Patent ID: 7575778
Filing Date: 2009-08-18
Classification: H01C,H05K

Abstract:
1. A method of applying a polymer thick-film resistive paste for making polymer thick-film resistors having improved tolerances, comprising the steps of; providing a squeegee, said squeegee having a blade with a front surface oriented at an angle A to the direction of travel of a tool holder holding said squeegee, said angle A being in the range of 10° to 85°, providing a polymer thick-film resistive paste, said paste having a thixotropic index at least equal to 3, and comprising; thixotropic behavior adjusting additives, selected from the group consisting of silica powder, fumed silica, nano clay, polyester-amide co-polymers and organo clays, a non-reactive solvent, said non-reactive solvent being Methyl Ethyl Ketone, an epoxy resin, with a weight in the range of 30 to 90%, a catalyst, with a weight in the range of 0.1 to 10%, conductive particles, selected from the group consisting of graphite powder, conductive carbon black, carbon nano-spheres, carbon nano-tubes, metal powders, silver-coated glass powder and metal flakes, and, a dispersing agent, with a weight in the range of 0.1 to 10%, placing a bead of said paste in front of said front surface, providing a cavity, said cavity being defined by i) a bottom surface, said bottom surface being a portion of the upper surface of a non-conductive substrate of a printed circuit board, said bottom surface including electrically conductive terminals, ii) a top opening, said top opening being coplanar with the top surface of one of a stencil sheet and a screen sheet placed on top of said upper surface of said non-conductive substrate, said top opening having a perimeter, said perimeter being defined by one of a cutout made in said stencil sheet and a mesh opening made in said screen sheet, and iii) a thickness or depth t, said thickness being determined by the thickness of said conductive terminals and the thickness of said one of a stencil sheet and a screen sheet, and moving said squeegee, while maintaining contact between the tip of said blade and the top surface of said one of a stencil sheet and a screen sheet and pressing said tip downwardly against said one of a stencil sheet and a screen sheet, in a direction substantially parallel to said top surface of said one of a stencil sheet and a screen sheet and said top opening, thereby a) causing a fluid rotational motion within said bead, b) increasing the shear strain rate experienced by said paste within said bead, c) decreasing the apparent viscosity of said paste and d) filling said cavity with said paste without including air bubbles, experiencing elastic recovery of said paste and, without surface fractures of said paste.