13832205 (P.T.A.B. Aug. 29, 2018)

Ex Parte Lin et al

Patent Trial and Appeal BoardAug 29, 2018

13832205 (P.T.A.B. Aug. 29, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/832,205 03/15/2013 112165 7590 09/07/2018 STATS ChipPAC/PATENT LAW GROUP: Atkins and Associates, P.C. 55 N. Arizona Place, Suite 104 Chandler, AZ 85225 FIRST NAMED INVENTOR YaojianLin 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. 2515.0408 6197 EXAMINER NGUYEN, DILINH P ART UNIT PAPER NUMBER 2894 NOTIFICATION DATE DELIVERY MODE 09/07/2018 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): main@plgaz.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte Y AOJIAN LIN and KANG CHEN Appeal2018-001221 Application 13/832,205 Technology Center 2800 Before LINDA M. GAUDETTE, JEFFREY B. ROBERTSON, and BRIAND. RANGE, Administrative Patent Judges. ROBERTSON, Administrative Patent Judge. DECISION ON APPEAL Appeal 2018-001221 Application 13/832,205 STATEMENT OF CASE Appellant1 appeals under 35 U.S.C. Â§ 134 from the Examiner's rejections of claims 14--21 and 24--38. We have jurisdiction under 35 U.S.C. Â§ 6(b ). We REVERSE. THE INVENTION Appellant states that the invention relates in general to semiconductor devices and methods of forming dual-sided interconnect structures. (Spec. Figure 4b is an embodiment showing a portion of a process for forming an interposer substrate 155 with a semiconductor die mounted thereon and is reproduced below: F'iO. 4b Figure 4b depicts, inter alia, an electrically conductive bump material 156 deposited over a conductive layer 150. (Spec. ,r,r 15, 44.) 1 The Appellant is the applicant, ST ATS ChipP AC Pte. Ltd., formerly STATS ChipPAC, Ltd., which according to the Appeal Brief, is also the real party in interest. (Appeal Brief filed May 22, 2017, hereinafter "App. Br.," 1.) 2 Appeal 2018-001221 Application 13/832,205 Figure 9 is an embodiment of an interposer substrate with an exposed side surface of a bump and is reproduced below: ;::,14'0 ' i Â·Â·Â·Â·Â·Â·Â·Â·Â·Â·Â·Â·.:rÂ·Â·Â·Â·Â·Â·sÂ·Â·Â· : Â·4 t7B Figure 9 illustrates an embodiment of the wafer level chip scale package (WLCSP) depicting a portion of cores substrate 140 being removed by laser 244 to expose a surface of bump 156 for electrical interconnect to external semiconductor devices. (Spec. ,r,r 15, 65.) Claims 14 and 20, reproduced below, are illustrative of the claimed subject matter ( emphases added): 14. A semiconductor device, comprising: a substrate; a vertical interconnect structure formed in contact with a first surface of the substrate, wherein the substrate includes an opening extending from a second surface of the substrate opposite the first surface of the substrate to the vertical interconnect structure; a semiconductor die disposed over the first surface of the substrate; an encapsulant deposited over the first surface of the substrate, a side surface of the substrate, and around the semiconductor die, including a surface of the encapsulant outside the substrate coplanar with the second surface of the substrate; and a first interconnect structure formed over the encapsulant opposite the substrate and coupled to the semiconductor die. 3 Appeal 2018-001221 Application 13/832,205 20. A semiconductor device, comprising: a substrate including, (a) a core material, (b) a first conductive layer formed over a first surface of the core material, ( c) a second conductive layer formed over a second surface of the core material opposite the first surface, and ( d) a conductive via formed through the core material and contacting the first conductive layer and second conductive layer; a bump formed over the first conductive layer; a semiconductor die disposed over a first surface of the substrate and first conductive layer; an encapsulant deposited over the substrate and around the semiconductor die including a surface of the encapsulant outside the substrate coplanar with a second surface of the substrate opposite the first surface of the substrate; and a first interconnect structure formed over the encapsulant opposite the substrate and coupled to the semiconductor die. (App. Br., Claims Appendix 9, 11.) THE REJECTIONS The Examiner rejected claims 14--16, 18, 20, 21, 24, 26-30, and 32- 3 8 under pre-AIA 35 U.S.C. Â§ 102(b) as anticipated by Chi et al. (US 2011/0068444 Al, published March 24, 2011, hereinafter "Chi"). The Examiner rejected claims 19, 25, and 31 under pre-AIA 35 U.S.C. Â§ I03(a) as obvious over Chi. The Examiner rejected claim 17 under pre-AIA 35 U.S.C. Â§ I03(a) as obvious over Chi in view of Boon et al. (US 7,855,462 B2, issued December 21, 2010) (hereinafter "Boon"). (Final Office Action, mailed December 20, 2016, hereinafter "Final Act.," 2---6; Examiner's Answer, mailed October 2, 2017, hereinafter "Ans.," 2.) 