2020003417 (P.T.A.B. May. 26, 2021)

Continental Teves AG & Co. oHG

Patent Trials and Appeals BoardMay 26, 2021

2020003417 (P.T.A.B. May. 26, 2021)

UNITED STATES PATENT AND TRADEMARK OFFICE 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 APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 15/503,241 02/10/2017 Heinrich Acker 2014P02825WOUS 1074 23122 7590 05/26/2021 RATNERPRESTIA 2200 Renaissance Blvd Suite 350 King of Prussia, PA 19406 EXAMINER SCHINDLER, DAVID M ART UNIT PAPER NUMBER 2858 NOTIFICATION DATE DELIVERY MODE 05/26/2021 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): PCorrespondence@ratnerprestia.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte HEINRICH ACKER ____________ Appeal 2020-003417 Application 15/503,241 Technology Center 2800 ____________ Before JEFFREY R. SNAY, BRIAN D. RANGE, and JANE E. INGLESE, Administrative Patent Judges. INGLESE, Administrative Patent Judge. DECISION ON APPEAL Appellant1 requests review under 35 U.S.C. § 134(a) of the Examiner’s rejection of claims 1–12 and 14–16.2 We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 “Appellant” refers to the “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies Continental Teves AG & Co. oHG as the real party in interest. Appeal Brief filed October 29, 2019 (“Appeal Br.”), 2. 2 Non-Final Office Action entered June 27, 2019 (“Non-Final Act.”), 1. Appeal 2020-003417 Application 15/503,241 2 CLAIMED SUBJECT MATTER Appellant claims a position sensor for detecting the position of a magnetic object on the basis of impedance. Appeal Br. 2. Claim 1 illustrates the subject matter on appeal, and reads as follows: 1. A position sensor for detecting the position of a magnetic object, comprising: a planar coil; three or more magnetizable elements arranged in a row at least partially covering the planar coil, the three or more magnetizable elements being mechanically connected to one another by upper and lower connecting elements formed from a same material as the three or more magnetizable elements, the three or more magnetizable elements capable of being magnetized by the magnetic object, as a result of which an impedance of the planar coil can be changed; and a processor for determining the position of the magnetic object on the basis of the impedance of the planar coil. Appeal Br. 9 (Claims App.) (emphasis added and spacing altered). REJECTIONS The Examiner maintains the following rejections in the Examiner’s Answer entered February 10, 2020 (“Ans.”): I. Claims 1–5, 7–12, and 14–16 under 35 U.S.C. § 1033 as 3 Although the Office Action states that claims 1–5, 7–12, and 14–16 are rejected under 35 U.S.C 102(a)(1) “as anticipated by” Jansseune in view of Park, the rejection is set forth under a heading entitled “Claim Rejections - 35 USC § 103,” and includes an obviousness analysis in the body of the rejection, which appears to indicate that the rejection is actually an obviousness rejection 35 U.S.C. § 103. Because both parties treat the rejection as an obviousness rejection, and because Appellant does not Appeal 2020-003417 Application 15/503,241 3 unpatentable over Jansseune4 in view of Park.5 II. Claim 6 under 35 U.S.C. § 103 as unpatentable over Jansseune in view of Park and Hunter.6 FACTUAL FINDINGS AND ANALYSIS Upon consideration of the evidence relied upon in this appeal and each of Appellant’s contentions, we affirm the Examiner’s rejections of claims 1–12 and 14–16 under 35 U.S.C. § 103 for reasons set forth in the Non-Final Action, the Answer, and below. We review appealed rejections for reversible error based on the arguments and evidence the Appellant provides for each identified issue. 37 C.F.R. § 41.37(c)(1)(iv); Ex parte Frye, 94 USPQ2d 1072, 1075 (BPAI 2010) (precedential) (cited with approval in In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011) (explaining that even if the Examiner had failed to make a prima facie case, “it has long been the Board’s practice to require an applicant to identify the alleged error in the examiner’s rejections”). Appellant presents arguments directed to the subject matter of independent claim 1 only, to which we accordingly limit our discussion. Appeal Br. 4–7; 37 C.F.R. § 41.37(c)(1)(iv). Claims 2–12 and 14–16 stand or fall with claim 1. Jansseune discloses a position sensor for detecting the position of a magnetic object, and Jansseune discloses that the sensor includes a planar coil over which three ferromagnetic elements are arranged. Jansseune col. 1, contest this point, we consider this rejection to be an obviousness rejection under 35 USC §103 over Jansseune in view of Park. 4 Jansseune et al., US 6,605,939 B1, issued August 12, 2003. 5 Park et al., US 2005/0035761 A1, published February 17, 2005. 