10146366 (B.P.A.I. Jun. 4, 2009)

Ex Parte Hayashi et al

Board of Patent Appeals and InterferencesJun 4, 2009

10146366 (B.P.A.I. Jun. 4, 2009)

UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ____________ Ex parte TOSHIO HAYASHI, WEI CHEN, KIPPEI SUGITA and KOUJI KAGA ____________ Appeal 2009-001122 Application 10/146,366 Technology Center 1700 ____________ Decided:1 June 04, 2009 ____________ Before BRADLEY R. GARRIS, CATHERINE Q. TIMM, and LINDA M. GAUDETTE, Administrative Patent Judges. GARRIS, Administrative Patent Judge. DECISION ON APPEAL Appellants appeal under 35 U.S.C. § 134 from the Examiner’s decision rejecting claims 1-3. We have jurisdiction under 35 U.S.C. § 6. 1 The two-month time period for filing an appeal or commencing a civil action, as recited in 37 C.F.R. § 1.304, begins to run from the Decided Date shown on this page of the decision. The time period does not run from the Mail Date (paper delivery) or Notification Date (electronic delivery). Appeal 2009-001122 Application 10/146,366 We AFFIRM for the reasons expressed in the Examiner’s Answer and below. Statement of the Case Appellants claim a plasma processing apparatus comprising a radio frequency antenna coil 34 to which a first radio frequency power source 36 is connected and a substrate mounting electrode 30 to which a second radio frequency power source 33 is connected, wherein a ground electrode 37 is provided opposite to the substrate mounting electrode and a shunt 40 is provided on a feed line between the radio frequency antenna coil 34 and the first radio frequency power source 36 for supplying a part of radio frequency power from the radio frequency power source to the opposite ground electrode 37 through a capacitor 41, 42 connected to the shunt thereby generating a self-bias in the opposite electrode (Figs. 4-6; claim 1). Representative independent claim 1 reads as follows: 1. A plasma processing apparatus in which gas is introduced into a vacuum chamber so as to form inductively coupled discharge plasma by means of at least one radio frequency antenna coil to which a first radio frequency power source is connected, and a substrate mounting electrode is supplied with a radio frequency power from a second radio frequency power source connected thereto so as to generate a negative self-bias in the substrate mounting electrode, wherein a ground electrode is provided at the position opposite to the substrate mounting electrode and is arranged as an opposite electrode whose potential is kept in a floating state by a dielectric material, and a shunt is provided on a feed line between the radio frequency antenna coil and the first radio frequency power source for applying a part of radio frequency power from the radio frequency power source to the opposite electrode through a capacitor connected to the shunt, thereby generating a self-bias in the opposite electrode. The references set forth below are relied upon by the Examiner as evidence of obviousness (Ans. 3): 2 Appeal 2009-001122 Application 10/146,366 Collins 5,556,501 Sep. 17, 1996 Ye 5,710,486 Jan. 20, 1998 Qian 6,447,636 B1 Sep. 10, 2002 The Examiner rejects claims 1 and 3 under 35 U.S.C. § 103(a) as being unpatentable over Ye in view of Collins and correspondingly rejects claim 2 over these references and further in view of Qian. Issue Have Appellants shown error in the Examiner’s finding that the Figure 8 disclosure of Ye satisfies the shunt feature required by claim 1? Findings of Fact The Examiner finds that Ye . . . shows the invention substantially as claimed including a plasma processing apparatus . . . [wherein] a shunt is provided on a feed line between the radio frequency antenna coil [74] and the first radio frequency power source [72] for applying a part of radio frequency power from the radio frequency power source to the opposite electrode [62] through a capacitor [94] connected to the shunt, thereby generating a self-bias in the opposite electrode (see fig. 8 and its description) (Ans. para. bridging 4-5). The plasma processing apparatus shown in Figure 8 of Ye comprises common RF source 72 which supplies power to a power splitting capacitor 90 comprising a common electrode 92 and plural parallel capacitor electrodes 94, 96, 98 which respectively supply power to top electrode 92, coil 74, and bottom electrode 60 (Fig. 8; col. 5, ll. 50-58). 