14714180 - (D) (P.T.A.B. Aug. 30, 2019)

Jong Hee Hwang et al.

Patent Trials and Appeals BoardAug 30, 2019

14714180 - (D) (P.T.A.B. Aug. 30, 2019)

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. 14/714,180 05/15/2015 Jong Hee HWANG 29272-29227/US 3115 138354 7590 08/30/2019 LG Display/FENWICK 801 California Street Mountain View, CA 94041 EXAMINER LIN, HANG ART UNIT PAPER NUMBER 2626 NOTIFICATION DATE DELIVERY MODE 08/30/2019 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): FWLGDisplayPatents@fenwick.com ptoc@fenwick.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________________ Ex parte JONG HEE HWANG, KI DUK KIM, SUNG YONG CHO, and EUN JUNG KIM ____________________ Appeal 2017-009545 Application 14/714,1801 Technology Center 2600 ____________________ Before THU A. DANG, JUSTIN BUSCH, and JAMES W. DEJMEK, Administrative Patent Judges. DEJMEK, Administrative Patent Judge. DECISION ON APPEAL Appellants appeal under 35 U.S.C. § 134(a) from a Final Rejection of claims 1–3, 5–16, 18–23, and 26. Appellants have canceled claims 4, 17, 24, and 25. See Amend. 3–8 (filed July 13, 2016). We have jurisdiction over the remaining pending claims under 35 U.S.C. § 6(b). We affirm-in-part. 1 Appellants identify LG Display Co., Ltd. as the real party in interest. App. Br. 2. Appeal 2017-009545 Application 14/714,180 2 STATEMENT OF THE CASE Introduction Appellants’ disclosed and claimed invention generally relates to “a touch panel enabling both touch force sensing and touch point sensing . . . .” Spec. ¶ 2. In a disclosed embodiment a touch panel includes first electrodes and second electrodes separated from and intersecting the first electrodes. The first electrodes are applied with a touch driving pulse during a first sensing mode and a second sensing mode. The second electrodes sense a first touch sense signal responsive to the touch driving pulse in the first sensing mode. A subset of the second electrodes senses a second touch sense signal responsive to the touch driving pulse in the second sensing mode. Spec. ¶ 14. More particularly, the Specification describes that in a first sensing mode, a force of touch on the touch panel may be determined and in a second sensing mode, the location of the touch may be determined. Spec. ¶ 18. Claim 1 is exemplary of the subject matter on appeal and is reproduced below with the disputed limitations emphasized in italics: 1. A touch panel comprising: first electrodes applied with a touch driving pulse during a touch force sensing mode to determine a force of a touch on the touch panel and a touch point sensing mode to determine a location of the touch on the touch panel; and second electrodes separated from and intersecting the first electrodes, the second electrodes including touch sensing electrodes and adjacent electrodes adjacent to the touch sensing electrodes, the touch sensing electrodes and the adjacent electrodes to sense a first touch sense signal responsive to the touch driving pulse in the touch force sensing mode, and the touch sensing electrodes to sense a second touch sense signal Appeal 2017-009545 Application 14/714,180 3 responsive to the touch driving pulse in the touch point sensing mode, wherein the adjacent electrodes are not used to sense the second touch sense signal during a first time period, at which the touch point sensing mode is performed, but only used to sense the first touch sense signal responsive to the touch driving pulse during a second time period, at which the touch force sensing mode is performed. The Examiner’s Rejection Claims 1–3, 5–16, 18–23, and 26 stand rejected under 35 U.S.C. § 103 as being unpatentable over Coulson et al. (US 2013/0033450 A1; Feb. 7, 2013) (“Coulson”); Inada et al. (US 2013/0082763 A1; Apr. 4, 2013) (“Inada”); and Olson et al. (US 8,874,396 B1; Oct. 28, 2014) (“Olson”). Final Act. 3–24. ANALYSIS2 Claims 1–3, 5–14, and 26 Appellants assert, inter alia, the prior art, as relied on by the Examiner, fails to teach or suggest a dual mode sensing touch panel wherein touch sensing electrodes and adjacent (sensing) electrodes are used in a touch force sensing mode, but only touch sensing electrodes (i.e., not the recited adjacent electrodes) are used in a touch point sensing mode. App. Br. 11–15; Reply Br. 2–12. Additionally, Appellants assert the Examiner 2 Throughout this Decision, we have considered the Appeal Brief, filed January 18, 2017 (“App. Br.”); the Reply Brief, filed June 30, 2017 (“Reply Br.”); the Examiner’s Answer, mailed May 4, 2017 (“Ans.”); and the Final Office Action, mailed August 19, 2016 (“Final Act.”), from which this Appeal is taken. Appeal 2017-009545 Application 14/714,180 4 failed to set forth sufficient reasoning in support of the proffered combination of references. App. Br. 15–19; Reply