13405846 (P.T.A.B. Aug. 30, 2016)

Ex Parte Sheffield et al

Patent Trial and Appeal BoardAug 30, 2016

13405846 (P.T.A.B. Aug. 30, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/405,846 02/27/2012 31292 7590 09/01/2016 CHRISTOPHER & WEISBERG, PA 200 EAST LAS OLAS BOULEVARD SUITE 2040 FORT LAUDERDALE, FL 33301 FIRST NAMED INVENTOR Robert Sheffield UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www .uspto.gov ATTORNEY DOCKET NO. CONFIRMATION NO. 22493-246CON (15901ROUS02 9806 EXAMINER RUFO, LOUIS J ART UNIT PAPER NUMBER 1759 NOTIFICATION DATE DELIVERY MODE 09/01/2016 ELECTRONIC Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address( es): ptomail@cwiplaw.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ROBERT SHEFFIELD and EILEEN GOULET 1 Appeal2015-003224 Application 13/405,846 Technology Center 1700 Before BRADLEY R. GARRIS, ADRIENE LEPIANE HANLON, and JEFFREY R. SNAY, Administrative Patent Judges. GARRIS, Administrative Patent Judge. DECISION ON APPEAL Appellants appeal under 35 U.S.C. Â§ 134 from the Examiner's decision rejecting claims 19-29 and 34--38. We have jurisdiction under 35 U.S.C. Â§ 6. We AFFIRM. 1 Rockstar Consortium US LP is identified as the real party in interest. App. Br. 1. Appeal2015-003224 Application 13/405,846 Appellants claim a method of manufacturing a circuit board having a conductive trace comprising the step of reducing a surface roughness of a conductive trace surface by vacuum depositing conductive material on the surface (independent claim 19) or the steps of reducing a surface roughness and applying an adhesion promoter to the surface (independent claim 34). A copy of representative claims 19 and 34, taken from the Claims Appendix of the Appeal Brief, appears below. 19. A method of manufacturing a circuit board, the method compnsmg: providing a first circuit board layer, the first circuit board layer having a surface and a conductive circuit trace on the surface of the first circuit board layer, the conductive trace having at least one surface; reducing a surface roughness of the at least one surface of the conductive circuit trace by vacuum depositing conductive material on the at least one surface; and laminating the first circuit board layer with a second circuit board layer. 34. A method of manufacturing a circuit board, the method compnsmg: providing a first circuit board layer of a circuit board, the first circuit board layer having a surface and a conductive circuit trace on the surface of the first circuit board layer, the conductive trace having at least one surface; reducing a surface roughness of the at least one surface of the conductive circuit trace; applying an adhesion promoter to the at least one surface of the conductive circuit trace; and laminating the first circuit board layer with a second circuit board layer. Under 35 U.S.C. Â§ 103(a), the Examiner rejects as unpatentable: claims 19-21, 25-27, 29, 34--36, and 38 over Daigle et al. (US 5,046,238, issued Sept. 10, 1991) ("Daigle") in view ofFushie et al. (US 2 Appeal2015-003224 Application 13/405,846 2002/0100608 Al, published Aug. 1, 2002) ("Fushie") or over Tanaka et al. (US 4,959,507, issued Sept. 25, 1990) ("Tanaka") in view of Fushie and Daigle as evidenced by Liu et al. (US 6,037,258, issued Mar. 14, 2000) ("Liu"); and remaining dependent claims 22-24, 28, and 37 over these respective sets of references in combination with additional prior art. Appellants present arguments specifically directed to independent claims 19 and 34 as well as dependent claims 20, 21, and 29 (App. Br. 6- 13). Remaining dependent claims 22-28 and 35-38 will stand or fall with their parent independent claims (id. at 2). We sustain the above rejections for the reasons expressed in the Final Action, the Answer, and below. In rejecting the independent claims over Daigle and Fushie, the Examiner concludes that it would have been obvious to provide the conductive traces of Daigle with the sputtered (i.e., vacuum deposited) copper/adhesion-promoter layers taught by Fushie to enhance adhesion (Final Action 6-9). The Examiner determines that such sputtering/vacuum depositing is indistinguishable from the claimed vacuum depositing and therefore would be expected to inherently reduce surface roughness of Daigle's traces (id. at sentences bridging 6-7 and 8-9; Ans. i-f bridging 15- 16). In this latter regard, Appellants state that "Fushie does not disclose reducing a surface roughness of a conductive trace" (App. Br. 7) but do not contest or otherwise address the Examiner's determination that Fushie' s sputtering of conductive material inherently would reduce surface roughness of Daigle' s trace. 3 Appeal2015-003224 Application 13/405,846 Appellants argue that Fushie' s copper film 6 is covered by a resin protective layer 8 rather than a sputtered conductive material (id.) and that copper film 6 is a conductive layer that extends over the expanse of the printed circuit board rather than a conductive trace (id. at 8). For the reasons given by the Examiner, Fushie discloses sputtering conductive material on copper film 6 (see, e.g., Ans. 14). In advocating their opposing view, Appellants refer to "Fushie, i-f [0034], which clearly describes 'a resin 8 serving as a protective layer covering the copper film 6"' (Reply Br. 3--4) and argue "[h]ence, Fushie does not describe depositing a conductive material on a conductive circuit trace" (id. at 4). We emphasize, however, that Appellants' quotation of Fushie's i-f 34 disclosure is incomplete by omitting the teaching that resin 8 is "covering the copper film 6 inside the through hole 3" (i-f 34 (underlining added)). Appellants do not identify any disclosure in Fushie that resin 8 covers copper film 6 in the planar areas of the circuit board which are outside through hole 3. In