Ex Parte Akram et alDownload PDFPatent Trial and Appeal BoardSep 28, 201211384069 (P.T.A.B. Sep. 28, 2012) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte SALMAN AKRAM and KYLE K. KIRBY1 ____________ Appeal 2010-006129 Application 11/384,069 Technology Center 2800 ____________ Before JOSEPH F. RUGGIERO, DENISE M. POTHIER, and JAMES B. ARPIN, Administrative Patent Judges. ARPIN, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Appellants appeal under 35 U.S.C. § 134(a) from the Examiner’s rejection of claim 2, 4, and 5. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 Micron Technology Inc. is the real party in interest. Appeal 2010-006129 Application 11/384,069 2 Invention Appellants’ invention relates to a through-wafer interconnect, e.g., a via,2 comprising a conductive via member passing through a wafer between a first surface and a second, opposing surface. A portion of the conductive via member is located between the first and second surfaces and has a substantially constant lateral extent. Further, the wafer is thinned from an initial thickness to expose the first end of the conductive via member. The first end of the conductive via member may have either a trapezoidal shape, e.g., a frusto-pyramidal shape, or a frusto-conical shape, which tapers inward as the first end extends away from the first surface of the wafer. The thinning of the wafer also may expose only an end surface of the second end of the conductive via member. The second end may have a shape tapering from a smaller lateral extent to a larger lateral extent as the second end approaches the second surface or a post shape having a substantially constant lateral extent. See generally Spec. ¶ [0084]; Figs. 10A, 11A, 19. In another embodiment, the invention relates to a via-containing member comprising a substrate3 and a pattern of vias. The substrate has a first surface and a second, opposing surface. Each of the vias within the pattern of vias passes through the substrate and has a first end; a second, 2 Appellants define the term “via” as describing “a hole or aperture having conductive material or a conductive member therein which extends through a substrate.” Spec. ¶ [0004]. Further, Appellants indicate that a via for connecting circuitry on one side of a wafer to circuitry on the other side of the wafer or to external circuitry is known as a “through wafer interconnect” or “TWI.” Spec. ¶ [0003]. 3 Appellants provide examples of a “substrate” which include “semiconductor wafers, semiconductor wafer portions, other bulk semiconductor substrates, semiconductor devices, interposers, probe test cards, and the like.” Spec. ¶ [0056]. Appeal 2010-006129 Application 11/384,069 3 opposing end; and a portion therebetween having a substantially constant cross-sectional area. The first end may extend outward from either the first or second surface and may have either a trapezoidal shape or a frusto-conical shape. See generally Spec. ¶¶ [0079]-[0081]; Figs. 14A-16B. Independent claims 2 and 4 are reproduced below with the disputed limitations emphasized: 2. A through-wafer interconnect comprising a conductive via member passing through a wafer between a first surface and a second, opposing surface and comprising a portion between a first end and a second end having a substantially constant lateral extent, the wafer being thinned from an initial thickness to expose the first end of the via member as one of a trapezoid shape and a frusto- conical shape, tapering inwardly as it extends away from the first surface, and the second surface of the wafer exposing only an end surface of the second end of the via member comprising one of a shape tapering from a smaller lateral extent to a larger lateral extent as it approaches the second surface and a post shape having a substantially constant lateral extent. 