14015121 (P.T.A.B. Dec. 11, 2017)

Ex Parte Nebendahl

Patent Trial and Appeal BoardDec 11, 2017

14015121 (P.T.A.B. Dec. 11, 2017)

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. 14/015,121 08/30/2013 Bernd Nebendahl 20130171-01 8071 126149 7590 Key sight Technologies, Inc. C/O CPA Global 900 Second Avenue South Suite 600 Minneapolis, MN 55402 EXAMINER SHALABY, MINAM ART UNIT PAPER NUMBER 2636 NOTIFICATION DATE DELIVERY MODE 12/18/2017 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): key sightdocketing @ cpaglobal. com notice, legal @key sight, com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte BERND NEBENDAHL Appeal 2017-0069151 Application 14/015,121 Technology Center 2600 Before DENISE M. POTHIER, LARRY J. HUME, and JOHN P. PINKERTON, Administrative Patent Judges. POTHIER, Administrative Patent Judge. DECISION ON APPEAL 1 Throughout this opinion, we refer to (1) the Final Action (Final Act.) mailed June 22, 2016, (2) the Appeal Brief (App. Br.) filed November 7, 2016, (3) the Examiner’s Answer (Ans.) mailed January 26, 2017, and (4) the Reply Brief (Reply Br.) filed March 27, 2017. Appeal 2017-006915 Application 14/015,121 STATEMENT OF THE CASE Appellant2 appeals under 35 U.S.C. § 134(a) from the Examiner’s rejection of claims 1—4, 9, 14, 17-25, 27, and 28. App. Br. 4. Claims 5-8, 10-13, 15, 16, and 26 have been withdrawn from consideration. Reply Br. 2. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. Invention Appellant’s claimed invention relates to overcoming problems with measuring optical signals and decoding, such as challenges with (1) component bandwidth used to decode optical signals or (2) the ability to decode at relatively high rates due to component speed or expense. See Spec, im 1-5. Claims 1 and 18 are reproduced below with emphasis added to contested limitations: 1. A method of processing an optical input signal, comprising: transmitting the optical input signal through first and second signal paths; mixing the optical input signal with first and second local oscillator (LO) signals in the respective first and second signal paths to produce first and second electrical signals corresponding to different portions of a frequency spectrum of the optical input signal, the first and second electrical LO signals having a discernible phase relationship; and combining the first and second electrical signals to produce a coherent time-domain output signal. 2 The real party of interest is identified as Key sight Technologies, Incorporated. App. Br. 3. 2 Appeal 2017-006915 Application 14/015,121 18. A system configured to process an optical input signal, comprising: first and second signal paths configured to receive the optical input signal; first and second phase-quadrature (IQ) hybrids disposed in the respective first and second signal paths and configured to combine the optical input signal with respective first and second local oscillator (LO) signals to produce first and second signals, the first and second LO signals having a discernible phase relationship; first and second photodetectors (PDs) configured to convert the first and second signals into corresponding first and second down-converted electrical signals corresponding to different portions of a frequency spectrum of the optical input signal, respectively; a plurality of analog to digital converters configured to digitize the first and second down-converted electrical signals; and a stitching unit configured to combine the first and second digitized electrical signals to produce a coherent time- domain output signal. The Examiner relies on the following as evidence of unpatentability: US 2009/0067843 A1 Mar. 12, 2009 US 2012/0177383 A1 July 12, 2012 US 2013/0216239 A1 Aug. 22, 2013 Way Tanimura Zhang The Rejections Claims 1—4, 9, 14, 17-25, 27, and 28 are rejected under 35 U.S.C. § 112(b) as being indefinite. Ans. 2. Claims 1 and 18 are rejected under 35 U.S.C. § 102(a)(1) as anticipated by Tanimura. Ans. 3—4. Claims 2, 14, 17, 19-23, 27, and 28 are rejected under 35 U.S.C. § 103 as unpatentable over Tanimura and Zhang. Ans. 4-7. 3 Appeal 2017-006915 Application 14/015,121 Claims 3, 4, 9, 24, and 25 are rejected under 35 U.S.C. § 103 as unpatentable over Tanimura, Zhang, and Way. Ans. 7-9. THE INDEFINITENESS REJECTION Regarding independent claims 1 and 18, the Examiner finds the recitation “discernible phase relationship” is vague because the phrase does not identify the specific phase relationship and thus, the claimed phrase does not clearly identify what phase relationship is discernible. Ans. 2. The Examiner further contends the term “discernible” is a relative term, the Specification does not provide a standard for this term, and one skilled in the art would not have been apprised reasonably of the term’s scope. Id. at 10. Appellant argues the phrase is definite. App. Br. 4-5. In