12469874 (P.T.A.B. Jul. 7, 2016)

Ex Parte Kubinski et al

Patent Trial and Appeal BoardJul 7, 2016

12469874 (P.T.A.B. Jul. 7, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 12/469,874 05/21/2009 David Kubinski 36865 7590 07/07/2016 ALLEMAN HALL MCCOY RUSSELL & TUTTLE, LLP 806 S.W. BROADWAY, SUITE 600 PORTLAND, OR 97205 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. 81195716 2734 EXAMINER ROSENWALD, STEVEN ERIC ART UNIT PAPER NUMBER 1759 MAILDATE DELIVERY MODE 07/07/2016 PAPER 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. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte DAVID KUBINSKI, RICHARD SOLTIS, JACOBUS H. VISSER, YI DING, and MICHAEL HOWARD PARSONS 1 Appeal2015-000654 Application 12/469,874 Technology Center 1700 Before BRADLEY R. GARRIS, CHUNG K. PAK, and N. WHITNEY WILSON, 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 1-7.2 We have jurisdiction under 35 U.S.C. Â§ 6. We REVERSE. Appellants claim methods of operating a NOx sensor having a pumping electrode configuration and a measuring electrode configuration, the method comprising operating in a first update operating mode (see, e.g., 1 Ford Global Technologies, LLC is identified as the real party in interest. App. Br. 3. 2 Previously rejected claims 8 and 9 have been canceled (see, e.g., Ans. 11 ). Appeal2015-000654 Application 12/469,874 Fig. 6) in response to certain conditions and operating in a second alternate update operating mode (see, e.g., Fig. 7) in response to certain other conditions (independent claims 1 and 7 which are the only independent claims on appeal). Further details regarding these methods are set forth in claims 1 and 7, a copy of which taken from the Claims Appendix of the Appeal Brief appears below. 1. A method of operating a NOx sensor, wherein the sensor includes a pumping electrode configuration and a measuring electrode configuration, the method comprising: operating in a first update operating mode responsive to determining that the NOx sensor is operating under first conditions that cause an absence ofNOx in exhaust gas, the first update operating mode including removing NOx and at least a portion of 02 from the sensor; determining that the NOx sensor is operating under second conditions that cause a change in residual 02 reaching the measuring electrode configuration; and responsive to the determining, operating in a second, alternate update operating mode, the second, alternate update operating mode including, applying a first measuring voltage across the measuring electrode configuration sufficient to electrochemically remove 02 from the sensor without electrochemically removing NOx from the sensor; and applying a second measuring voltage across the measuring electrode configuration sufficient to electrochemically remove NOx from the sensor. 7. A method of operating a NOx sensor, wherein the sensor includes a pumping electrode configuration and a measuring electrode configuration, the method comprising: applying a first pumping voltage across the pumping electrode configuration sufficient to electrochemically remove NOx and 02 from the sensor; applying a first measuring voltage across the measuring electrode configuration sufficient to electrochemically remove NOx from the sensor; 2 Appeal2015-000654 Application 12/469,874 responsive to detecting no change in residual 02 reaching the measuring electrode configuration, operating in a first update operating mode, the first operating mode including removing NOx and at least a portion of 02 from the sensor; and responsive to detecting a change in residual 02 reaching the measuring electrode configuration, operating in a second, alternate update operating mode, the second, alternate update operating mode including, applying a second measuring voltage across the measuring electrode configuration sufficient to electrochemically remove 02 from the sensor without electrochemically removing NOx from the sensor; and applying a third measuring voltage across the measuring electrode configuration sufficient to electrochemically remove NOx from the sensor. The Examiner rejects claims 1---6 under 35 U.S.C. Â§ 112 as failing to comply with the particularity and distinctness requirement of the second paragraph (Ans. 5)3 and as failing to comply with the written description and enablement requirements of the first paragraph (id. at 2-5). The Examiner rejects claim 7 under 35 U.S.C. Â§ 102(b) as anticipated by, or under 35 U.S.C. Â§ 103(a) as obvious over, Kurokawa (US 6,295,862 Bl, Oct. 2, 2001) (Ans. 6-9). The Â§ 112 Rejections of Claims 1---6 According to the Examiner, indefiniteness is created by the claim 1 recitation "the NOx sensor is operating under first conditions that cause an 3 The Examiner inadvertently lists claim 7 in this rejection (id.) but subsequently clarifies that "all rejections of claim 7 under 35 U.S.C. 112 ... second paragraph have been withdrawn" (id. at 16). 3 Appeal2015-000654 Application 12/469,874 absence ofNOx in exhaust gas, the first update operating mode including removing NOx" because "it is unclear how NOx can be removed when it is absent from the exhaust gas" (Ans. 5). However, as correctly explained by Appellants, "the claim does not recite removing NOx from exhaust gas ... [but rather] removing NOx from the sensor when operating under conditions that cause an absence ofNOx in the exhaust gas" (Reply Br. 8). Indeed, claim 1 expressly recites "the first update operating mode including removing NOx ... from the sensor." In light of this express recitation, no basis exists for the Examiner's position that claim 1 lacks clarity concerning NOx removal. For completeness, we emphasize that NOx may be absent from the exhaust gas but nevertheless present in the sensor as a result of operations preceding the conditions causing an absence ofNOx in the exhaust gas. The Examiner also considers claim l to be indefinite due to the recitation "responsive to the determining" because it is unclear which of the two prior determining steps is being referred to by this recitation (Ans. 5). We agree with Appellants that it is reasonably clear the recitation refers to the prior claim 1 step of "determining that the NOx sensor is operating under second conditions" (Reply Br. 10). As more fully explained by Appellants, one having ordinary skill in this art would not interpret the recitation