4. A via-containing member, comprising: a substrate having a first surface and a second, opposing surface; a pattern of vias in the substrate, each via passing through the substrate and having a first end, a second, opposing end and a portion therebetween of substantially constant lateral extent, wherein the first end comprises one of a trapezoidal shape and a frustoconical shape and extends outwardly from one of the first surface and the second, opposing surface. Independent claim 4 is representative of claim 5. The Examiner relies on the following as evidence of unpatentability: Halahan US 6,844,241 B2 Jan. 18, 2005 Appeal 2010-006129 Application 11/384,069 4 The Rejection The Examiner rejected claims 2, 4, and 5 under 35 U.S.C. § 103(a) as rendered obvious by Halahan.4 (Ans. 3.)5 THE OBVIOUSNESS REJECTIONS OVER HALAHAN Regarding independent claim 2, the Examiner finds that Halahan discloses all of the limitations of the claim (Ans. 3-4), except that “Halahan is silent upon the structure comprising a portion between a first end and a second end having a substantially constant lateral extent and a post shape having a substantially constant lateral extent.” (Ans. 4 (emphasis in original).) Nevertheless, the Examiner finds that Halahan describes the shapes of the first and second ends and that the significance of the shapes of Halahan’s first and second ends are to provide both a small contact surface on one end and a large contact surface on the other end of the through-wafer interconnect. (Ans. 4; see also col. 3, ll. 15-30; Fig. 4A.) Thus, the Examiner concludes that the portion between the ends merely provides an electrical connection between the shaped ends. (Ans. 4.) Despite Halahan’s silence regarding whether a portion between a first end and a second end has a substantially constant lateral extent, the Examiner contends that it would have been obvious to a person of ordinary skill in the relevant art to modify the shape of the portion between Halahan’s ends, such that the portion has a substantially constant lateral extent. (Ans. 4 Claims 1-34 are pending in this application, but claims 1, 3, and 6-34 are withdrawn from consideration as directed to unelected species. (App. Br. 2.) 5 Throughout this Decision, we refer to (1) Appeal Brief, filed Aug. 18, 2009; (2) the Examiner’s Answer, mailed Dec. 28, 2009; and (3) Reply Brief, filed Mar. 1, 2010. Appeal 2010-006129 Application 11/384,069 5 4-5.) In support of this contention, the Examiner finds that “the shape of the portion does not change or modify the function or propertied [sic] from what is ordinarily expected.” (Ans. 5 (emphasis in original).) Further, relying upon the court’s decision in In re Dailey, 357 F.2d 669 (CCPA 1966), the Examiner contends that Appellants have not demonstrated that the shape of the portion between the first and second ends is significant or anything more than one of numerous configurations. (Ans. 5 (quoting Dailey, 357 F.2d at 672-73); see also MPEP § 2144.04(IV)(B).) With regard to claims 4 and 5, the Examiner finds that Halahan also discloses all of the limitations of these claims, except for a portion of each via between a first end and a second end having a substantially constant lateral extent. (Ans. 5-6.) Nevertheless, the Examiner finds that, for the same reasons stated above with respect to claim 2, it would have been obvious to a person of ordinary skill in the relevant art to modify Halahan to achieve Appellants’ invention, as described in claims 4 and 5. (Ans. 6.) With respect to independent claims 2 and 4, Appellants argue that the Examiner fails to provide a sufficient reason why one of ordinary skill in the relevant art would modify Halahan to include a portion between a first end and a second end having a substantially constant lateral extent. (App. Br. 7- 8; Reply Br. 6.) Moreover, Appellants argue that the Examiner’s reliance on Dailey is misplaced because the substantially constant lateral extent of the portion between the first and second ends in Appellants’ invention is “significant.” (App. Br. 8.) Thus, in the absence of a sufficient reason to modify Halahan, Appellants argue that the Examiner fails to establish a prima facie case of obviousness. (Id.) Appeal 2010-006129 Application 11/384,069 6 ISSUE Is the Examiner’s reason to modify the teachings of Halahan to include a portion between a first end and a second end having a substantially constant lateral extent supported by some rational underpinning justifying the Examiner’s obviousness conclusions for claims 2 and 4? ANALYSIS 1. Claim 2. We begin by construing the disputed limitation of claim 2, which describes a portion between a first end and a second end having a “substantially constant lateral extent.” In construing the claims, we are guided by Appellants’ Specification. See Phillips v. AWH Corp., 415 F.3d 1303, 1321 (Fed. Cir. 2005) (en banc) (noting that the Specification is the single best guide to a disputed term’s meaning and acts as a dictionary when it expressly defines terms recited in the claims). Appellants do not expressly define the phase: “substantially constant lateral extent” in