2020001324 (P.T.A.B. May. 12, 2021)

Apple Inc.

Patent Trials and Appeals BoardMay 12, 2021

2020001324 (P.T.A.B. May. 12, 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. 15/621,966 06/13/2017 James E. Pedder P30287US1 6779 62579 7590 05/12/2021 APPLE INC./BROWNSTEIN c/o Brownstein Hyatt Farber Schreck, LLP 410 Seventeenth Street Suite 2200 Denver, CO 80202 EXAMINER JOSEPH, DENNIS P ART UNIT PAPER NUMBER 2621 NOTIFICATION DATE DELIVERY MODE 05/12/2021 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): patentdocket@bhfs.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte JAMES E. PEDDER, SUPRATIK DATTA, KARAN JAIN, JUI-MING YANG, PAVAN O. GUPTA, ROBERT W. RUMFORD, WEI LIN, XIAOFAN NIU, and XIAONAN WEN Appeal 2020-001324 Application 15/621,966 Technology Center 2600 Before DANIEL J. GALLIGAN, JESSICA C. KAISER, and KARA L. SZPONDOWSKI, Administrative Patent Judges. KAISER, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Pursuant to 35 U.S.C. § 134(a), Appellant1 appeals from the Examiner’s decision to reject claims 24, 26, 27, 29–39, and 41–50. Claims 1–23, 25, 28, and 40 have been cancelled. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 We use the word Appellant to refer to “applicant” as defined in 37 C.F.R. § 1.42(a). Appellant identifies the real party in interest as Apple Inc. Appeal Br. 3. Appeal 2020-001324 Application 15/621,966 2 CLAIMED SUBJECT MATTER Claims 24, 35, and 39 are independent claims. Claim 24 is reproduced below: 24. An electronic device comprising: an enclosure; a display positioned within the enclosure; an input region positioned within the enclosure; a sensor structure positioned below the input region, comprising: a sensing layer comprising an array of electrodes; a ground layer comprising a ground electrode; and a piezoelectric substrate positioned between the sensing layer and the ground layer; and sensing circuitry operably coupled to the sensor structure and configured to: detect, using the array of electrodes of the sensing layer, a change in capacitance caused by a touch; determine a location of the touch based on the change in capacitance; detect, using the array of electrodes of the sensing layer, a change in electrical potential between the sensing layer and the ground layer caused by compression of the piezoelectric substrate in response to the touch; and estimate an amount of force corresponding to the touch using the change in electrical potential between the sensing layer and the ground layer. Appeal 2020-001324 Application 15/621,966 3 REFERENCES The prior art relied upon by the Examiner is: Name Reference Date Griffin US 2011/0248916 A1 Oct. 13, 2011 Lynn US 2013/0141365 A1 June 6, 2013 Kim US 2017/0185194 A1 June 29, 2017 Ham US 2017/0192560 A1 July 6, 2017 Tanemura US 2017/0255295 A1 Sept. 7, 2017 REJECTIONS The Examiner rejects claims 24, 29–32, 35, 36, 39, 42–48, and 50 under 35 U.S.C. § 103 as being unpatentable over Ham and Kim. Final Act. 3–14.2 The Examiner rejects claims 26, 27, 37, 38, 41, and 49 under 35 U.S.C. § 103 as being unpatentable over Ham, Kim, and Lynn. Id. at 14–18. The Examiner rejects claim 33 under 35 U.S.C. § 103 as being unpatentable over Ham, Kim, and Tanemura. Id. at 18–19. The Examiner rejects claim 34 under 35 U.S.C. § 103 as being unpatentable over Ham, Kim, and Griffin.3 Id. at 19–20. OPINION Improper Combination Appellant contends the Examiner improperly combined Ham and Kim to find that the combination teaches both “detect[ing], using the array of 2 The Examiner includes claim 33 in the heading of this rejection, but claim 33 is analyzed in the later rejection over Ham, Kim, and Tanemura. Final Act. 3, 18–19. We consider this a harmless typographical error. 3 The Examiner’s Final Action refers to U.S. 2011/0248916 A1 as “Griffen et al.” The first-named inventor of U.S. 2011/0248916 A1 is, however, listed as “Griffin.” We consider this a harmless typographical error. Appeal 2020-001324 Application 15/621,966 4 electrodes of the sensing layer, a change in capacitance caused by a touch” and “detect[ing], using the array of electrodes of the sensing layer, a change in electrical potential between the sensing layer and the ground layer caused by compression of the piezoelectric substrate in response to the touch,” as recited in claim 24 and similarly recited in claims 35 and 39. Appeal Br. 7– 9; Reply Br. 3–5. Specifically, Appellant argues “Ham teaches away from including a sensor layer to detect both touch location and compression changes of a piezoelectric substrate.” Appeal Br. 9; Reply Br. 5. Appellant further argues “incorporating the common electrode blocks of Kim into any other portion of the display device in Ham would either impermissibly change the principle of operation of Ham by requiring substantial reconstruction and redesign of the display device or rendering the device in the Ham reference unfit for its intended purpose.” Appeal Br. 9–10; Reply Br. 5. We are not persuaded. The Examiner finds, and we agree, Ham teaches “detect[ing], using the array of electrodes of the sensing layer, a change in capacitance caused by a touch,” a “ground layer,” and a “piezoelectric substrate” positioned between the sensing layer and the ground layer. Final Act. 4; Ans. 4–5. In