2021000247 (P.T.A.B. Sep. 17, 2021)

Infineon Technologies AG

Patent Trials and Appeals BoardSep 17, 2021

2021000247 (P.T.A.B. Sep. 17, 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. 15/160,244 05/20/2016 Juergen Zimmer INFAP442USA 7636 51092 7590 09/17/2021 Eschweiler & Potashnik, LLC. Rosetta Center 629 Euclid Ave., Suite 1000 Cleveland, OH 44114 EXAMINER SCHINDLER, DAVID M ART UNIT PAPER NUMBER 2858 NOTIFICATION DATE DELIVERY MODE 09/17/2021 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): docketing@eschweilerlaw.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte JUERGEN ZIMMER and WOLFGANG RABERG ____________ Appeal 2021-000247 Application 15/160,244 Technology Center 2800 ____________ Before JEFFREY B. ROBERTSON, CHRISTOPHER C. KENNEDY, and SHELDON M. MCGEE, Administrative Patent Judges. MCGEE, Administrative Patent Judge. DECISION ON APPEAL Pursuant to 35 U.S.C. § 134, Appellant1 seeks our review of the Examiner’s final rejection claims 1–4, 7, and 9.2 We have jurisdiction. 35 U.S.C. § 6. We affirm-in-part. 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies the real party in interest as Infineon Technologies AG. Appeal Br. 1. 2 Appellant does not, however, challenge the Examiner’s rejections of claims 6, 11, and 12. Final Act. 6–7, 11–15. We summarily affirm those rejections infra. Appeal 2021-000247 Application 15/160,244 2 BACKGROUND The subject matter on appeal relates to magnetoresistive sensors. Spec. ¶ 2. Independent claim 1 is illustrative, is copied from the Claims Appendix of the Appeal Brief, and appears below (with the key limitation italicized): 1. A magnetoresistive sensor element sensitive to a magnetic field strength, the sensor element comprising: a magnetoresistive strip comprising a plurality of serial segments, wherein each segment of the plurality of serial segments is straight, has an associated shape anisotropy axis of a plurality of shape anisotropy axes, and has an associated tilt angle of a plurality of tilt angles that is associated with, in the presence of a rotating magnetic field, an associated discontinuity of a plurality of discontinuities at an associated magnetic field angle of a plurality of magnetic field angles at which edge magnetization switching occurs, wherein, for each segment, the associated tilt angle of that segment is an angle between the associated shape anisotropy axis of that segment and a second axis, wherein the associated shape anisotropy axis is collinear with that segment, wherein the second axis is in a plane defined by a pinned layer of the magnetoresistive strip, and wherein the second axis is perpendicular to a reference magnetization of the pinned layer, wherein a first plurality of the plurality of serial segments form a first substrip and a second plurality of the plurality of serial segments form a second substrip, the first and second substrips being connected by connectors, wherein each associated tilt angle of the first substrip has a magnitude that is different from a magnitude of each associated tilt angle of the second substrip, wherein the plurality of serial segments comprises at least a first segment and a second segment adjacent to the first segment, wherein the first segment directly contacts the second segment at an angle, wherein the first segment has an associated shape anisotropy axis of the plurality of shape anisotropy axes equal to a first shape anisotropy axis and an associated tilt angle Appeal 2021-000247 Application 15/160,244 3 of the plurality of tilt angles equal to a first tilt angle throughout its length, wherein the second segment has an associated shape anisotropy axis of the plurality of shape anisotropy axes equal to a second shape anisotropy axis and an associated tilt angle of the plurality of tilt angles equal to a second tilt angle throughout its length, wherein the first shape anisotropy axis is different from the second shape anisotropy axis, and wherein the first tilt angle is different from the second tilt angle, wherein the first segment has an associated discontinuity of the plurality of discontinuities equal to a first discontinuity at an associated magnetic field angle of the plurality of magnetic field angles equal to a first magnetic field angle, wherein the second segment has an associated discontinuity of the plurality of discontinuities equal to a second discontinuity at an associated magnetic field angle of the plurality of associated magnetic field angles equal to a second magnetic field angle, and wherein the first magnetic field angle is distinct from the second magnetic field angle. Appellant’s Figure 4, reproduced below, is illustrative: Appeal 2021-000247 Application 15/160,244 4 Figure 4 depicts an embodiment of magnetoresistive strip 200 having a plurality of serial segments 200a–200n, each having varying lengths and