Br. 12–15. Claim construction is an important step in a patentability determination. A legal conclusion that a claim is obvious involves a two- step inquiry wherein first, the claims are properly construed, and second, the properly construed claims are compared to the prior art. See Medichem, S.A. v. Rolabo, S.L., 353 F.3d 928, 933 (Fed. Cir. 2003); see also In re Crish, 393 F.3d 1253, 1256 (Fed. Cir. 2004). Claim 1 is an apparatus claim that claims a touch panel. Claim 1 further recites the touch panel comprises first electrodes and second electrodes, wherein the second electrodes include touch sensing electrodes and adjacent electrodes adjacent to the touch sensing electrodes. In addition, the second electrodes are separated from and intersect the first electrodes. These limitations (i.e., identifying the different electrodes and how they are positioned relative to each other) define the structure of the touch panel apparatus. Claim 1 also recites which electrodes (i.e., the touch sensing electrodes and adjacent electrodes) are used to sense a first touch sense signal in a touch force sensing mode and which electrodes (i.e., the touch sensing electrodes and not the adjacent electrodes) are used to sense a second touch signal in a touch point sensing mode. These limitations do not impart structure to the touch panel apparatus, but instead describe how the components (electrodes) of the claimed apparatus are used. Similarly, we construe independent claim 26 to also recite a touch panel apparatus comprising first electrodes and second electrodes, wherein the second electrodes include touch sensing electrodes and adjacent Appeal 2017-009545 Application 14/714,180 5 electrodes adjacent to the touch sensing electrodes, and further wherein the second electrodes are separated from and intersect the first electrodes. As with claim 1, the remaining limitations of claim 26 recite how the claimed apparatus is used, but do not otherwise impart structure to the touch panel apparatus. “[A]pparatus claims cover what a device is, not what a device does.” Hewlett-Packard Co. v. Bausch & Lomb Inc., 909 F.2d 1464, 1468 (Fed. Cir. 1990); but cf. In re Giannelli, 739 F.3d 1375, 1379 (Fed. Cir. 2014) (explaining that when supported by the specification, recited elements of an apparatus “adapted to” or “configured to” perform a function have a narrower meaning than merely an intended use of the elements themselves). Our reviewing court guides that the patentability of an apparatus claim “depends on the claimed structure, not on the use or purpose of that structure.” Catalina Mktg. Int’l Inc. v. Coolsavings.com, Inc., 289 F.3d 801, 809 (Fed. Cir. 2002). Accordingly, the Examiner need only identify prior art that teaches the recited structure of the touch panel apparatus. Here, the Examiner finds that Coulson teaches the claimed touch panel. Final Act. 3–4. In particular, the Examiner finds, and we agree, that Coulson describes a touch panel comprising a plurality of drive electrodes (i.e., the claimed first electrodes) and a plurality of sense electrodes (i.e., the claimed second electrodes). Appeal 2017-009545 Application 14/714,180 6 Figure 6 of Coulson is illustrative and is reproduced below: Figure 6 of Coulson shows an arrangement of the drive electrodes (710) and sense electrodes (720). Coulson ¶ 184. Coulson describes (and illustrates) the drive and sense electrodes are electrically insulated from one another and are arranged such that the sense electrodes are formed in a direction orthogonal to the direction in which the drive electrodes are formed. Coulson ¶¶ 183–184, Fig. 6. Moreover, Coulson describes and Appeal 2017-009545 Application 14/714,180 7 illustrates the sense electrodes as a plurality of electrodes, such that each electrode has at least one electrode adjacent to it. See Coulson ¶ 182, Fig. 6. Thus, we find Coulson describes a touch panel apparatus comprising first electrodes and second electrodes, wherein the second electrodes include touch sensing electrodes and adjacent electrodes adjacent to the touch sensing electrodes, and further wherein the second electrodes are separated from and intersect the first electrodes, as recited in independent claims 1 and 26. Because we find Coulson teaches all of the structure of the claimed apparatus, we need not rely on the other cited prior art references. See In re Kronig, 539 F.2d 1300, 1302 (CCPA 1976) (explaining that limiting an affirmance of obviousness rejection to less than all of the references cited by the Examiner does not constitute a new ground of rejection); In re Bush, 296 F.2d 491, 495–96 (CCPA 1961). Moreover, because our affirmance of the Examiner’s rejection does not rely on the combined teachings of prior art references, Appellants’ arguments regarding the