as referring to the prior claim 1 step "operating in a first update operating mode responsive to determining that the NOx sensor is operating under first conditions" because, for example, the claim 1 step in question 4 Appeal2015-000654 Application 12/469,874 (i.e., "responsive to the determining") expressly recites operating in a second alternate update operating mode (id.). For these reasons, we do not sustain the Examiner'sÂ§ 112, second paragraph, rejection of claims 1---6. In support of non-enablement, the Examiner states that "Applicants do not teach removing an analyte (NOx) that is absent from (not present in) exhaust gas within the sensor ... such that one of skill in the art cannot predict how to remove something that is already absent" (Ans. 4). For the reasons given by Appellants (see, e.g., App. Br. 15) and analogous to those discussed above, the Examiner's non-enablement position is based on an incorrect interpretation of claim 1. Appellants correctly explain that they expressly teach removing NOx from internal cavities of the sensor (id. (citing Spec. 11-12, Fig. 6 block 618)). As a consequence, we also do not sustain the Examiner'sÂ§ 112, first paragraph, rejection of claims 1---6 for failing to comply with the enablement requirement. The Examiner believes that Appellants' original disclosure contains no written description of the claim 1 limitation "the NOx sensor is operating under first conditions that cause an absence ofNOx in the exhaust gas, the first update operating mode including removing NOx and at least a portion of 02 from the sensor" (Ans. 2-3). According to the Examiner, "[t]he sections of the specification cited by Applicant as support for the amendment ... do 5 Appeal2015-000654 Application 12/469,874 not teach operation in the absence ofNOx for removal ofNOx, so the limitation is considered to be drawn to new matter" (id. at 3). Once again, Appellants explain that "the claim recites removing NOx from the sensor while operating under conditions that cause an absence of NOx in the exhaust gas" (App. Br. 13). Further, Appellants explain that "FIG. 6, block 618 of the subject application shows exactly what the rejection asserts is missing" (id.). We agree. As above, the Examiner's position appears to be based on an incorrect interpretation of claim 1. Therefore, we do not sustain the Examiner'sÂ§ 112, first paragraph, rejection of claims 1---6 for failing to comply with the written description requirement. The Prior Art Rejections The Examiner finds that claim 7 is anticipated by Kurokawa (Ans. 6- 8). In support of this finding, the Examiner refers to Kurokawa's embodiment involving input voltage lines LX2 and LX3 (see, e.g., id. at 7- 8) as well as the embodiment involving electromotive force (see, e.g., id. at 16-18). The Examiner's finding is based, at least in part, on the theory of inherency (see, e.g., id. at 18, 21 ). We agree with Appellants that Kurokawa does not disclose the claim 7 limitations "responsive to detecting no change in residual 02 reaching the measuring electrode configuration, operating in a first update operating mode" and "responsive to detecting a change in residual 02 reaching the 6 Appeal2015-000654 Application 12/469,874 measuring electrode configuration, operating in a second, alternate update operating mode" including the specific limitations recited in claim 7 regarding these operating modes (see, e.g., App. Br. 24--26, Reply Br. 11- 13). The Kurokawa disclosures cited by the Examiner do not expressly disclose these limitations. Moreover, the Examiner fails to provide an adequate basis in fact and/or technical reasoning to reasonably support a determination that these limitations inherently and necessarily flow from the teachings of Kurokawa. See, e.g., Ex parte Levy, 17 USPQ2d 1461, 1464 (BP AI 1990) ("In relying upon the theory of inherency, the examiner must provide a basis in fact and/or technical reasoning to reasonably support the determination that the allegedly inherent characteristic necessarily flows from the teachings of the applied prior art."). For example, the Examiner does not convincingly explain how Kurokawa's LX2 and LX3 disclosures inherently result in the claim 7 first and second update operating modes respectively in response to detecting no change versus a change in residual 02 reaching the measuring electrode configuration or the specific aspects of these operating modes as recited in the claim. The Examiner likewise fails to provide an adequate basis for considering these claim limitations to flow inherently from the electromotive force disclosures of Kurokawa. For these reasons, the Examiner does not establish a prima facie case of anticipation. It follows that the Â§ 102 rejection of claim 7 will not be sustained. As for the Â§ 103 rejection, the Examiner concludes "it would have been obvious to a person having ordinary skill in the art at the time the 7 Appeal2015-000654 Application 12/469,874 invention was made that application of the voltages LX2 and LX3 ( c 15: 15- 19) is in response to detected offset changes/residual 02 changes is [sic] a result of deterioration ( c 14: 11-15), as Kurokawa teaches ( c2:31-37) measurement of first and second electric currents is to compensate for an oxygen-caused error component of the second electric current" (Ans. 9). Similarly, the Examiner concludes "it would also have been obvious to a person having ordinary skill in the art at the time the invention was made to operate in a second, alternate update operating mode based on the combined teachings of Kurokawa" (id. at 17). The deficiency of these obviousness conclusions is that they are merely conclusory statements unsupported by reasoning with rational underpinning regarding the specific limitations recited in claim 7. See In re Kahn, 441 F.3d 977, 988 (Fed. Cir. 2006) ("[R]ejections on obviousness grounds cannot be sustained by mere conclusory statements; instead, there must be some articulated reasoning with some rational underpinning to support the legal conclusion of obviousness") quoted with approval in KSR Int'! Co. v. Teleflex Inc., 550 U.S. 398, 418 (2007). This deficiency reveals that the Examiner fails to establish a prima facie case of obviousness. Therefore, the Â§ 103 rejection of claim 7 also will not be sustained. Conclusion The decision of the Examiner is reversed. 8