tilt angles. Spec. ¶ 36. “[F]or each segment, the associated tilt angle of that segment is an angle between the associated shape anisotropy axis of that segment and a second axis.” Claim 1. The “associated shape anisotropy axis is collinear with that segment,” and “the second axis is in a plane defined by a pinned layer of the magnetoresistive strip, and . . . is perpendicular to a reference magnetization of the pinned layer.” Id. REJECTIONS ON APPEAL The Examiner maintains the following rejections on appeal: I. Claim 6 under 35 U.S.C. § 112, 1st paragraph as failing to comply with the written description requirement; II. Claims 1 and 3–5 under 35 U.S.C. § 102(b) as anticipated by Okada3; III. Claims 11 and 12 under 35 U.S.C. § 102(b) as anticipated by Barton4; IV. Claims 2 and 9 under 35 U.S.C. § 103(a) as unpatentable over Okada in view of Barton; V. Claim 6 under 35 U.S.C. § 103 as unpatentable over Okada in view of Ando5; VI. Claim 7 under 35 U.S.C. § 103 as unpatentable over Okada; 3 US 2009/0189601 A1, published July 30, 2009. 4 US 2008/0191694 A1, published August 14, 2008. 5 US 2008/0054888 A1, published March 6, 2008. Appeal 2021-000247 Application 15/160,244 5 VII. Claim 2 under 35 U.S.C. § 103 as unpatentable over Okada in view of Shimano6; and VIII. Claims 2 and 9 under 35 U.S.C. § 103 as unpatentable over Okada in view of Kataoka7. OPINION Rejections I, III, and V 8 Because Appellant fails to challenge these rejections, we summarily sustain each of them. Appeal Br. 4–8; 37 C.F.R. § 41.37(c)(1)(iv) (“Each ground of rejection contested by appellant must be argued under a separate heading, and each heading shall reasonably identify the ground of rejection being contested (e.g., by claim number, statutory basis, and applied reference, if any)). Rejections II, IV, and VI–VIII The dispositive issue with respect to these rejections is whether the Examiner applied an unreasonably broad interpretation to the claim limitation “the second axis is in a plane defined by a pinned layer of the magnetoresistive strip,” as recited in independent claim 1. Because we determine that the Examiner applied an unreasonably broad construction, we reverse these rejections. Relevant to this appeal, the Examiner finds that Okada discloses, inter alia, a sensor element with a plurality of segments having the claimed 6 US 6,222,361 B1, issued April 24, 2001. 7 US 3,691,502, issued September 12, 1972. 8 Although Appellant identifies reversible error with respect to claim 1 from which claim 6 depends, we are constrained to affirm Rejection V because Appellant does not challenge it. Appeal 2021-000247 Application 15/160,244 6 angular relationship vis-à-vis a reference magnetization of the pinned layer, i.e., each segment is at “an angle between the associated shape anisotropy axis of that segment [collinear with the segment] and a second axis” which “is in a plane defined by a pinned layer of the magnetoresistive strip.” Final Act. 8–10. Specifically, the Examiner maps the claimed magnetoresistive strip to elements 311c and 311d, and finds that Okada’s second axis for subsegment 311c is defined by the arrow oriented in the Y-axis in annotated Okada Figure 28, while the second axis for subsegment 311d “is into the page.”9 Id. at 8–9; see also Ans. 8–9 (“the second axis going into the page and through the device (311d) is a Z-axis of the same coordinate system”). The Examiner’s annotated Figure 28 of Okada is reproduced below: 9 We observe that this interpretation regarding Okada’s element 311d is “a new interpretation of Okada” based on previous arguments made by Appellant. Final Act. 5. Appeal 2021-000247 Application 15/160,244 7 Annotated Okada Figure 28 illustrates a bridge circuit having devices 311c and 311d––each with a plurality of segments in a 90° relationship to connected segments therein––with devices 311c and 311d in an angular relationship to one another, and an arrow pointed in the direction of the Y axis. Final Act. 8; Okada ¶ 99, Figure 28. Appellant argues that the Examiner’s mapping of Okada’s circuit fails to evince that the second axis for subsegment 311d is “in a plane defined by a pinned layer of the magnetoresistive strip” as required by claim 1. Appeal Br. 5. Rather, according to Appellant, Okada’s second axis would go through a plane defined by the pinned layers, but would not be in the plane as claimed. Id. The Examiner responds with an analogy of putting a pencil through a sheet of paper, and asserts that “[w]hile the pencil may be perpendicular to the plane of the paper, the pencil nevertheless exists in the plane of the paper for the part of the pencil that is in the paper.” Ans. 12 (emphasis added). The Examiner determines that “Appellant is not claiming that the second axis must be parallel to, or along, or even entirely located in the plane,” but is rather “only reciting that the second axis be ‘in’ the plane.” Id. The Examiner reasons that “a second axis that is perpendicular to the plane but still goes through the plane is reasonably in the plane for at least the part of the axis that must exist where [it] passes through the plane.” Id. (emphasis added). Appellant argues in response that “a single point along an axis does not constitute the axis and thus the axis is not in the plane.” Reply Br. 3. We agree with Appellant. During examination, the PTO applies to the verbiage of the proposed claims the broadest reasonable meaning of the words in their ordinary usage Appeal 2021-000247 Application 15/160,244 8 as they would be understood by one of ordinary skill in the art, taking into account whatever enlightenment by way of definitions or otherwise that may be afforded by the written description contained in the applicant’s specification. In re Morris, 127 F.3d 1048, 1054 (Fed. Cir. 1997). Here, the Examiner’s construction of “the second axis is in a plane”––which allows for only one point along an axis to be in a plane––is unreasonable. The Examiner has not pointed to sufficient disclosure in the specification that evinces that the skilled artisan would have understood such a broad interpretation, and we see none. Although the application does not appear to define “the second axis is in a plane,” the relied-upon prior art is informative because it reflects how the person of ordinary skill would have understood the term “axis” and the limitation “in a plane.” For example, Okada depicts several axes in Figures 3, 11, and 12 each of which are fixed reference lines. See Okada, Fig. 3, ¶ 66 (“Any direction is expressed by an angle from the reference axis.”), Figs. 11, 12 (depicting “axis 202 parallel to the magnetization directions of pinned layers” and “axis 204 perpendicular to the axis 202,” respectively (¶ 75)), Fig. 27 (where “a dotted line represents a rotation center axis” (¶ 97)). Thus, the skilled artisan would have understood an “axis” to at least correspond to a reference line and not merely a point on such a line. Also, Barton discloses that, in Figure 1, “[t]he planar patterns of the magneto-resistance layers 11 and 12 have a meandering or serpentine shape.” Barton ¶ 33. Figure 1 of Barton depicts layers 11 and 12 as parallel to each other. Kataoka also suggests such a parallel relationship between elements to be considered “in the same plane.” Kataoka, claim 21. Thus, the relied upon prior art refers to parallel elements as being in the same Appeal 2021-000247 Application 15/160,244 9 plane. Taken together, the record suggests that the skilled artisan would have understood “the second axis is in a plane” as the axis being parallel to the plane. This is in direct contrast with the Examiner’s unsupported interpretation. Cf., Ans. 12 (“Appellant is not claiming that the second axis must be parallel to, or along, or even entirely located in the plane,” but could be an “axis that is perpendicular to the plane but still goes through the plane”). We also note that the Examiner’s interpretation of this limitation is not entirely consistent with the Examiner’s discussion of the plane of the pinned layer vis-à-vis the arrow depicted in the annotated Figure 29 of Okada, reproduced infra. See Ans. 7 (“The long arrow shown in the above figure of paragraph 4 of this Examiner’s Answer is therefore in the plane of the pinned layer as it exists in the plane of the page.” (emphasis added)). Thus, in one instance, the Examiner determines all points of an axis (the arrow) to be entirely within the plane, and is, “therefore in the plane.” Ans. 7. And in another, the Examiner determines that a single point of an axis passes through a plane and is nevertheless “in the plane.” Final Act. 9; Ans. 12. We also observe that the Examiner’s reliance on an extrinsic definition of the term “in” (Ans. 13) is insufficient because it fails to account for additional words that provide context to the limitation at issue––i.e., “the second axis is in a plane.” Notably, the claim expressly requires that the second axis is in a plane, not merely a point along said axis. Because the Examiner applies an unreasonably broad construction to this claim element, we do not sustain these rejections. Appeal 2021-000247 Application 15/160,244 10 CONCLUSION Rejections I, III, and V are affirmed. Rejections II, IV, and VI–VIII are reversed. DECISION SUMMARY Claim(s) Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 6 112 Written Description 6 1, 3–5 102 Okada 1, 3–5 11, 12 102 Barton 11, 12 2, 9 103 Okada, Barton 2, 9 6 103 Okada, Ando 6 7 103 Okada 7 2 103 Okada, Shimano 2 2, 9 103 Okada, Kataoka 2, 9 Overall Outcome 6, 11, 12 1–5, 7, 9 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). See 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED-IN-PART