A protection tape for a printed circuit board (PCB) includes an insulating base plate, a conductive layer over the insulating base plate, and an adhesive layer over the conductive layer, the adhesive layer including a main part having a first thickness and a subsidiary part having a second thickness less than the first thickness, the main part corresponding to at least a center portion of the insulating base plate and the subsidiary part being arranged at an outside of the main part.

A system for plasma etching or ashing a coating on a substrate includes a plasma chamber, a second electrode, a plasma source coupled to the plasma chamber, a substrate including a coating, and a plasma mask including at least one aperture. The plasma chamber includes a first electrode. The plasma mask is configured to cover the substrate while exposing selected surfaces of the substrate and coating through the at least one aperture. The first electrode and the second electrode are configured to initiate and maintain a plasma within the plasma chamber. The plasma source includes a gas.

A method includes: providing a first layout of a first layer over a substrate, the first layer having at least one metal pattern, and generating a second layout by placing a cut mask at a first position relative to the substrate to remove material from a first region of the at least one metal pattern to provide a first metal pattern and placing the cut mask at a second position relative to the first layer over the substrate to remove material from a second region of the at least one metal pattern to provide a second metal pattern.

In a method for producing a wired circuit board includes a step (1), in which the insulating layer having an inclination face is provided; a step (2), in which a metal thin film is provided on the surface of the insulating layer including the inclination face; a step (3), in which a photoresist is provided on the surface of the metal thin film; a step (4), in which a photomask is disposed so that a first light exposure portion and a second light exposure portion in the photoresist are exposed to light, and the photoresist is exposed to light; a step (5), in which the first light exposure portion and the second light exposure portion are removed; and a step (6), in which the first wire and the second wire are provided on the surface of the metal thin film.

A circuit component decal comprising a transparent sheet and an opaque circuit pattern. The transparent sheet includes opposing top and bottom surfaces and a number of edges. The opaque circuit pattern includes an electronic component footprint and a number of circuit lead paths. The electronic component footprint includes a number of contact points representing the location of leads of the electronic component. The circuit lead paths extend from the contact points to the edges of the transparent sheet. The opaque circuit pattern corresponds to only a section of a complete circuit pattern and is configured to block energy from reaching a first portion of the intermediate substrate when the transparent sheet is positioned on the intermediate substrate so as to form the section of the complete circuit pattern.

The invention relates to a method (20) for producing an electric circuit (2) in which a circuit carrier (4) comprising a first contact surface (14) and a second contact surface (16) is provided. An insulating body (26) is placed on the circuit carrier (4), wherein the insulating body (26) at least partially covers the first contact surface (14) and the second contact surface (16), and the insulating body (26) comprises a recess (34) in the region of both contact surfaces (14, 16). A flowable electro-conductive medium (44) is introduced into the insulating body (26). The invention also relates to an electric circuit (2) and to a further method (60) for producing an electric circuit (2).

A method of making a printed circuit board pallet is provided. The method of making the pallet illustratively includes the steps of: providing a base in a form of a polymer sheet stock; applying a fluid onto the base at selective locations where the pallet will be built-up to a three-dimensional form; depositing a polymer powder onto the base at the selective locations applied with the fluid; removing any excess amounts of the polymer powder not adhered to the fluid; and heating the pallet to fuse the polymer powder together and to the base.

A method includes patterning a layer over a substrate with a first metal pattern; using a cut mask in a first position relative to the substrate to perform a first cut patterning for removing material from a first region within the first pattern; and using the same cut mask to perform a second cut patterning while in a second position relative to the same layer over the substrate, for removing material from a second region in a second metal pattern of the same layer over the substrate.

A wiring board (10) includes a substrate (11) that is transparent and a wiring pattern region (20) that is disposed on the substrate (11) and that includes a plurality of wiring lines (21, 22). The wiring pattern region (20) has a sheet resistance of less than or equal to 5 /sq, and each wiring line (21, 22) has a maximum width of less than or equal to 3 m when viewed at a viewing angle of 120.

In a method for filling through-holes of a substrate with a metal paste, an upper lamination foil is secured to the top surface of the substrate and a lower lamination foil is secured to the bottom surface of the substrate. A laser beam is used to generate a first plurality of holes in the upper lamination foil, and a second plurality of holes in the lower lamination foil. Respective locations of the first and second plurality of holes are aligned with the through-holes of the substrate. Metal paste is applied into the through-holes through the first plurality of holes using a squeegee or a knife. Any metal paste that is pressed out from the second plurality of holes may be scraped off by the squeegee or the knife and recycled. Finally, the upper and lower lamination foils may be removed from the substrate.