Examiner’s rationale to combine references are moot. For the reasons discussed supra, we are unpersuaded of Examiner error. Accordingly, we sustain the Examiner’s rejection under 35 U.S.C. § 103 of independent claim 1. For similar reasons, we also sustain the Examiner’s rejection of independent claim 26. Additionally, we sustain the Examiner’s rejection of claims 2, 3, and 5–14, which depend directly or indirectly therefrom and were not argued separately. See App. Br. 19; see also 37 C.F.R. § 41.37(c)(1)(iv) (2016). Appeal 2017-009545 Application 14/714,180 8 Claims 15, 16, and 18–23 Unlike the touch panel apparatus recited in independent claims 1 and 26, independent claim 15 (and dependent claims 16 and 18–23) recites a method of operating a touch panel. Thus, all of the steps of the method of operation must be taught or suggested by the prior art. Claim 15 is reproduced below: 15. A method of operating a touch panel including first electrodes and second electrodes separated from and intersecting the first electrodes, the second electrodes including touch sensing electrodes and adjacent electrodes adjacent to the touch sensing electrodes, the method comprising: applying a touch driving pulse to the first electrodes during a touch force sensing mode to determine a force of a touch on the touch panel and a touch point sensing mode to determine a location of the touch on the touch panel; sensing a first touch sense signal responsive to the touch driving pulse in the touch force sensing mode through the touch sensing electrodes and the adjacent electrodes; and sensing a second touch sense signal responsive to the touch driving pulse in the touch point sensing mode through the touch sensing electrodes except the adjacent electrodes, wherein the adjacent electrodes are not used to sense the second touch sense signal during a first time period at which the touch point sensing mode is performed, but only used to sense the first touch sense signal responsive to the touch driving pulse during a second time period at which the touch force sensing mode is performed. In rejecting claim 15, the Examiner relies on the combined teachings of Coulson, Inada, and Olson. Final Act. 3–8, 22. In particular, the Examiner finds Coulson teaches a touch panel comprising first and second electrodes arranged as recited in Appellants’ claims. Final Act. 3–4 (citing Coulson ¶¶ 182–183, Fig. 6). Further, the Examiner finds Coulson teaches Appeal 2017-009545 Application 14/714,180 9 operating the touch panel in both a touch force sensing mode and a touch location sensing mode. Final Act. 3–4 (citing Coulson ¶¶ 182–183, Fig. 6); see also Coulson ¶¶ 189–192. The Examiner relies on Inada to teach the second electrodes include touch sensing electrodes and electrodes adjacent to the touch sensing electrodes and that the touch sensing electrodes and adjacent electrodes are used collectively in a touch force sensing mode. Final Act. 4–6 (citing Inada ¶¶ 43–44, 50, 47, 62, Figs. 1, 2, 3A–3D, 5). In addition, the Examiner finds Olson describes sensing a touch location on a touch panel by using one sensing electrode at a time (i.e., not using electrodes adjacent to a sensing electrode) and, therefore, teaches the claimed touch sensing mode of operation. Final Act. 6–8 (citing Olson, col. 8, ll. 49–59). The Examiner determines an ordinarily skilled artisan would have been motivated to modify Coulson’s touch force sensing method with that of Inada and to further modify Coulson’s touch location sensing method with that of Olson because the methods of Inada and Olson “offer a substituted method” of operation. Final Act. 6, 8. Additionally, the Examiner explains “the modification of Coulson with Inada and Olson would have been obvious for one [ordinarily] skilled in the art at the time of the invention to yield a predictable result of carrying out force and point sensing by adopting the known methods as taught by Inada and Olson.” Ans. 8. Appellants argue, inter alia, the Examiner fails to provide sufficient rationale or reasoning for the proffered combination of references and instead relies on improper hindsight. App. Br. 24–28; Reply Br. 12–15. In particular, Appellants assert the Examiner’s rationale of a “substituted method” to sense touch force and touch location is conclusory and lacks Appeal 2017-009545 Application 14/714,180 10 articulated reasoning with rational underpinning. App. Br. 24–26 (citing KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 418 (2007)). More specifically, Appellants argue the touch panel of Coulson is structured and operates in a different manner than those described by Inada and Olson. App. Br. 25–26; Reply Br. 14–15. As such, Appellants assert the proposed modification would change Coulson’s principle of operation. Reply Br. 