particular, the Examiner relies on Figures 1 and 2 of Ham, and the Figures’ associated descriptions, to disclose a display device which teaches the claimed layers in the claimed configuration. Final Act. 4; Ans. 4–5. Figure 2 of Ham is reproduced below. Appeal 2020-001324 Application 15/621,966 5 Figure 2 shows a cross-sectional view of Ham’s display device 100, including display panel 120, touch sensitive element 130, shielding layer 140, and touch sensor 160. Ham ¶¶ 35, 49. As the Examiner points out (Final Act. 4; Ans. 4–5), “touch sensor 160 may be a mutual capacitance type touch sensor” (Ham ¶¶ 49, 61, Fig. 1), i.e., a “sensing layer.” Ham details that touch sensor 160 includes “sensing electrodes” configured so that “[w]hen the user performs a touch input by using a finger . . . touch capacitance is formed between the finger of the user and the sensing electrode” (id.), i.e., Ham “detect[s] . . . a change in capacitance caused by a touch.” Below touch sensor 160, Ham describes “an electroactive layer 133” which “may be made of a dielectric elastomer . . . or a piezo ceramic element” (id. ¶ 63), i.e., a “piezoelectric substrate.” And, “disposed on . . . the bottom surface of the electroactive layer 133” are electrodes 132 (id.), in which “one of the plurality of second electrodes 132” is a “grounded second electrode 132” (id. ¶ 71), i.e., a “ground layer.” We also agree with the Examiner’s finding that Kim teaches “detect[ing] . . . a change in electrical potential . . . caused by compression of Appeal 2020-001324 Application 15/621,966 6 the piezoelectric substrate in response to the touch.” Final Act. 5; Ans. 5–6. As the Examiner points out (Final Act. 5; Ans. 5–6), Kim discloses a touch sensitive display in which “common electrode blocks and the common signal lines SL may be used in measuring amount of touch pressure on the screen, generating vibration on the screen or actuating electro-active materials in the panel” (Kim ¶ 288; see id. ¶ 55). Specifically, Kim’s “common electrode blocks” are “loaded with voltage signals to measure electrical changes caused by the deformation of [a] deformable material,” in order to “measure the amount of pressure on the display panel PNL in addition to the location of the touch inputs” (id. ¶ 289), and, accordingly, “detect . . . a change in electrical potential . . . caused by compression of the piezoelectric substrate in response to the touch.” “[E]xamples of such deformable materials include piezo ceramic, electro-active-polymer and the like.” Id. The Examiner explains that the proffered combination of Ham and Kim uses “the same sensing array” in the “existing electrode arrangements” taught by Ham to “perform[] both the touch location and touch pressure amount functions” taught by Kim. Ans. 6; Final Act. 5–6. The Examiner determines that a skilled artisan would have been motivated to make such a combination in order to provide “a better application of haptic responses” and to “enhance[]” Ham’s touch screen with an “additional capability.” Final Act. 6 (citing Kim ¶¶ 55, 288–289); Ans. 6. Appellant’s argument that “Ham teaches away from including a sensor layer to detect both touch location and compression changes of a piezoelectric substrate” is unpersuasive. Appeal Br. 9; Reply Br. 5. First, to teach away, a reference must “criticize, discredit, or otherwise discourage the solution.” In re Fulton, 391 F.3d 1195, 1201 (Fed. Cir. 2004). Appeal 2020-001324 Application 15/621,966 7 Appellant has not shown where Ham criticizes, discredits, or otherwise discourages detecting compression, i.e., the amount of force or pressure applied by a user’s touch, on a touch screen device. As such, we are not persuaded Ham teaches away from the Examiner’s proffered combination. Moreover, Appellant’s argument (see Reply Br. 4–5; see also Appeal Br. 7–9) is unpersuasive because that argument is premised on Appellant’s mere assertion, without supporting evidence or persuasive explanation, that Ham’s shielding layer 140 would block the detection of a change in electrical potential between Ham’s sensing layer electrodes and ground layer electrode when Ham’s piezoelectric substrate is compressed. In re Pearson, 494 F.2d 1399, 1405 (CCPA 1974) (Attorney argument cannot which “cannot take the place of evidence.”). Ham discloses that “electrical noise generated by the touch sensitive element 130 may be removed by the shielding layer 140 disposed between the touch sensitive element 130 and the display panel 120.” Ham ¶ 92 (emphasis added); see id. ¶¶ 89–95. Ham further details that it “remov[es] the noise generated by the high driving voltage of the touch sensitive element 130,” i.e., noise generated due to applied voltage causing haptic feedback. Ham ¶¶ 9, 75 (emphasis added). From those disclosures, Appellant asserts that blocking electrical noise due to a high driving voltage would block detection of changes in electrical potential due to compression of a piezoelectric substrate. See Appeal Br. 7– 9; see also Reply Br. 3–5. However, Appellant offers no evidence or persuasive explanation as to why the type of electrical noise blocking described by Ham’s shielding layer would also block the detection of Appeal 2020-001324 Application 15/621,966 8 electrical