12712758 (P.T.A.B. Jun. 23, 2016)

Ex Parte Benjamin et al

Patent Trial and Appeal BoardJun 23, 2016

12712758 (P.T.A.B. Jun. 23, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 121712,758 02/25/2010 115615 7590 06/27/2016 W&T/Corning 106 Pinedale Springs Way Cary, NC 27511 FIRST NAMED INVENTOR Seldon D. Benjamin 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 ATTORNEY DOCKET NO. CONFIRMATION NO. HI09-l 12 3348 EXAMINER KING, JOSHUA ART UNIT PAPER NUMBER 2828 NOTIFICATION DATE DELIVERY MODE 06/27/2016 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): patents@wt-ip.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte SELDON D. BENJAMIN, DAVIDE D. FORTUSINI, ANTHONY NG'OMA, and MICHAEL SAUER Appeal2014-009614 Application 12/712,758 Technology Center 2800 Before JEFFREY S. SMITH, BRUCE R. WINSOR, and MICHAEL M. BARRY, Administrative Patent Judges. WINSOR, Administrative Patent Judge. DECISION ON APPEAL Appellants 1 appeal under 35 U.S.C. Â§ 134(a) from the final rejection of claims 1-7, 9, 13, and 21, which constitute all the claims pending in this application. We have jurisdiction under 35 U.S.C. Â§ 6(b). Claims 8, 10-12, 14--20, and 22-24 are cancelled. (App. Br. 22, 23 (Claims App'x).) We affirm. 1 The real party in interest identified by Appellants is Coming Cable Systems LLC. (App. Br. 2.) Appeal2014-009614 Application 12/712,758 STATEMENT OF THE CASE Appellants' disclosed invention "relates to optical transmission devices, and more particularly to optically injection-locked [(OIL)] semiconductor laser devices for high speed optical transmission." (Spec. i-f 2.) Claim 1, which is illustrative, reads as follows: 1. An optical transmission device comprising: a master laser configured to generate a master signal; a VCSEL[2] configured for optical injection locking by the master laser, and configured to generate a VCSEL output signal comprising a carrier component and a modulated sideband component; an equalizer unit configured to receive the VCSEL output signal and output an equalized output signal having a reduced ratio of carrier component power to modulated sideband component power in comparison to the VCSEL output signal, such that the equalized output signal has the carrier component power approximately equal to the modulated sideband component power, the equalizer unit comprising a filter; and an amplifier, wherein the filter is located between the VCSEL and the amplifier. The Examiner relies on the following prior art in rejecting the claims: Yang et al. US 6,061,161 May 9, 2000 (hereinafter "Yang") Sasai et al. US 6,459,519 Bl Oct. 1, 2002 (hereinafter "Sasai") Roberts et al. US 2004/0208643 Al Oct. 21, 2004 (hereinafter "Roberts") Lukas Chrostowski, Optical Injection Locking of Vertical Cavity Surface Emitting Lasers (2003) (Ph.D. dissertation, University of California at Berkley) (hereinafter "Chrostowski"). 2 Vertical-Cavity Surface-Emitting Laser. (Spec. i-f 2.) 2 Appeal2014-009614 Application 12/712,758 Jianjun Yu et al., A Novel Scheme to Generate Single-Sideband Millimeter-Wave Signals by Using Low-Frequency Local Oscillator Signal, 20 IEEE PHOTONICS LETTERS 478 (2008) (hereinafter "Yu"). Claims 1, 2, and 7 stand rejected under 35 U.S.C. Â§ 103(a) as being unpatentable over Chrostowski and Yu. (See Final Act. 3---6.) Claims 3, 9, 13, and 21 stand rejected under 35 U.S.C. Â§ 103(a) as being unpatentable over Chrostowski, Yu, and Roberts. (See Final Act. 6- 12.) Claim 4 stands rejected under 35 U.S.C. Â§ 103(a) as being unpatentable over Chrostowski, Yu, and Sasai. (See Final Act. 12-13.) Claims 5 and 6 stand rejected under 35 U.S.C. Â§ 103(a) as being unpatentable over Chrostowski, Yu, Sasai, and Yang. (See Final Act. 13- 15.) Rather than repeat the arguments here, we refer to the Briefs ("App. Br." filed Oct. 28, 2013, "App. Br. Rev." filed Feb. 12, 2014; "Reply Br." filed Sept. 8, 2014) and the Specification ("Spec." filed Feb. 25, 2010) for the positions of Appellants and the Final Office Action ("Final Act." mailed May 24, 2013) and Answer ("Ans." mailed July 7, 2014) for the reasoning, findings, and conclusions of the Examiner. Only those arguments actually made by Appellants have been considered in this decision. Arguments that Appellants did not make in the Briefs have not been considered and are deemed to be waived. See 37 C.F.R. Â§ 41.37(c)(l)(iv) (2013). 