4 Appeal 2018-001221 Application 13/832,205 ISSUES The Examiner found, inter alia, that Chi discloses a semiconductor device as recited in claim 14, and in particular that "substrate 149 includes an opening extending from a second surface of the substrate 149 opposite the first surface of the substrate 149 to the vertical interconnect structure 212 (fig 10)." (Final Act. 2.) To further illustrate the Examiner's position, the Examiner provided an annotated version of Chi's Figure 10, reproduced below from the Examiner's Answer (page 4): The annotated version of Figure 10 depicts a wafer level chip scale module package (WLCSMP) with conductive pillars 212 through encapsulant 140, interposer 149, through silicon vias (TSVs) 122, and interconnect structure 214 formed over semiconductor die 132. (Chi ,r,r 8, 22, 63.) The Examiner's annotations indicate first and second surfaces of interposer 149 and "an opening" at each of TSVs 122. In the Answer, the Examiner stated that interposer 149 and conductive pillars 212 correspond to the claimed "substrate" and "vertical interconnect structure," respectively, and each of TSV s 122, as identified in annotated Figure 10, corresponds to the claimed "opening." (Ans. 2-3.) 5 Appeal 2018-001221 Application 13/832,205 Appellant argues that contrary to the Examiner's position, interposer 149 as disclosed in Chi does not have an opening extending from a second surface opposite the first surface to conductive pillars 212 but that interposer 149 is solid in this area. (App. Br. 6.) Regarding claim 20, the Examiner found, inter alia, that Chi discloses a "bump" disposed over the first conductive layer as recited in the claim relying on each of conductive pillars 212 disclosed in Chi as corresponding to the bump. (Final Act. 3.) The Examiner relied on a dictionary definition of "bump" as being "a raised area on a surface," in concluding the claim term "bump" would encompass the conductive pillars disclosed in Chi. (Ans. 5 (citing CambridgeDictionary http://dictionary.cambridge.org/us/ dictionary/ english/bump ). ) Appellant contends that conductive pillars 212 disclosed in Chi are not "bumps" as recited in claim 20. (App. Br. 7.) Therefore, the dispositive issues on appeal are: Did the Examiner err in finding that the "opening" recited in claim 14 reads on Chi's TSVs? Did the Examiner err in finding that the "bump" recited in claim 20 read on Chi's conductive pillars? 6 Appeal 2018-001221 Application 13/832,205 DISCUSSION Claim 14 We are persuaded by Appellant's argument that the Examiner erred in finding that Chi discloses that TSV 122 corresponds to an opening extending from a second surface of the substrate opposite the first surface of the substrate to the vertical interconnect structure. In particular, Chi discloses that the through silicon vias are formed using a laser drilling or etching process and then the vias are filled with electrically conductive material. (Chi ,r 42.) Thus, as Appellant points out, a filled via is not an opening as it contains conductive material. (Reply Brief filed November 15, 2017, 2-3.) The Examiner has not sufficiently explained why Chi discloses an opening. Accordingly, we reverse the Examiner's rejection of independent claim 14 and the claims dependent therefrom. Claim 20 We are persuaded by Appellant's argument that one of ordinary skill in the art would not have understood the conductive pillars disclosed in Chi to be a "bump" as recited in claim 20. (App. Br. 7 ( citing Spec. ,r 44, Fig. 4b (reproduced above)).) In addition, the Specification discloses that bump materials are deposited "using evaporation, electrolytic plating, electroless plating, ball drop, or screen printing process." (Spec. ,r 54.) Thus, the Specification itself is evidence of the difference between a "bump" and a "conductive pillar." We observe that Chi, in discussing "bumps," discloses: "Bumps 156 represent one type of interconnect structure that can be formed over conductive layer 154. The interconnect structure can also use stud bumps, 7 Appeal 2018-001221 Application 13/832,205 micro bumps, conductive pillars, conductive paste, or other electrical interconnect." (i-f 54.) Moreover, Chi discloses that conductive pillars are formed by laser drilling or etching vias and filling the vias with conductive material. (i-f 64.) Thus, Chi discusses bumps and conductive pillars as being different structures. We also observe that the definition relied on by the Examiner is from a general purpose dictionary ( citing a mosquito bite as an example of a bump), and in view of the intrinsic evidence of record in the form of the prior art cited and the Specification, we are of the view that intrinsic evidence is more consistent with how one of ordinary skill in the art would have interpreted the terms "bump" and "conductive pillar." Accordingly, we reverse the Examiner's decision to reject claim 20 and the claims dependent therefrom. In addition, because independent claim 26 contains the "bump" limitation discussed above, we reverse the Examiner's rejection of claim 26 and the claims dependent therefrom. Obviousness Rejections The obviousness rejections of dependent claims 17, 19, 25, and 31 are based on the same erroneous findings with respect to the teachings of Chi discussed above. As a result, we reverse the rejections of claims 17, 19, 25, and 31 for the same reasons discussed above for independent claims 14, 20, and 26. CONCLUSION The Examiner erred in finding that the "opening" recited in claim 14 reads on the TSV s disclosed in Chi. 8 Appeal 2018-001221 Application 13/832,205 The Examiner erred in finding that the "bump" recited in claim 20 reads on the conductive pillars disclosed in Chi. DECISION We reverse the Examiner's rejection of claims 14--21 and 24--38. REVERSED 9