the Specification. We note, however, that Appellants state that “[a]s electronic components are becoming increasingly dense, it is necessary to decrease the lateral size or diameter as well as spacing or pitch of TWIs for increased TWI density.” (Spec. ¶ [0007] (emphases added).) Thus, we construe the disputed limitation to describe a portion extending between a first and a second end of a conductive via member that has a substantially constant or unchanging, lateral size or diameter, e.g., a substantially cylindrical shape. a. Rational Underpinning for the Examiner’s Reasoning. As noted above, the Examiner finds that Halahan describes the shapes of first and second ends and that the significance of the shapes of Halahan’s Appeal 2010-006129 Application 11/384,069 7 first and second ends are to provide both a small contact surface on one end and a large contact surface on the other end of the through-wafer interconnect. (Ans. 9; see also col. 3, ll. 15-30; Fig. 4A.) Moreover, the Examiner concludes that the portion between the ends merely provides an electrical connection between the shaped ends. (Ans. 10.) Appellants do not contest this conclusion. (See App. Br. 5-11.) Thus, we find that the shape of the portion between Halahan’s first and second ends has not been shown to change or modify the function or properties of Halahan’s through-wafer interconnect. (Id.) In Dailey, the court affirmed the decision of the Patent Office Board of Appeals, agreeing with the Examiner’s conclusion that the claimed “less than hemisphere” configuration of a disposable nursing container was merely a matter of choice. Dailey, 357 F.2d at 672. The court stated that: Appellants have presented no argument which convinces us that the particular configuration of their container is significant or is anything more than one of numerous configurations a person of ordinary skill in the art would find obvious for the purpose of providing mating surfaces in the collapsed container of Matzen. Id. at 672-73 (emphasis added). As noted above, the Examiner relies on the rationale of Dailey to support the reasoning that a person of ordinary skill in the relevant art would modify shape of the portion of Halahan’s through- wafer interconnect to have a substantially constant lateral extent. (Ans. 4-5.) Appellants argue, however, that the shape of the portion between the first and second ends of Appellants’ through-wafer interconnect is significant to its function or properties and that the Examiner fails to demonstrate that a person of ordinary skill in the relevant art would have a reason to modify Halahan to include a portion of such shape. (App. Br. 8-9; Reply Br. 7.) In support of this argument, Appellants assert that, in the Appeal 2010-006129 Application 11/384,069 8 Specification, they specify advantages of the portion’s shape, as described in Appellants’ claim 2. (Id.) In particular, Appellants assert that: [a]t least some of the advantages of the present invention over the prior art at the time of invention include those set forth in the as-filed specification, including: the formation of very small diameter vias in a dense pattern in a semiconductor substrate; rapid and precise via formation, enhanced shape of via ends of the via holes or apertures to enable direct attachment to small; finely pitched bond pads; reduction in the danger of ball cracking, solder shorts, etc. if the via ends are employed with solder balls/bumps; and the invention removes the need for further passivation of the substrate area surrounding the vias. (App. Br. 8-9 (citing Spec. ¶¶ [0062], [0065]).) We agree with the Examiner that at least “enhanced shape of via ends of the via holes or apertures to enable direct attachment to small; finely pitched bond pads; [and] reduction in the danger of ball cracking, solder shorts, etc. if the via ends are employed with solder balls/bumps” relate to the first and second ends. (Ans. 11.) We find that these advantages are not related to the shape of the portion between the first and second ends. With respect to the advantage in “the formation of very small diameter vias in a dense pattern in a semiconductor substrate,” Appellants argue that: “paragraph [0062] describes ‘the method of the invention’ provides substantial benefits. These benefits include ‘small diameter vias’ being formed in a dense pattern in a semiconductor substrate. Paragraph [0065] describes ‘methods of the invention’ are used to enable ‘small via diameter