potential.4 And, the Examiner points out that a high driving voltage for haptic feedback “is a different operation from a sensing operation designed to detect touch location and pressure amount.” Ans. 6–7 (emphasis added). Again, Appellant offers no evidence or persuasive explanation supporting its allegation that a shielding layer which blocks noise generated due to applied high driving voltages during haptic feedback would also block a different function and operation, i.e., detecting changes in electrical potential due to compression during touch detection. As such, on the record before us, Appellant has not supported its argument with evidence, and therefore, we are not persuaded the Examiner erred. Additionally, Appellant’s further argument that the combination of Ham and Kim “would either impermissibly change the principle of operation of Ham by requiring substantial reconstruction and redesign of the display device or rendering the device in the Ham reference unfit for its intended purpose” (Appeal Br. 9–10; Reply Br. 5) does not address the Examiner’s proffered combination. Appellant’s argument is premised on the “replacement of the common electrodes 122 of the display panel 120 of Ham with the common electrode blocks of the display panel of Kim,” or other hypothetical rearrangements to Ham’s device. Appeal Br. 9–10. However, the Examiner’s combination does not replace Ham’s components with Kim’s or rearrange Ham’s components in the manner Appellant suggests. Instead, the Examiner describes “using the same sensing array” described by Ham to perform features described by Kim. Ans. 6. As such, Appellant’s argument 4 We note that Ham states that its shielding layer may “omit[] the requirement for of insulating layer 141.” Ham ¶ 75. Appeal 2020-001324 Application 15/621,966 9 fails to persuasively address the Examiner’s combination and instead addresses modifications the combination does not require. Accordingly, we are not persuaded the Examiner erred by improperly combining Ham and Kim. “between the sensing layer and the ground layer” Appellant contends the Examiner erred in finding Kim, or the combination of Ham and Kim, teaches “detect[ing], using the array of electrodes of the sensing layer, a change in electrical potential between the sensing layer and the ground layer caused by compression of the piezoelectric substrate in response to the touch,” as recited in claim 24 and similarly recited in claims 35 and 39. Appeal Br. 9. Specifically, Appellant argues “neither Kim nor Ham include a ground layer in the display panel.” Id. Appellant further argues “there is no teaching or suggestion in Kim of detecting a change in electrical potential between a sensing layer and a ground layer caused by compression of a piezoelectric substrate.” Id. We are not persuaded. As discussed above, we agree with the Examiner’s finding (Final Act. 4) that Ham teaches a “ground layer” for a display panel because Ham discloses that “one of the plurality of second electrodes 132,” which are “disposed on . . . the bottom surface of the electroactive layer 133,” “is a “grounded second electrode 132” (Ham ¶¶ 63, 71, Figs. 1–2). Accordingly, Appellant’s argument that neither reference teaches a “ground layer” (Appeal Br. 9) is unpersuasive. Further, Appellant’s argument that Kim does not teach detecting a change in electrical potential “between a sensing layer and a ground layer” (id.) inappropriately attacks Kim individually when the Examiner finds the combination of Ham and Kim teaches the disputed limitations. In re Keller, Appeal 2020-001324 Application 15/621,966 10 642 F.2d 413, 426 (CCPA 1981). As discussed above, the Examiner relies on Ham to teach a piezoelectric substrate between a sensing layer and a ground layer and on Kim to teach detecting changes in electrical potential when a piezoelectric substrate is compressed. Ans. 5; Final Act. 5–6. Because the Examiner relies on the combination of Ham and Kim’s teachings to teach the disputed limitations, but Appellant’s argument addresses only Kim, we are not persuaded the Examiner erred. As such, we are not persuaded the Examiner erred in finding the combination of Ham and Kim teaches “detect[ing], using the array of electrodes of the sensing layer, a change in electrical potential between the sensing layer and the ground layer caused by compression of the piezoelectric substrate in response to the touch,” as recited in claim 24 and similarly recited in claims 35 and 39. Appellant does not argue separate patentability for dependent claims 26, 27, 29–34, 36–38, and 41–50, which depend directly or indirectly from claims 24, 35, and 39. See Appeal Br. 10. Accordingly, for the reasons set forth above, we sustain the Examiner’s obviousness rejections of claims 24, 26, 27, 29–39, and 41–50. CONCLUSION In summary: Claim(s) Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 24, 29–32, 35, 36, 39, 42–48, 50 103 Ham, Kim 24, 29–32, 35, 36, 39, 42–48, 50 26, 27, 37, 38, 41, 49 103 Ham, Kim, Lynn 26, 27, 37, 38, 41, 49 33 103 Ham, Kim, Tanemura 33 34 103 Ham, Kim, Griffin 34 Appeal 2020-001324 Application 15/621,966 11 Overall Outcome 24, 26, 27, 29–39, 41– 50 TIME PERIOD FOR RESPONSE 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) (2019). AFFIRMED