6 Hunter et al., US 2015/0300843 A1, published October 22, 2015. Appeal 2020-003417 Application 15/503,241 4 ll. 15–19; col. 2, ll. 20–24; col. 6, ll. 15–34; Fig. 9A. Jansseune explains that during operation, movement of the magnetic object magnetizes the ferromagnetic elements, causing a change in the inductance of the coil, and a processing device determines the position of the magnetic object based on the change. Jansseune col. 5, ll. 11–16, 21–27. Jansseune discloses that the magnetic elements can be employed in various shapes and configurations, depending on the type of measurement sought, and Jansseune’s Figure 8 depicts the use of a single element, while Figure 9A depicts the use of three magnetic elements spaced apart at determined intervals. Jansseune col. 6, ll. 11–34; Figs. 7–10. Jansseune discloses that in certain embodiments, individual magnetic elements may be split into multiple pieces by a groove in order to reduce the formation of eddy currents in the pieces. Jansseune col. 7, ll. 18–25. Jansseune explains, however, that it is advantageous to retain an electrical link connecting the magnetic elements “in order to ensure sufficient electrical ground continuity for electromagnetic shielding.” Jansseune col. 7, ll. 27–32. The Examiner relies upon Jansseune’s Figure 9A for teaching three or more magnetizable elements. Non-Final Act. 5. While Jansseune discloses embodiments in which multiple elements are connected as discussed above, the Examiner acknowledges that Jansseune does not disclose connecting the elements through “upper and lower connecting elements formed from a same material” as required by claim 1. Id. The Examiner relies upon Park for suggesting use of such connecting elements to connect Jansseune’s ferromagnetic elements. Non-Final Act. 6. Park discloses a magnetic sensor for detecting signals from a coil based on the presence of magnetic elements, and Park discloses that the Appeal 2020-003417 Application 15/503,241 5 sensor may be used to determine the position of an object. Park ¶¶ 32, 57 (discussing the potential of the device as a displacement sensor). Park discloses that in certain embodiments, the magnetic elements of Park’s sensor may be arranged as separate parallel bars, while in other embodiments, the separate magnetic elements may be connected by connecting elements disposed on opposing sides of the magnetic elements. Park ¶¶ 48, 49; Figs. 4C, 4D. Park discloses that connecting the magnetic elements in such a manner minimizes leakage of magnetic flux and allows easier signal processing, enabling the sensor to achieve high sensitivity. Park ¶ 55. In view of these disclosures in Park, the Examiner concludes that it would have been obvious to one of ordinary skill in the art to mechanically connect the three magnetizable elements shown in Jansseune’s Figure 9A to one another by upper and lower connecting elements formed from a same material as the magnetizable elements, as disclosed in Park. Non-Final Act. 6. The Examiner sets forth multiple advantages that would stem from modifying Jansseune’s sensor in this way, which would have led one of ordinary skill in the art to make the proposed modification, including allowing greater control over the direction of the magnetic field at the coil, providing additional flux concentrating features to further increase the magnetic field at the coil thereby increasing the coil sensitivity, and ensuring sufficient and increased electrical ground continuity for electromagnetic shielding purposes. Non-Final Act. 6 (citing Jansseune col. 7, ll. 25–31). Appellant argues that “a person of ordinary skill in the art would not have been motivated based on Park to create three or more magnetizable elements connected to one another by upper and lower connecting elements” Appeal 2020-003417 Application 15/503,241 6 because “Park teaches two distinct embodiments: (i) two side-by-side magnetic cores; or (ii) a single ring magnetic core,” and “Park explains that its use of two magnetic cores or a ring magnetic core is ‘important’ in order to form ‘a closed magnetic path in the soft magnetic cores,’ and thereby minimize leakage of magnetic flux from the system.” Appeal Br. 5. Appellant argues that “[a] person of ordinary skill in the art would understand that the use a third magnetic core would contravene the purpose of the sensor of Park, both by altering the closed magnetic path (loop), and by increasing the possibility of leakage of magnetic flux from the system.” Id. The Examiner’s rejection, however, is not based on adding a third magnetic element to Park’s sensor as Appellant’s arguments imply. And Appellant’s arguments are also improperly based on Park alone, and do not take into consideration what a combination of the relied-upon disclosures of Jansseune and Park reasonably would have suggested to one of ordinary skill in the art. In re Merck & Co., Inc., 800 F.2d 1091, 1097 (Fed. Cir. 1986) (“Non-obviousness cannot be established by attacking references individually where the rejection is based upon the teachings of a combination of references.”); In re Keller, 642 F.2d 413, 425 (CCPA 1981) (The test for obviousness “is what the combined teachings of the