10484454 (B.P.A.I. Jan. 26, 2012)

Ex Parte Nagasawa et al

Board of Patent Appeals and InterferencesJan 26, 2012

10484454 (B.P.A.I. Jan. 26, 2012)

UNITED STATES PATENT AND TRADEMARK OFFICE ________________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ________________ Ex parte HIROSHI NAGASAWA, KAORI KAGOSHIMA, NAOAKI OGURE, MASAYOSHI HIROSE, and YUSUKE CHIKAMORI ________________ Appeal 2009-014359 Application 10/484,454 Technology Center 2800 ________________ Before MAHSHID D. SAADAT, JEFFREY S. SMITH, and JASON V. MORGAN, Administrative Patent Judges. MORGAN, Administrative Patent Judge. DECISION ON APPEAL Appeal 2009-014359 Application 10/484,454 2 STATEMENT OF THE CASE Introduction This is an appeal under 35 U.S.C. § 134(a) from the Examiner’s final rejection of claims 16 and 30 – 38. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. Invention The invention relates to a bonding material and a bonding method which effect bonding between parts by using composite metallic nano- particles (Spec. 1, ll. 5 – 10). Claim 16 is directed to a bonding method in which (1) a bonding material containing composite metallic nano-particles is heated to bond first and second parts together to obtain a bonded member and (2) the same bonding material is heated to bond the bonded member and a third part. Exemplary Claim 16. A bonding method comprising: allowing a bonding material to be present between and in contact with a first part and a second part to be bonded, the bonding material containing composite metallic nano- particles each having such a structure that a metal core of a metal particle having a diameter of 0.5 nm to 100 nm is combined and coated with an organic material; heating the bonding material at a temperature which is equal to or higher than the decomposition initiating temperature of the organic material, but lower than the melting temperature of the metal in a bulk state, so as to release the organic material from the metal core of the bonding material present between the first part and the second part and to sinter the metal core, thereby forming Appeal 2009-014359 Application 10/484,454 3 a bulk metal and bonding the first part and the second part together to obtain a bonded member; allowing the same bonding material to be present between and in contact with the obtained bonded member and a third part; and then heating the same bonding material at a temperature which is equal to or higher than the decomposition initiating temperature of the organic material, but lower than the melting temperature of the metal in a bulk state, so as to release the organic material from the metal core of the bonding material present between the bonded member and the third part and to sinter the metal core without melting the bulk metal, thereby bonding the bonded member and the third part. Evidence Examiner Relies Upon Hiruta US 5,998,861 Dec. 7, 1999 Fukunaga US 2001/0006455 A1 Jul. 5, 2001 Aoki US 6,483,195 B1 Nov. 19, 2002 Chheang US 2003/0100654 A1 May 29, 2003 Examiner’s Rejections The Examiner rejects claims 16, 30 – 32, 36, and 37 under 35 U.S.C. § 103(a) as being unpatentable over Hiruta and Fukunaga (Ans. 3 – 6). The Examiner rejects claims 33 – 35 under 35 U.S.C. § 103(a) as being unpatentable over Hiruta, Fukunaga, and Chheang (Ans. 6 – 7). The Examiner rejects claim 38 under 35 U.S.C. § 103(a) as being unpatentable over Hiruta, Fukunaga, and Aoki (Ans. 7). ISSUE Did the Examiner err in finding that the combination of Hiruta and Fukunaga teaches the recitations of claim 16? Appeal 2009-014359 Application 10/484,454 4 ANALYSIS Claim 16 Claim 16 recites a bonding method comprising (1) “allowing a bonding material to be present between and in contact with a first part and a second part to be bonded, the bonding material containing composite metallic nano-particles each having . . . a metal core . . . coated with an organic material”; (2) “heating the bonding material at a temperature which is equal to or higher than the decomposition initiating temperature of the organic material, but lower than the melting temperature of the metal in a bulk state”; (3) “allowing the same bonding material to be present between and in contact with the obtained bonded member and a third part”; and (4) “heating the same bonding material at a temperature which is equal to or higher than the decomposition initiating temperature of the organic material, but lower than the melting temperature of the metal in a bulk state.” The Examiner finds that Hiruta teaches the claimed steps, except that Hiruta’s bonding material does not contain “composite metallic nano- particles” (Ans. 3 – 4). The Examiner relies on Fukunaga as teaching a bonding material containing “composite metallic nano-particles” and bonding by heating the bonding material “at a temperature which is equal to or higher than the decomposition initiating temperature of the organic material, but lower than the melting temperature of the metal in a bulk state” (Ans. 4 – 5). The Examiner concludes that it would have been obvious to an artisan to combine the teachings of Hiruta and Fukunaga “to make an improved low-cost and reliable connection” (Ans. 5). Appellants contend that Hiruta does not teach a bonding material that contains