3 Appeal 2009-001122 Application 10/146,366 Principles of Law “On appeal to the Board, an applicant can overcome a rejection by showing insufficient evidence of prima facie obviousness or by rebutting the prima facie case with evidence of secondary indicia of nonobviousness.” In re Kahn, 441 F.3d 977, 985-86. See also 37 C.F.R. § 41.37(c)(1)(vii) (2007). Analysis In this appeal, the attempt by Appellants to overcome the Examiner’s § 103 rejections is limited to the argument that the Examiner erred in finding Ye’s Figure 8 apparatus satisfies the shunt feature of independent claim 1. No dependent claim has been separately argued including separately rejected dependent claim 2. Therefore, all appealed claims will stand or fall with independent claim 1. According to Appellants, “[a] shunt is a branch which allows electrical current to pass around a point in a circuit” (Amended Br. 8, first full para.), and “[t]here is no shunt that branches off any line in Figure 8 of Ye” (id. at para. bridging 8-9). The Examiner responds to this argument as follows: Appellant's [sic, Appellants] argue[ ] that fig. 8 of Ye et al. does not suggest the claimed shunt. However, the examiner respectfully disagrees because it is clear from fig. 8 of Ye et al. that initially there is a main branch that comes off the power supply 72, and then the RF power is branched to the top plate 62, coil 74, and bottom plate 60. Note that clearly the main branch line can be considered to be the line coming directly from the power supply and continuing to directly power the coils with the shunt being branched off of this line and connecting with the top plate. Furthermore note that with respect to appellant's [sic] definition of a shunt as being a branch which allows electrical current to pass around 4 Appeal 2009-001122 Application 10/146,366 a point in a circuit (see pre-appeal brief, Section B - argument 1a), figure 8 of Ye et al. clearly reads on such a definition since the upper branch will provide electrical current to the top electrode 62 around points in the circuit which provide current to the coils and the substrate mounting electrode. (Ans. para. bridging 6-7). We agree with the Examiner. Contrary to Appellants’ argument, Figure 8 of Ye shows a branch off the main line leading from common RF source 72. This branch includes parallel capacitor 94 and leads to top electrode 62. Moreover, the Examiner correctly finds that this branch allows electrical current to pass around the points in Ye’s circuit which supply power from the main line for common RF power to coil 74 and bottom electrode 60. Therefore, as correctly observed by the Examiner, the branch of Ye’s circuit which leads to top electrode 62 falls within Appellants’ above-quoted definition of the term “shunt”. In an apparent attempt to distinguish the shunt feature of claim 1 from the Figure 8 circuit of Ye, Appellants state (correctly) that “the power supplied from source RF1 [of Ye] travels in . . . a first path from power source RF1, through splitting capacitor 90, through parallel capacitor 94, and to top plate 62” and in “a second path from power source RF1, through splitting capacitor 90, through parallel capacitor 96, and to coil 74” (Amended Br. para. bridging 8-9). However, we do not perceive and Appellants do not explain why the claim 1 shunt feature is thought by Appellants to be distinguished from this correct description of the paths traveled by power in Ye’s Figure 8 circuit. To the contrary, these paths of 5 Appeal 2009-001122 Application 10/146,366 Ye correspond to the paths shown in the circuits of Appellants’ Figures 4 and 5 wherein power travels from source 36 to top plate 37 and coil 34 respectively. In this sense, Appellants’ description of the paths traveled by power in Ye’s Figure 8 circuit supports the Examiner’s finding that this circuit satisfies the shunt feature of claim 1. Finally, Appellants state that “[t]he examiner takes the position in essence that the power splitting capacitor 90 [of Ye] is the same as the shunt in the claims” and argue that, “[o]n its face, a shunt and a power splitting capacity [sic, capacitor] are different” (Reply Br. 2). However, as explained above and more fully in the Answer, the Examiner’s finding that Ye satisfies the claim 1 shunt feature is not limited to the power splitting capacitor 90 shown in Figure 8 of Ye. Instead, this finding is based on the portion of Ye’s Figure 8 circuit that includes the line or branch with capacitor 94 which leads from the main line for common RF power to top electrode 62. It follows that the argument under consideration is unpersuasive because it is premised on an inaccurate representation of the basis for the Examiner’s finding. Conclusions of Law Appellants have not shown error in the Examiner’s finding that the Figure 8 disclosure of Ye satisfies the shunt feature required by claim 1. For this reason, we sustain the Examiner’s § 103 rejections of claims 1 and 3 over Ye and Collins and of claim 2 over Ye, Collins, and Qian. Order The decision of the Examiner is affirmed. 6 Appeal 2009-001122 Application 10/146,366 ssl LUCAS & MERCANTI, LLP 475 PARK AVENUE SOUTH 15TH FLOOR NEW YORK, NY 10016 7