and pitch, i.e., spacing.’” (Reply Br. 8 (emphases added).) The Examiner contends, however, that these advantages relate to the “use of the methods” and not to the shape of the portion. (Ans. 11.) Appeal 2010-006129 Application 11/384,069 9 Similarly, the advantage that “the invention removes the need for further passivation of the substrate area surrounding the vias” (Ans. 9) relates to the precise placement of solder balls/bumps on the first or second ends and, consequently, to the use of the claimed through-wafer interconnect in a dense pattern, not to a single, through-wafer interconnect. (Spec. ¶¶ [0010] (describing known methods for creating “protecting layer”), [0081] (describing use of limited passivation layer 92 with solder ball/bump 56, without passivation layer 128); Fig. 14A (depicting passivation layers 92 and 128); see also App. Br. 3 (describing Fig. 14A as relating to the invention of claim 4).) We agree with the Examiner and find that these advantages are associated with the use of the claimed through-wafer interconnect in a dense pattern, not to a single, through-wafer interconnect. (Ans. 11.) Thus, because we construe claim 2 to describe one or more through-wafer interconnects,6 we find that the advantages described by Appellants fail to demonstrate that a portion of substantially constant extent is significant or anything more than one of numerous configurations in the through-wafer interconnect, as described in claim 2. Finally, Appellants also indicate that “rapid and precise via formation” is an advantage of their invention, as described in claim 2. (App. Br. 9.) Appellants do not demonstrate, however, how this advantage relates to the formation of a portion with a substantially constant lateral extent in a through-wafer interconnect. (Cf. App. Br. 9-10 (describing additional shaping processes required to form Appellants’ portion).) Therefore, we find that Appellants also fail to demonstrate by this alleged advantage that a 6 KCJ Corp. v. Kinetic Concepts, Inc., 223 F.3d 1351, 1356 (Fed. Cir. 2000) (In patent claims, the indefinite article “a” or “an” means “one or more.”). Appeal 2010-006129 Application 11/384,069 10 portion of substantially constant lateral extent is significant in the through- wafer interconnect, as described in claim 2. b. Appellants’ Unsupported Arguments. In addition, Appellants argue that there is a constant drive in the semiconductor industry to reduce the number of process steps required to manufacture various types of semiconductor devices since, generally, the fewer process steps involved in manufacturing a semiconductor device, the lower the cost of manufacturing and the shorter the time required to manufacture the device. (App. Br. 9-10 (citations omitted).) Appellants then argue that a person of ordinary skill in the relevant art would not be motivated to modify Halahan’s wedge-shaped interconnect to achieve Appellants’ portion of substantially constant lateral extent because of the additional processing steps required. (App. Br. 10; Reply Br. 11-12.) Nevertheless, Appellants fail to provide evidence regarding the number of additional process steps required or the additional time and cost required to manufacture a through-wafer interconnect having a portion with a substantially constant lateral extent, instead of Halahan’s wedge-shaped portion. Compare Halahan, Fig. 4A (depicting a wedge-shaped portion) with Appellants’ Fig. 19 (depicting a portion having with a substantially constant lateral extent). As the Examiner correctly notes, it is well settled that arguments of counsel cannot take the place of factually supported evidence. (Ans. 10; see, e.g., In re Huang, 100 F.3d 135, 139-40 (Fed. Cir. 1996); see also In re De Blauwe, 736 F.2d 699, 705 (Fed. Cir. 1984).) Thus, we find Appellants’ unsupported arguments unpersuasive. Appeal 2010-006129 Application 11/384,069 11 c. Other and Untimely Arguments. The Examiner additionally contends that claim 2 may be interpreted to be a product-by-process claim and may be rejected because, regardless of how the claimed invention is made, the patentability of the product is determined by its structure. (Ans. 11-12.) We believe that the Examiner may have misinterpreted Appellants’ arguments in the Appeal Brief as attempting to raise this claim interpretation issue and will not address this contention further. (App. Br. 9-10; see also Reply Br. 12 (“The Appellants are not arguing that claim 2 is a product-by-process claim.”).) Nor