composite metallic nano-particles or a bonding method comprising Appeal 2009-014359 Application 10/484,454 5 heating bonding material at a temperature lower than the melting temperature of the bonding material’s metal (Br. 5). Appellants also contend that Fukunaga does not teach (1) bonding first and second parts together by heating a bonding material located between the parts to create a bonded member and (2) bonding the bonded member with a third part by heating the same bonding material located between the bonded member and third part (Br. 5 – 6). Appellants cannot show error in the Examiner’s rejection by attacking Hiruta and Fukunaga separately when the rejection is based on the combined teachings of Hiruta and Fukunaga. See In re Keller, 642 F.2d 413, 426 (CCPA 1981). Hiruta, not Fukunaga, teaches bonding first and second parts, large scale integrated circuit chip 10 and carrier chip 11, by heating a bonding material, ball bumps 44, located between the two parts to form a bonded member, semiconductor device 150 (Hiruta col. 3, ll. 45 – 57 and col. 7, ll. 4 – 10; figs. 6 and 18). Hiruta further teaches bonding the semiconductor device 150 with a third part, printed circuit board 200, by heating a bonding material, ball electrodes 38, located between the semiconductor device 150 and the third part (Hiruta col. 10, ll. 4 – 9; fig. 18). The bonding material in both bonding steps is the same, having the same tin-lead alloy composition (Hiruta col. 7, ll. 11 – 14). Fukunaga, not Hiruta, teaches a bonding material containing composite metallic nano-particles: compound metallic ultra-fine particle 14 (Fukunaga ¶ [0037]; fig. 1A). Fukunaga also teaches bonding two parts, semiconductor 20 and circuit board 40, with a material containing composite metallic nano-particles, metallic paste balls 52 (Fukunaga ¶¶ [0052] and [0059]; fig. 7E). This bonding takes effect with a low temperature heat Appeal 2009-014359 Application 10/484,454 6 treatment (Fukunaga ¶ [0059]), taking advantage of the low temperature (“considerably lower . . . than the melting point of the metal”) needed to bond the metallic core of the nano-particles (Fukunaga ¶ [0039]). An artisan of ordinary skill would have appreciated that Fukunaga’s bonding material containing composite metallic nano-particles could replace Hiruta’s tin-lead alloy. Such an artisan would have further realized that bonding would take effect at a low temperature, as taught by Fukunaga, rather than at the high temperature used when bonding using Hiruta’s tin- lead alloy. Thus, we agree with the Examiner that the combination of Hiruta and Fukunaga teaches or suggests the claimed invention. Appellants also contend that it would not have been obvious to an artisan to combine Hiruta and Fukunaga because “it appears that the Examiner is simply relying on impermissible hindsight to provide the necessary motivation” (Br. 7). However, we are persuaded that the Examiner’s prima facie case of obviousness does not rely on ex post reasoning. See KSR Int’l Co. v. Teleflex, Inc., 550 U.S. 398, 421 (2007). Fukunaga teaches that bonding with composite metallic nano-particles results in “a highly stable, low-cost, high reliability electrical connection with no risk of short-circuiting adjacent electrodes of even a narrow pitch” (Fukunaga ¶ [0061]) (emphasis added). This teaching supports the Examiner’s reasoning (Ans. 5). Thus, the Examiner’s reasoning has a rational underpinning based on knowledge that would have been available to an artisan of ordinary skill at the time of the invention. Appellants further contend “a modification of the Hiruta reference as suggested by the Examiner would significantly change the principle of operation of the Hiruta reference, as the soldering of the Hiruta reference Appeal 2009-014359 Application 10/484,454 7 cannot be performed without heating the bonding material to a sufficiently high temperature for melting and soldering” (Br. 7). However, we are not convinced that high temperature melting and soldering is the principle of operation in Hiruta. High temperature melting and soldering is merely an aspect of tin-lead alloy bonding. Replacing Hiruta’s tin-lead alloy with a bonding material comprising Fukunaga’s composite metallic nano-particles would allow for bonding at the lower temperature taught by Fukunaga without changing the operational principle of Hiruta related to miniaturizing a semiconductor device having a ball grid array (see Hiruta col. 2, ll. 51 – 54). For the above reasons, we agree with the Examiner that the claimed invention would have been obvious in light of the teachings of Hiruta and Fukunaga. Accordingly, we find that the Examiner did not err in rejecting claim 16 under 35 U.S.C. § 103(a). Claims 30 – 38 Appellants provide no additional arguments with respect to these claims, except to contend that Chheang and Aoki do not cure the alleged deficiencies of Hiruta and Fukunaga (Br. 7 – 8). Accordingly, for the reasons discussed above, we find that the Examiner did not err in rejecting claims 30 – 38 under 35 U.S.C. § 103(a). Appeal 2009-014359 Application 10/484,454 8 DECISION We affirm the Examiner’s decision rejecting claims 16 and 30 – 38. 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 ELD