Claims
- 1. A method for forming a resistor, the method comprising the steps of:depositing a photoimageable electrically-resistive layer on a substrate, the electrically-resistive layer comprising a carbon black powder in a curable polymeric matrix, the carbon black powder being combined with the curable polymeric matrix in a ratio of about 1:10 to about 1:20 on a volume basis; photoimaging and developing the electrically-resistive layer so as to remove a first portion of the electrically-resistive layer and leave a second portion of the electrically-resistive layer on the substrate; heating the second portion of the electrically-resistive layer so as to cure the polymeric matrix and form a thick-film resistor on the substrate; and providing electrically-conductive terminations that determine the electrical length of the thick-film resistor.
- 2. A method as recited in claim 1, wherein the terminations are formed on the substrate prior to the depositing step, and the electrically-resistive layer does not contain inorganic fillers.
- 3. A method as recited in claim 1, wherein the curable polymeric matrix is a photosensitive resin matrix and the electrically-resistive layer comprises about eighty-eight to about ninety-four volume percent of the photosensitive resin matrix, about five to about ten volume percent of the carbon black powder and about one to about two volume percent of a catalytic filler that enables the electrically-resistive layer to be electrolessly plated.
- 4. A method as recited in claim 3, wherein the terminations are formed on the thick-film resistor after the heating step by:depositing a photoimageable layer on the resistor; photoimaging and developing the photoimageable layer so as to form openings in the photoimageable layer that expose at least two regions of the resistor; and then electrolessly plating a conductive material on the two regions of the resistor.
- 5. A method as recited in claim 3, wherein the terminations are formed on the thick-film resistor after the heating step by:depositing a first photoimageable dielectric layer on the resistor; photoimaging the first photoimageable dielectric layer; depositing a second photoimageable dielectric layer on the first photoimageable dielectric layer; photoimaging the second photoimageable dielectric layer; developing the first and second photoimageable dielectric layers so as to form openings therein, the openings exposing at least two regions of the resistor and at least two adjacent regions of the first photoimageable dielectric layer; and then electrolessly plating a conductive material on the two regions of the resistor and the two adjacent regions of the first photodefinable dielectric layer.
Government Interests
This invention was made with Government support under Agreement No. F33615-96-2-1838 awarded by DARPA. The Government has certain rights in the invention.
US Referenced Citations (8)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2666682 A1 |
Mar 1992 |
FR |