addition, we agree with the Examiner (i) that, contrary to Appellants' above argument, copper film 6 does not extend over the expanse of Fushie' s circuit board because it is broken up by insulating layer 10 as shown in Figure 6, (ii) that accordingly it is appropriate to consider this copper film as a conductive trace, and (iii) that in any event Daigle rather than Fushie is relied on for the disclosure of conductive traces (Ans. 17). In rejecting the independent claims over Tanaka, Fushie, and Daigle as evidenced by Liu, the Examiner concludes that it would have been obvious to modify Tanaka so that first and second circuit board layers are laminated together as taught by Daigle and so that the conductive traces are provided with a sputtered (i.e., vacuum deposited) copper/adhesion- promoter as taught by Fushie whereby the surface roughness of the traces 4 Appeal2015-003224 Application 13/405,846 would be reduced as desired by Tanaka as evidenced by Liu's disclosure of a vacuum deposition technique for reducing surface roughness (Final Action 10-11 and 13). Appellants argue that reducing surface roughness of a conductive trace by vacuum depositing conductive material is not disclosed by Tanaka, Fushie, or Daigle (App. Br. 9) and that "Liu fails to cure the deficiencies of Tanaka, Fushie, and Daigle" (id. at 10). According to Appellants, "the smooth surface obtained by Liu is obtained by an Argon purge between vacuum deposition processes that deposit a conductive layer on a board" (id.), and "[b ]y introducing an Argon purge - which is not a deposition - to smooth the surface, Liu teaches away from relying on a vapor deposition alone to achieve smoothness" (id.). We fully agree with the Examiner's finding that Liu discloses forming a smooth surface layer by a vacuum deposition technique that includes sequentially depositing half layers with an intermediate argon purge in order to limit surface temperature and thereby prevent formation of an undesirable rough top surface topography (Ans. 17-18 (citing Liu col. 4, 11. 31---65)). Contrary to Appellants' apparent belief, Liu expressly teaches that the steps of vacuum depositing half layers participate in limiting surface temperature and thereby surface roughness (see, e.g., Liu col. 4, 11. 31--45). As indicated above, Appellants contend that "[b ]y introducing an Argon purge - which is not a deposition - to smooth the surface, Liu teaches away from relying on a vapor deposition alone to achieve smoothness" (App. Br. 10 (underlining added)). However, Appellants do not identify any language of the independent claims that excludes a vacuum depositing technique comprising sequential depositing steps with an intermediate argon purge as taught by Liu. 5 Appeal2015-003224 Application 13/405,846 Regarding dependent claims 20 and 21, Appellants contend "[t]he cited references do not disclose the more precise deposition recited in Applicants' claims which can be directed laterally, along the direction of the conductive trace, or transversely, across the conductive trace" (App. Br. 11 ). We share the Examiner's position that, in the prior art combinations discussed above, "deposition is provided in all directions" (Ans. 18) thereby resulting in roughness reduction in all directions including directions along as well as across the circuit trace as claimed. As clarification, we point out that claims 20 and 21 are not limited to roughness reductions only in the recited directions. Finally, Appellants present the following argument regarding dependent claim 29. Claim 29 recites "reducing a roughness of at least one side surface of the circuit board trace." In its rejection of this claim, the Office Action asserts that the cited references to Tanaka, Fushie and Daigle "further disclose where the roughness of at least one surface of the circuit board trace is reduced, namely the upper surface." Even if these references showed reduction of roughness of the upper surface, they do not show reduction of roughness to a side surface of the circuit board trace by vacuum deposition. For at least these additional reasons, Claim 29 is allowable, and its rejection should be reversed. App. Br. 11-12. In response, the Examiner determines that the broadest reasonable interpretation of the claim 29 recitation "one side" surface includes a surface on the upper side of the conductive trace (Ans. 18). Appellants argue that the Examiner's interpretation is inconsistent with their Specification because "Applicants' [S]pecification at page 9 6 Appeal2015-003224 Application 13/405,846 clearly distinguishes between the side surface of [the] conductive trace and the upper and lower surfaces of the conductive trace" (Reply Br. 5). While page 9 of the Specification refers to upper surfaces, bottom surfaces, and side surfaces (not illustrated) of a conductive trace, Appellants do not specifically identify the disclosure on page 9 that they believe requires interpreting the phrase "one side" of claim 29 to exclude the upper side of a conductive trace. For example, Appellants do not identify any disclosure of a definition for the term "side" that would exclude an upper side of a trace. On the other hand, the term "side" is commonly defined as broadly including a surface of an object (see, e.g., WEBSTER'S II New Riverside University Dictionary 1984) without regard to whether it is an upper, lower, or lateral surface. Under these circumstances, Appellants do not show error in the Examiner's interpretation of claim 29. For the reasons stated above and given by the Examiner, Appellants' arguments fail to reveal error in the Examiner's rejections of independent claims 19 and 34 and dependent claims 20, 21, and 29. The decision of the Examiner is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a)(l). AFFIRMED 7