references would have suggested to those of ordinary skill in the art.”). As discussed above, Jansseune discloses a sensor including three separate magnetic elements, and Jansseune teaches that connecting the magnetic elements by an electrical link ensures “sufficient electrical ground continuity for electromagnetic shielding.” Jansseune col. 7, ll. 27–32. As also discussed above, Park discloses a sensor including separate magnetic Appeal 2020-003417 Application 15/503,241 7 elements connected with connecting elements disposed on opposing sides of the magnetic elements, which Park teaches enables the sensor to achieve high sensitivity. Park ⁋ 55. One of ordinary skill in the art reasonably would have been led to modify Jansseune’s sensor to include connecting elements disposed on opposing sides of the sensor’s three magnetic elements as disclosed in Park, with a reasonable expectation of successfully increasing the sensitivity of Jansseune’s sensor. In re Kubin, 561 F.3d 1351, 1360 (Fed. Cir. 2009) (“[o]bviousness does not require absolute predictability of success . . . all that is required is a reasonable expectation of success.”) (emphasis omitted, citing In re O’Farrell, 853 F.2d 894, 903‒04 (Fed. Cir. 1988)). In the Reply Brief, Appellant argues that the Examiner’s proposed modification of Jansseune’s sensor “would not create a closed magnetic path; it would create a branching magnetic path between various cores of Jansseune,” and, therefore, one of ordinary skill in the art would not have been motivated to provide a connection between Jansseune’s three magnetizable elements. Reply Br. 1–2. Appellant, however, does not provide any objective evidence to support the contention that modifying Jansseune’s sensor as proposed by the Examiner would create a branching magnetic path between Jansseune’s magnetic cores. Appellant’s unsupported assertion, therefore, does not constitute the requisite evidence necessary to establish that one of ordinary skill in the art would have expected such a result to occur in Jansseune’s modified sensor. Nor does Appellant’s unsupported assertion establish that creation of such a branching magnetic path—even if one of ordinary skill in the art actually would have expected such a result to occur—would have Appeal 2020-003417 Application 15/503,241 8 dissuaded the ordinarily skilled from modifying Jansseune’s sensor as proposed by the Examiner. Appellant’s arguments, therefore, do not identify reversible error in the Examiner’s rejection. In re Geisler, 116 F.3d 1465, 1470 (Fed. Cir. 1997) (“An assertion of what seems to follow from common experience is just attorney argument and not the kind of factual evidence that is required to rebut a prima facie case of obviousness.”); Icon Health & Fitness, Inc. v. Strava, Inc., 849 F.3d 1034, 1043 (Fed. Cir. 2017) (“[a]ttorney argument is not evidence” and cannot rebut other admitted evidence). Appellant argues that Jansseune teaches separating the magnetic elements of Jansseune’s sensor to avoid the formation of eddy currents between the magnetic elements. Appeal Br. 6 (citing Jansseune col. 7, ll. 18–20). Appellant argues that although Jansseune acknowledges that an electrical link can remain between the separate magnetic elements, Jansseune “does not disclose, teach, or suggest forming upper and lower connecting elements.” Appeal Br. 6. Appellant argues that “[t]he only purpose found in the prior art for ‘upper and lower connecting elements formed from a same material as the three or more magnetizable elements’ is found in Park” to “form . . . a closed magnetic path between adjacent magnetic cores.” Id. Appellant argues that one of ordinary skill in the art would not have modified Jansseune “to include upper and lower connecting elements between cores” because “doing so would have been expected to create a loop of flux or current between cores,” and, therefore, the Examiner’s proposed modification of Jansseune is improperly based on hindsight. Id. at 6–7. Appellant’s arguments again do not identify reversible error in the Appeal 2020-003417 Application 15/503,241 9 Examiner’s rejection. As discussed above and as Appellant acknowledges, Jansseune’s disclosures are not limited to fully separated magnetizable elements, and Jansseune teaches electrically connecting adjacent magnetizable elements through a connecting element. Jansseune col. 7, ll. 26–31. Jansseune further teaches that maintaining an electrical connection between the magnetizable elements “ensure[s] sufficient electrical ground continuity for electromagnetic shielding purposes.” Id. Appellant’s arguments do not take into consideration these explicit disclosures in Jansseune, which provide a reason to connect Jansseune’s magnetizable elements, contrary to Appellant’s argument that the “only purpose” for providing a connection is found in Park. Furthermore, Appellant does not provide any objective evidence to support the assertion that modifying Jansseune’s sensor