will we consider Appellants’ argument that the structure described in claim 2 “will inherently have a smaller overall diameter for the wider end than would a via with only a gradually tapered inner portion between the two ends.” (Reply Br. 9 (emphasis added).) This argument is presented for the first time in the Reply Brief and, therefore, is waived as untimely. See Ex parte Borden, 93 USPQ2d 1473, 1474 (BPAI 2010) (informative) (“[T]he reply brief [is not] an opportunity to make arguments that could have been made in the principal brief on appeal to rebut the Examiner’s rejections, but were not.”). Nevertheless, even if we were to consider this belated argument, it is unpersuasive because it is based on unduly narrow assumptions about the scope of Appellants’ claimed invention recited in claim 2.7 7 During examination, the claims must be interpreted as broadly as their terms reasonably allow. In re Am. Acad. of Sci. Tech Ctr., 367 F.3d 1359, 1369 (Fed. Cir. 2004). Appeal 2010-006129 Application 11/384,069 12 Because we find that Appellants fail to demonstrate that a portion with a substantially constant lateral extent is significant or anything more than one of numerous configurations in a single, through-wafer interconnect, as described in claim 2, we find that, in relying upon Dailey, the Examiner has articulated reasoning with some rational underpinning to justify the Examiner’s obviousness conclusion with respect to claim 2. Thus, Appellants have not persuaded us of error in the Examiner’s rejection of independent claim 2. 2. Claims 4 and 5. As noted above, the scope of claims 4 and 5 differs from that of claim 2. While claim 2 is directed to a through-wafer interconnect, claims 4 and 5 are directed to a via-containing member comprising a substrate and a pattern of vias. Despite this difference, the Examiner contends that the response to Appellants’ arguments with respect to claim 2 is equally applicable to claims 4 and 5. (Ans. 12.) We agree. As with the rejection of claim 2, the question before us with respect to claims 4 and 5 is whether the shape of the claimed “portion” is significant or is anything more than one of numerous configurations, such that the Examiner’s reliance on Dailey to suggest a modified shape is misplaced. As noted above, at least some of the advantages cited by Appellants demonstrate that a portion having a substantially constant lateral extent in each via of a “dense” pattern of “very small diameter vias” in a via-containing member has significance. (Reply Br. 8 (citing Spec. ¶¶ [0062], [0065]) (emphases added); see also Spec. ¶ [0094].) Nevertheless, Appellants do not recite the pattern of vias in claims 4 or 5 as “dense” or the Appeal 2010-006129 Application 11/384,069 13 vias in claims 4 or 5 as “very small diameter vias.”8 That is, Appellants’ argued advantages simply are not found in or commensurate with the scope of claim 4 or 5. Thus, referring to the standard articulated in Dailey, we find that Appellants have not demonstrated sufficiently that the shape of the claimed portions in claims 4 and 5, which describe a pattern of vias, is significant or is something more than one of numerous possible configurations to rebut the Examiner’s prima facie case of obviousness. Dailey, 357 F.2d at 672. Given Appellants’ arguments, we find that the Examiner provides sufficient rational underpinnings to extend the same reasoning for modifying the teachings of Halahan, which is applied to the through-wafer interconnect of Appellants’ claim 2, to the via-containing member comprising a “pattern of vias” of Appellants’ claims 4 and 5. Further, we note that Appellants do not raise arguments distinguishing claim 5 over Halahan, apart from those raised with respect to claim 4. (App. Br. 14.) Thus, we find that, in relying on Dailey, the Examiner articulates sufficient reasoning to justify the obviousness rejection with respect to claims 4 and 5. Therefore, the rejection of claims 4 and 5 is sustained. CONCLUSION We sustain the obviousness rejection of claims 2, 4, and 5 under 35 U.S.C. § 103. 8 Although the claims are interpreted in light of the Specification, limitations from the Specification are not read into the claims. In re Van Geuns, 988 F.2d 1181, 1184 (Fed. Cir. 1993). Appeal 2010-006129 Application 11/384,069 14 DECISION The Examiner’s decision rejecting claims 2, 4, and 5 is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED babc Copy with citationCopy as parenthetical citation
