JPS58157108A - Printed inductance - Google Patents

Abstract

PURPOSE:To make thin a printed circuit board by a method wherein unlinked parallel electric circuits and the similar circuits prepared with a conductive material are respectively formed on one metal lined layer surface of a plastic magnetic laminar board containing magnetic electrically insulating metal oxide and the other surface thereof and the ends of the circuits on the top and back surfaces to form a coil wound circuit. CONSTITUTION:Unlinked electric circuits 2 are formed on the metal lined layer of a magnetic laminar board 1 with one side lined with copper and unlinked parallel electric circuits 2' are formed with conductive silver paste on the other. Each end 4, 4' of the electric circuits on top and back surfaces are linked by means of a through hole 3 to prepare a coil wound circuit 5, or a print inductance.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an inductance used in industrial equipment, electronic S appliances, electrical equipment, etc. The present invention relates to an inductance used in industrial equipment, electronic S appliances, electric equipment, etc. The aim is to realize a thinner design.

Conventional inductances, as shown in 1111811, are individual parts made of wire-wound ferrite tors and the like and are attached to the printed wiring board, making it impossible to reduce the thickness of the printed wiring board.

The present invention solves the above-mentioned drawbacks, and aims to provide uncoupled parallel electric circuits on the metal-clad surface of a single-sided metal-clad magnetic laminate made by impregnating the base material with a metal oxide-containing resin that has both magnetism and electrical insulation properties. , and form an unconnected parallel electric circuit on the other side with a conductive substance such as conductive paste, conductive adhesive, or conductive paint, and then connect the ends of each electric circuit on the upper and lower sides with through holes to form a coil. The printed inductance has an inductance built into the laminated board by making it into a wire-wound circuit, so there is no need to install a separate inductance component, and the thickness of the printed wiring board can be made comfortably thinner.

Hereinafter, the present invention will be explained with reference to the drawings.1
is a single-sided copper-clad magnetic laminate; a non-coupled electric circuit 2 is formed on the metal-clad surface of the single-sided copper-clad magnetic laminate 1, and a non-coupled parallel electric circuit 21 is formed on the other side using conductive silver paste. Then, use the through holes 3 to connect the electrical circuit ends 4.4/
This is a printed inductance that is connected to form a coil-wound circuit 5.

As explained above, since the printed inductance of the present invention can be built into a printed wiring board, the printed wiring board can be made thinner and more wearable.

[Brief explanation of the drawing]

FIG. 1 is a simplified front view of a conventional inductance, and FIG. 2 is a simplified front view of an inductance of the present invention. 1 is a steel-clad magnetic laminate on one side, 2 is an unconnected parallel electric circuit on the metal-clad side, 2/ is an unconnected parallel electric circuit on the other side, 3
4 is a through hole, 4 is an electric circuit on the metal-covered side, the end, 4/ is an end of the electric circuit on the other side, 5 is a coil, and 4 is a wire-shaped circuit.
6 is a land. Patent Attorney Matsushita Electric & Industrial Co., Ltd. Patent Attorney Toshimaru Jumoto (and 2 others) Figure 1 Figure 2

Claims (1)

[Claims] A non-connected parallel electric circuit is re-created on the metal-clad surface of a single-sided metal-clad magnetic laminate made by impregnating the base material with a metal oxide-containing resin that has both magnetic and electrical insulating properties, and a conductive material is placed on the other side. A printed inductance characterized by forming an unconnected parallel electric circuit and then connecting the ends of the electric circuit on the upper and lower surfaces (through holes) to form a coil-wound circuit.