the Reply Brief, Appellant contends the term is defined in the Specification. Reply Br. 4-5. ISSUE Under § 112(b), has the Examiner erred in concluding the phrase “a discernible phase relationship” in independent claims 1 and 18 is indefinite? ANALYSIS Given the record, we agree that the term “discernible phase relationship” has been defined. As noted by Appellant, the Specification states: As used herein, the term ‘discernible phase relationship’ denotes a relationship that allows the coherent baseband signal to be reconstructed with proper phase alignment. As indicated by examples shown in FIGS. 3 and 4, the discernible phase relationship is typically established or maintained by either generating the two LO signals from a single laser source and processing those signals in ways that preserve the phase 4 Appeal 2017-006915 Application 14/015,121 relationship (FIG. 3), or by generating the LO signals with different lasers and measuring their phase relationship (FIG. 4). Spec. ^ 32, quoted in Reply Br. 4. As such, when construing the phrase “first and second electrical LO signals having a discernible phase relationship” in light of the disclosure, an ordinarily skilled artisan would have reasonably understood the phrase to mean the first and second electrical LO signals have a relationship that allows the coherent baseband signal to be reconstructed with proper phase alignment. The disclosure also provides examples to one skilled in the art of how this relationship can be established. See Spec. 26-29 (discussing two approaches used during reconstruction), 32 (discussing two examples of how the discernible phase relationship is established). Appellant appears to have changed positions regarding the meaning of the recited phrase “discernible phase relationship” between the Appeal Brief and the Reply Brief. Compare App. Br. 5 (stating “Appellant’s recited first and second LO signals inherently have a phase relationship relative to one another”) with Reply Br. 4 (stating the term is defined to mean “a relationship that allows the coherent baseband signal to be reconstructed with proper phase alignment”). These differing positions by Appellant would generally illustrate that the precise scope of the recitation “discernible phase relationship” is not clear. However, as noted above, the newly identified passage provides a definition of the disputed phrase, and the disclosure provides examples for the ordinarily skilled artisan of how the recited phase relationship is established, such that the ordinary artisan is reasonably apprised of the disputed limitation’s scope. 5 Appeal 2017-006915 Application 14/015,121 On the record, we thus determine the phrase “discernible phase relationship” points out and distinctly claims the claimed invention when considered by one skilled in the art in light of the disclosure. Appellant therefore has persuaded us of error in the rejection of (1) independent claim 1, (2) independent claim 18, which recites a commensurate limitation, and (3) dependent claims 2—4, 9, 14, 17, 19-25, 27, and 28 for similar reasons. THE ANTICIPATION REJECTION OVER TANIMURA Regarding representative claim 18,3 the Examiner finds Tanimura teaches “first and second phase-quadrature (IQ) hybrids . . . configured to combine the optical input signal with respective first and second local oscillator (LO) signals . . ., the first and second LO signals having a discernible phase relationship.” Ans. 3 (citing Tanimura]} 44, Fig. 6). Appellant argues Tanimura does not describe the relative phase of signals 26a and 26b or that their phases are discernible. App. Br. 6 (citing Tanimura ]}]} 42 43). Specifically, Appellant contests the Examiner’s “putative finding of fact” {id. at 7) that Tanimura determines the phase difference between the LO signals generated by lasers 22a,b. Id. at 6-7 (citing a December 14, 2015 Office Action, stating “the phase difference between the two signals are [sic] determined” and referring to Tanimura’s paragraphs 57-63). Rather, Appellant asserts the phase of the signal component of partial bands 29a and 29b is adjusted to create synchronization between the phases. Id. at 7-9 (citing Tanimura ]}]} 44, 57-63). 3 Appellant argues claims 1 and 18 collectively. App. Br. 5-9. We select independent claim 18 as representative. 37 C.F.R. § 41.37(c)(l)(iv). 