as the Examiner proposes “would have been expected to create a loop of flux or current between cores.” To the contrary, Jansseune explicitly discloses that connecting Jansseune’s magnetic elements by an electrical link ensures “sufficient electrical ground continuity for electromagnetic shielding,” which reasonably would have indicated the suitability—and usefulness—of such a connection to one of ordinary skill in the art, contrary to Appellant’s arguments. And as discussed above, Park explicitly teaches that connecting magnetic elements in a position sensor using connecting elements disposed on opposing sides of the magnetic elements enables the sensor to achieve high sensitivity. The Examiner’s proposed modification of Jansseune’s sensor is based on achieving the advantages explicitly disclosed in Park and Jansseune that result from connecting magnetic elements in a position Appeal 2020-003417 Application 15/503,241 10 sensor, rather than impermissible hindsight as Appellant argues. Appellant also argues that “no basis” exists in the record for the Examiner’s assertion that the prosed modification of Jansseune’s sensor “would ‘provide even greater control over the direction of the magnetic field at the coil’ and would ‘advantageously provide additional flux concentrating features.’” Appeal Br. 7. Appellant argues that Jansseune “is entirely silent regarding any need to control the direction of the magnetic field at the coil, or on any need to concentrate flux.” Id. As discussed above, however, the Examiner’s rationale for modifying Jansseune’s sensor is not based solely on providing greater control over the direction of the magnetic field at the coil and providing additional flux concentrating features. Rather, as discussed above, the Examiner finds that the proposed modification of Jansseune’s sensor would also increase the sensor’s sensitivity as explicitly disclosed in Park, and would ensure sufficient and increased electrical ground continuity for electromagnetic shielding purposes as explicitly discloses in Jansseune. In the Answer, the Examiner provides a thorough explanation grounded in sound technical reasoning stemming from the knowledge of one of ordinary skill in the art as to why using connected magnetizable elements would provide greater control over the direction of the magnetic field and concentrate flux, and Appellant does not directly challenge the Examiner’s explanation and reasoning. Compare Ans. 22–23, with Reply Br. 1–4. Appellant argues that “Jansseune already provides for electrical ground continuity, and teaches away from providing increased connection due to the potential formation of current loops between cores.” Appeal Br. 7. Appeal 2020-003417 Application 15/503,241 11 As discussed above, however, the Examiner’s proposed modification of Jansseune’s sensor involves modifying the structure shown in Jansseune’s Figure 9A. Non-Final Act. 5–6. In this embodiment, the magnetizable elements are not connected to one another, and, therefore, the benefits of such a connection are not already provided. The Examiner proposes connecting the adjacent magnetic elements shown in Jansseune’s Figure 9A in the manner disclosed in Park, to achieve the explicitly disclosed benefits taught by both Jansseune and Park (discussed above). As such, Jansseune does not teach away from connecting Jansseune’s adjacent magnetic elements as Appellant argues, but, rather, discloses a reason to do so. In re Gurley, 27 F.3d 551, 553 (Fed. Cir. 1994) (“A reference may be said to teach away when a person of ordinary skill, upon reading the reference, would be discouraged from following the path set out in the reference, or would be led in a direction divergent from the path that was taken by the applicant.”). Nor does Jansseune’s disclosure of one possible way to connect Jansseune’s adjacent magnetizable elements teach away from the alternate connection disclosed in Park. In re Fulton, 391 F.3d 1195, 1201 (Fed. Cir. 2004) (“[T]he prior art’s mere disclosure of more than one alternative does not constitute a teaching away from any of these alternatives because such disclosure does not criticize, discredit, or otherwise discourage the solution claimed . . . .”). In the Reply Brief, Appellant argues that the Examiner’s proposed modification of Jansseune’s sensor would render the sensor unsuitable for its intended purpose. Reply Br. 2–4. Appellant, however, does not provide any objective evidence to support such assertions, which, therefore, do not Appeal 2020-003417 Application 15/503,241 12 identify reversible error in the Examiner’s rejection. Geisler, 116 F.3d at 1470. We, accordingly, sustain the Examiner’s rejections of claims 1–12 and 14–16 under 35 U.S.C. § 103. CONCLUSION Claim(s) Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 1–5, 7–12, 14–16 103 Jansseune, Park 1–5, 7–12, 14–16 6 103 Jansseune, Park, Hunter 6 Overall Outcome 1–12, 14–16 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