14–15. “[T]he desire to enhance commercial opportunities by improving a product or process is universal . . . .” DyStar Textilfarben GmbH v. C.H. Patrick Co., 464 F.3d 1356, 1368 (Fed. Cir. 2006). “[A]n implicit motivation to combine” may result from a desire to make a product or process “stronger, cheaper, cleaner, faster, lighter, smaller, more durable, or more efficient.” DyStar, 464 F.3d at 1368. Moreover, the law does not require that the references expressly articulate a motivation to combine. See, e.g., Arctic Cat Inc. v. Bombardier Recreational Prods. Inc., 876 F.3d 1350, 1359 (Fed. Cir. 2017). Instead, an obviousness analysis can “consider a range of real-world facts to determine ‘whether there was an apparent reason to combine the known elements in the fashion claimed by the patent at issue.’” Intercont’l Great Brands LLC v. Kellogg N. Am. Co., 869 F.3d 1336, 1344 (Fed. Cir. 2017) (quoting KSR, 550 U.S. at 418). However, we are mindful that although one of ordinary skill in the art may understand that two references could be combined as reasoned by the Examiner, this does not imply a motivation to combine the references. Personal Web Techs., LLC v. Apple, Inc., 848 F.3d 987, 993–94 (Fed. Cir. 2017); see also Belden Inc. v. Berk–Tek LLC, 805 F.3d 1064, 1073 (Fed. Cir. 2015) (“[O]bviousness concerns whether a skilled artisan not only could have made but would have been motivated to make the combinations or Appeal 2017-009545 Application 14/714,180 11 modifications of prior art to arrive at the claimed invention.”); InTouch Techs., Inc. v. VGO Communications, Inc., 751 F.3d 1327, 1352 (Fed. Cir. 2014). “Obviousness requires more than a mere showing that the prior art includes separate references covering each separate limitation in a claim under examination.” Unigene Labs., Inc. v. Apotex, Inc., 655 F.3d 1352, 1360 (Fed. Cir. 2011). Additionally, we are mindful “of the distortion caused by hindsight bias and must be cautious of arguments reliant upon ex post reasoning.” KSR, 550 U.S. at 421 (citing Graham v. Deere, 383 U.S. 1, 36 (1966)). Moreover, in KSR, the Supreme Court explained: The principles underlying these cases [(reviewing cases involving the combination of familiar elements according to known methods to yield predictable results)] are instructive when the question is whether a patent claiming the combination of elements of prior art is obvious. When a work is available in one field of endeavor, design incentives and other market forces can prompt variations of it, either in the same field or a different one. If a person of ordinary skill can implement a predictable variation, § 103 likely bars its patentability. KSR, 550 U.S. at 417. However, the Court cautioned that in cases where the claimed subject matter involves more than the simple substitution of one known element for another, additional factors (e.g., the interrelated teachings of multiple patents and the effects of demands known to the design community) should be considered. KSR, 550 U.S. at 417–18. In such cases, “this analysis should be made explicit.” KSR, 550 U.S. at 418. We provide a brief overview of the cited prior art references to determine whether the Examiner’s proposed combination is merely the simple substitution of one known element for another to yield a predictable Appeal 2017-009545 Application 14/714,180 12 result, or if the rationale for combining the teachings demands a more explicit analysis. Coulson describes a structure of a dual mode capacitive touch panel as comprising a sensor substrate and an electrode layer further comprising an array of sensor electrodes arranged over the sensor substrate. Coulson ¶ 182. Coulson describes the array of sensors as including a plurality of drive electrodes and a plurality of sense electrodes. Coulson ¶¶ 182–183. In addition, Coulson’s touch panel includes “a shield layer arranged over and spaced apart from the electrode layer, the shield layer having a predetermined resistance that permits transmission of an electric field at a first frequency and prevents transmission of an electric field at a second frequency.” Coulson ¶ 182. The shield layer affects the amount of current that flows into the sense electrodes. Coulson ¶ 187. Moreover, Coulson discloses the shield layer is capacitively coupled to the drive and sense electrodes, as well as being capacitively coupled to a grounded and capacitive object (e.g., a finger) when placed in proximity to the shield layer of the touch panel structure. Coulson ¶ 187, Fig. 8. Because the shield layer is capacitively coupled to the drive electrodes, when a stimulus signal is applied to the drive electrodes, local stimulus perturbations are induced on the shield layer. Coulson ¶ 188. In addition, Coulson describes a touch panel operating in two different