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MEMS

High-resolution-printed-circuits-formed-in-photopolymer-pattern-indentations-overlaying-printed-wiring-board-substrates

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High resolution printed circuits formed in photopolymer pattern indentations overlaying printed wiring board substrates

Details

Inventors: Sullivan, Donald F.;
Assignee:
Primary Examiner: Kittle; John E.
Assistant Examiner: Ryan; Patrick J.
Attorney, Agent or Firm: Brown; Laurence R.

High resolution, high packing density printed circuit wiring with high conductivity wiring is achieved by putting down thick (0.006 in., 0.015 cm) liquid photopolymer insulator layers on an inexpensive substrate and photodeveloping conductor pattern indentations in the layer for filling with conductive materials. Thus, 0.003 in. (0.008 cm) line to line spacings can be achieved with high conductivity conductors 0.006 in. (0.015 cm) thick. A flush top layer of polymer is readily cleaned of contaminants by light surface sanding to assure designed insulation spacings of polymer between conductors without interfering smears. The finished circuits are not subject to damage in handling from surface scratches since the conductors are indented.

DETAILED DESCRIPTION I claim: 1.
The process of producing high resolution closely spaced printed circuits on a substrate which may have surface irregularities, comprising the steps of: forming a patterned polymer layer over said substrate having a substantially flat outer surface with conductor receiving indentations therein to a depth of at least 0.
002 in.
(0.
005 cm), filling the indentations flush with the substantially flat outer surface with a conductive material defining circuit patterns on the substrate, and machining the substantially flat outer surface to remove a thin layer thereby to remove any spillover conductive material on the flat surface of the polymer layer to confine the conductive material within said indentations with the insulating polymer separating adjacent conductive areas.
2.
The process defined in claim 1 wherein the conductive material is a metal filled conductive polymer.
3.
The process defined in claim 1 wherein the conductive material forms a wiring pattern of conductors on the substrate.
4.
The process defined in claim 1 wherein the substrate upon which said polymer layer is formed has a printed wiring pattern upon its surface contributing to surface irregularities, further comprising the step of: producing a multiple layer circuit board wherein the conductive material in said pattern forms other circuit components.
5.
The process defined in claim 1 wherein the substantially flat outer surface is formed by depositing the polymer layer on the substrate as a photopolymer and photographically forming the pattern by means of a flat glass plate carrying an image thereon in contact with the surface while photocuring, thereby to produce therein by means of a flat glass plate photo image a glossy outer surface.
6.
The product made by the process of claim 1.
7.
The process of making printed circuits comprising the steps of making a photopolymer pattern overlying the surface of a printed wiring board substrate to define therein circuit pattern indentations substantially thicker than 0

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