6 Appeal 2017-006915 Application 14/015,121 ISSUE Under § 102, has the Examiner erred in rejecting claim 18 by finding that Tanimura discloses “first and second phase-quadrature (IQ) hybrids . . . configured to combine the optical input signal with respective first and second local oscillator (LO) signals . . ., the first and second LO signals having a discernible phase relationship”? ANALYSIS Under the above claim construction, the recitation “the first and second LO signals having a discernible phase relationship” means the first and second electrical LO signals have a relationship that allows the coherent baseband signal be reconstructed with proper phase alignment. Additionally, we note the discussion of approaches or examples for establishing the recited relationship in the disclosure (see Spec. 26-29, 32) are non-limiting. With that interpretation in mind, we turn to Tanimura. The rejection relies on Tanimura’s paragraph 44 and figure 6 to disclose “first and second phase-quadrature (IQ) hybrids . . . configured to combine the optical input signal with respective first and second local oscillator (LO) signals . . ., the first and second LO signals having a discernible phase relationship.” Ans. 3 (citing Tanimura ^ 44, Tig. 6). Tanimura discusses local oscillation light 26a (e.g., a first LO signal) is inputted into hybrid circuit 23a and circuit 23a has a phase shifter that shifts the phase of light 26a by 90 degrees. Tanimura ^ 44, Tig. 6. Given that circuit 23a can shift the phase of local oscillation light 26a (e.g., a signal), Tanimura also teaches the LO signal’s phase is perceptible and thus 7 Appeal 2017-006915 Application 14/015,121 discernible.4 Although Tanimura does not discuss circuit 23b also shifting local oscillator light 26b’s (e.g., a second LO signal) phase, we further determine that its signal’s phase would be equally discernible to a circuit just as LO light 26a is. See id. Thus, Tanimura discloses signals 26a and b have discernible or perceptible phases. And because their phases are discernible, Tanimura’s LO signals have a relationship that allows a coherent baseband signal to be reconstructed with proper phase alignment (i.e., have “a discernible phase relationship” as recited). Appellant does not dispute Tanimura’s teachings in paragraph 44. See App. Br. 6. Admittedly, Appellant cites paragraph 44. Id. at 7. But, the related discussion of this paragraph by Appellant does match Tanimura’s text. Compare id. (discussing processor 5 performing frequency and phase compensation on bands 29a and b that frequency converted using a reference signal) with Tanimura ^ 44 (as previously discussed). Moreover, to the extent Appellant has not abandoned its position that each of two LO signal is characterized by a frequency, each of the two frequencies has a phase relationship relative to the other frequency that identifies a phase difference in the range of 0 to 360 degrees, and these LO signals inherently have a phase relationship identifying a phase difference between the signals (App. Br. 5), we further agree with the Examiner that Tanimura “satisfies the argued claim limitation.” Ans. 12. Tanimura even further states phase compensator 33 can be used to compensate for any phase error of local oscillation lights 26a and b and 4 The Examiner provided a definition of “discernible” that includes perceptible. Ans. 10 (citing Oxford Dictionary). Appellant has not disputed this definition. See generally Reply Br. 8 Appeal 2017-006915 Application 14/015,121 assists in signal synchronization. Tanimura ^ 62, 67. This further discloses Tanimura’s LO lights (e.g., first and second LO signals) have an established relationship that allows the coherent baseband signal be reconstructed with proper phase alignment. See id. Granted, partial bands 29a and b are being used in this compensation. See id. Even so, these passages teach the phase error in signals 26a and b is known and thus, the signals’ phases are perceptible, such that the two signals allow a coherent baseband signal to be reconstructed with proper phase alignment (i.e., have “a discernible phase relationship”). See id. Lastly, we agree with the Examiner that claim 18 does not recite determining the phase difference between the first and second LO signals. Ans. 12. As such, the arguments related to a “putative finding of fact” in this regard (see App. Br. 6-9) are not dispositive concerning whether Tanimura discloses the disputed “first and second LO signals having a discernible phase relationship” in claim 18. Lor the foregoing reasons, Appellant has not persuaded us of error in the rejection of independent claim 18 and claim 1, which is not separately argued. THE OBVIOUSNESS REJECTIONS For the remaining rejections, Appellant does not present a separate argument, relying on the previous discussion concerning independent claims 1 and 18. App. Br. 9-10. For the above-stated reasons, we are not persuaded the Examiner erred. Accordingly, we sustain the rejections of claims 2—4, 14, 17, 19-25, 27, and 28. 9 Appeal 2017-006915 Application 14/015,121 DECISION We affirm the Examiner’s rejection of claims 1—4, 9, 14, 17-25, 27, and 28 under §§ 102 or 103. We reverse the Examiner’s rejection of claims 1—4, 9, 14, 17-25, 27, and 28 under § 112(b). No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(l)(iv). See 37 C.F.R. § 41.50(f). AFFIRMED 10