modes—a first mode to sense touch location, and a second mode to sense touch force. Coulson ¶¶ 189–192. Rather than floating or switching in adjacent electrodes during the different operating modes, Coulson describes applying a sinusoidal voltage stimulus to the drive electrodes at different frequencies for the different operating modes. Coulson ¶¶ 188–192. Appeal 2017-009545 Application 14/714,180 13 Coulson teaches that based on the frequency of the stimulus signal, the sinusoidal voltage perturbations induced on the shield layer may or may not be attenuated by a resistive path to a DC voltage source. Coulson ¶¶ 189– 192. In a disclosed mode of operation, Coulson teaches applying a stimulus signal at a first frequency such that “the presence of a finger can be determined separately from the applied forces.” Coulson ¶ 190. In a second operating mode, Coulson describes applying a stimulus signal at a second (lower) frequency such that the “compression of the shield layer [(i.e., touch force)] can be determined separately from the presence of a finger.” Coulson ¶ 192. Inada, as relied on by the Examiner, describes a touch panel display in which pairs of drive electrodes and pairs of sense electrodes are switched on and a capacitance measurement is performed for the electrode pair group. Inada ¶¶ 43–44, 47, 50, Fig. 2. Inada describes subsequently switching out one drive electrode and one sense electrode and switching in another drive electrode and sense electrode and again measuring the capacitance of the new electrode pair group. Inada ¶ 47, Figs. 3A–3D. Based on the measured capacitance of a plurality of electrode pair groups, Inada determines a magnitude of external force applied to the pairs of electrodes. Inada ¶ 50. Olson generally relates to improving touch detection (i.e., location sensing) on a touch panel display by inducing an injected touch to simulate the data produced during an actual touch (including the coupling of any noise signals that may accompany an actual touch) and calculating a noise metric based on the injected touch. Olson, col. 2, l. 58–col. 3, l. 1. Olson describes a general structure of a mutual capacitive touch panel comprising a plurality of transmit (i.e., drive) electrodes and a plurality of receive (i.e., Appeal 2017-009545 Application 14/714,180 14 sense) electrodes arranged orthogonal to the transmit electrodes. See Olson, Fig. 2. As identified by the Examiner (see Final Act. 6), Olson describes measuring a receive signal on each of the receive electrodes sequentially. Olson, col. 8, ll. 49–59. Thus, the Examiner finds Olson teaches a mode of sensing touch by not using adjacent receive (sense) electrodes. See Final Act. 6. We agree with Appellants that the Examiner’s rationale for combining the references in the manner suggested is insufficient. As an initial matter, Coulson already teaches a dual mode touch panel display capable of sensing a touch force and touch location. The Examiner has not identified a benefit to modifying the manner in which Coulson senses touch force and touch location to incorporate the structure and approach taught by Inada and Olson, respectively. In other words, although the prior art may separately teach the different touch force and touch point sensing operations, the Examiner has not set forth articulated reasoning with rational underpinning as to why an ordinarily skilled artisan would have been motivated to make the proffered modifications. Additionally, we disagree that the proposed combination is merely a simple substitution of known elements operating in a known manner to yield predictable results. The structure of Coulson’s touch panel apparatus and method of operation do not readily lend themselves to the approaches of Inada and Olson. Because we find it dispositive that the Examiner has not set forth sufficient reasoning with rational underpinning for the proposed combination of references, we do not address other issues raised by Appellants’ arguments. See Beloit Corp. v. Valmet Oy, 742 F.2d 1421, 1423 Appeal 2017-009545 Application 14/714,180 15 (Fed. Cir. 1984) (finding an administrative agency is at liberty to reach a decision based on “a single dispositive issue”). For the reasons discussed supra, we are persuaded of Examiner error. Accordingly, we do not sustain the Examiner’s rejection under 35 U.S.C. § 103 of independent claim 15. For similar reasons we do not sustain the Examiner’s rejection of claims 16 and 18–23, which depend directly or indirectly therefrom. DECISION We affirm the Examiner’s decision rejecting claims 1–3, 5–14, and 26 under 35 U.S.C. § 103. We reverse the Examiner’s decision rejecting claims 15, 16, and 18– 23 under 35 U.S.C. § 103. 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. § 41.50(f). AFFIRMED-IN-PART