and signal terminals projecting in a projection direction of a module control terminal, the signal terminals being arranged in an arrangement direction. Through-holes are formed in a control board, and the signal terminals are inserted into the through-holes. In a case, an opening that opens in the projection direction is formed, and ends of the signal terminals are positioned in the projection direction. At a position adjacent to a through-hole group including the through-holes in the arrangement direction, a communication space is formed which makes a first space, which is positioned at a side of electronic component in the projection direction, communicate with a second space opposite to the first space. When a length of the through-hole group is a, and a distance between the through-hole group and the communication space is b, a length of the communication space is longer than a+b.