A processor receives solder paste information, where the solder paste information describes a solder paste used in assembly of a printed circuit board. A processor determines a minimum magnetic force required for removing the solder paste from the printed circuit board based on the solder paste information. A processor receives electromagnet information, where the electromagnet information describes an electromagnet used in cleaning of a misprint of the solder paste on the printed circuit board. A processor determines a minimum amount of power to provide the electromagnet to induce the minimum magnetic force in the electromagnet, where the determination of the amount of power is based on the electromagnet information and the minimum magnetic force. A processor adjusts an amount of power applied to the electromagnet to at least the determined minimum amount of power to clean the misprint of the solder paste from the printed circuit board.

Apparatus for cleaning an electronic circuit board is disclosed. The electronic circuit board is provided with a substrate layer and a copper layer. A solder mask is applied to the electronic circuit board and a channel is formed in the solder mask. The channel includes an inlet and an outlet. A component is affixed to the electronic circuit board over the channel and cleaning fluid is passed through the channel to remove residual solder flux from between the component and the electronic circuit board.

A processor receives solder paste information, where the solder paste information describes a solder paste used in assembly of a printed circuit board. A processor determines a minimum magnetic force required for removing the solder paste from the printed circuit board based on the solder paste information. A processor receives electromagnet information, where the electromagnet information describes an electromagnet used in cleaning of a misprint of the solder paste on the printed circuit board. A processor determines a minimum amount of power to provide the electromagnet to induce the minimum magnetic force in the electromagnet, where the determination of the amount of power is based on the electromagnet information and the minimum magnetic force. A processor adjusts an amount of power applied to the electromagnet to at least the determined minimum amount of power to clean the misprint of the solder paste from the printed circuit board.

In accordance with an embodiment, a method for manufacturing an electric circuit that includes providing a support having a first region, the first region having a first conductor that has a first sidewall and a second conductor that has a second sidewall, wherein the first conductor is electrically isolated from the second conductor is provided. A distance between the first sidewall and the second sidewall is increased using a technique such as stamping, etching, or trimming. A first circuit element is coupled to the first conductor and encapsulated in a mold compound. In accordance with another embodiment, an electric circuit includes a support having interconnect with sidewalls wherein notches extend from one or more of the sidewalls into the interconnect. A circuit element is coupled to the interconnect by a bonding agent and protected by a protective structure.

A soldering device comprising: a first treatment part that sets a component having an electrode; a second treatment part separated by an opening-closing unit, the second treatment part sending the component on to a third treatment part; the third treatment part separated by an opening-closing unit, the third treatment part causing the component to contact an organic fatty-acid-containing solution and move horizontally; a fourth treatment part having a unit for moving the component to a space portion and causing molten solder to adhere to the electrode; and a unit for removing excess molten solder; a fifth treatment part for horizontally moving the component moved downward by the fourth treatment part; a sixth treatment part separated by an opening-closing unit, the sixth treatment part sending the component on to a seventh treatment part; and the seventh treatment part separated by an opening-closing unit, the seventh treatment part taking out the component.

A printed circuit board includes, an insulating substrate, a metal conductor which is formed on the insulating substrate, a solder resist coating a part of the metal conductor, a scooped-out portion of the metal conductor formed in the vicinity of an end of the solder resist, and a metal layer coating the scooped-out portion.

Disclosed substrate with embedded component includes: an insulating base member; a conductive pad formed on the insulating base member; a component connected to the conductive pad with a solder; and a resin covering the component, wherein a hole is provided in the insulating base member and the conductive pad, and the insulating base member is exposed on a side surface of the hole.

A disclosed method for manufacturing an electronic-component-mounted substrate includes: a step (i) of forming a temporary fixing film (13) in such a manner as to cover a plurality of solder precoats (11) formed on a plurality of lands (10b) on a substrate and an antioxidation film (12) formed in such a manner as to cover the solder precoats; a step (ii) of disposing a plurality of electronic components (30) on the plurality of solder precoats (11) via the antioxidation film (12) and the temporary fixing film (13); and a step (iii) of soldering the plurality of electronic components (30) to the lands (10b) by melting the plurality of solder precoats (11). The antioxidation film (12) contains a first thermoplastic resin. The temporary fixing film (13) contains an activating agent and a second thermoplastic resin. The softening point of the first thermoplastic resin is equal to or lower than the softening point of the second thermoplastic resin.