3 Appeal2014-009614 Application 12/712,758 ISSUES The issues presented by Appellants' contentions are as follows: Whether the Examiner errs in finding the combination of Chrostowski and Yu teaches or suggests: an equalizer unit configured to receive the VCSEL output signal and output an equalized output signal having a reduced ratio of carrier component power to modulated sideband component power in comparison to the VCSEL output signal, such that the equalized output signal has the carrier component power approximately equal to the modulated sideband component power, the equalizer unit comprising a filter; and an amplifier, wherein the filter is located between the VCSEL and the amplifier[,] as recited in claim 1. Whether the Examiner errs in finding the combination of Chrostowski, Yu, and Roberts teaches or suggests "amplifying the equalized output signal with an optical amplifier," as recited in claim 13. Whether the Examiner errs in finding the combination of Chrostowski, Yu, and Roberts teaches or suggests "routing the VCSEL output signal to the optical amplifier in the equalizer unit, wherein the optical amplifier is configured to provide a wavelength-dependent optical gain or a wavelength dependent optical loss" and "amplifying the modulated sideband component or attenuating the carrier component in the optical amplifier to form the equalized output signal," as recited in claim 21. Whether the Examiner errs in finding the combination of Chrostowski, Yu, and Sasai teaches or suggests "the filter comprises a first three-port optical filter, the first three-port optical filter being configured to receive the VCSEL output signal from the VCSEL, separate the carrier component and the modulated sideband component, and separately transmit 4 Appeal2014-009614 Application 12/712,758 the carrier component and the modulated sideband component," as recited in claim 4. Whether the Examiner errs in finding the combination of Chrostowski, Yu, Sasai, and Yang teaches or suggests "a second three-port optical filter or a three-port optical power coupler, wherein the second three- port optical filter or three-port optical power coupler is configured to combine the attenuated carrier component and the modulated sideband component to output the equalized output signal," as recited in claim 5. Whether the Examiner errs in finding the combination of Chrostowski, Yu, Sasai, and Yang teaches or suggests "a second three-port optical filter or a three-port optical power coupler, wherein the second three- port optical filter or three-port optical power coupler is configured to combine the carrier component and the amplified sideband component to output the equalized output signal," as recited in claim 6. ANALYSIS We review the Examiner's findings, conclusions, and explanations (Final Act. 3-15; Ans. 2-10) light of Appellants' arguments and contentions (App. Br. 7-19; Reply Br. 2-12). We agree with the Examiner's findings and explanations, and we adopt them as our own. The following discussion, findings, and conclusions are for emphasis. Claim 1 Appellants contend as follows: Chrostowski' s filter is used to remove/reduce Amplified Spontaneous Emission (ASE) noise, which an EDFA[3] 3 Erbium-doped fiber amplifier. (Chrostowski 1.) 5 Appeal2014-009614 Application I2/7I2,758 amplifier typically adds to the amplified optical signal. Thus, in Chrostowski, the only reason to add a filter would be to remove the ASE noise that the EDF A typically adds, so it would only make sense to add it after the amplifier. There is no reason to add a "spaced tunable filter" like that in Yu because the purpose for adding the "spaced tunable filter" in Yu does not apply to the system of Chrostowski. (App. Br. I4.) We disagree. Both Yu and Chrostowski are directed to optical communication using carriers having modulated sidebands. (See Yu 478 (Abstract); Chrostowski I, 7 (Fig. 5, Â§ 1. I.4).) Yu teaches that "the received sensitivity performance is dependent on the optical CSR[4] with optimum performance occurring at a CSR equal to 0 dB [i.e., when the carrier power is equal to the sideband power (see Ans. 3, n. I)]." (Yu 480 (2nd col.) (emphasis added).) Yu further teaches controlling the CSR using a filter TOPI 5 (Yu 479 (2nd col.}- 80 (1st col.) ("We change the transparent wavelength of the TOPI to obtain different CSR .... ").) We note that the salient question is not whether it would have been obvious to replace Chrostowski' s filter with Yu' s filter - rather the question is whether it would have been obvious to incorporate Yu's filter into Chrostowski' s system, with or without the inclusion of Chrostowski' s filter. One of ordinary skill in the art would have recognized that Yu's technique for optimizing performance by using a filter to adjust CSR so that the carrier component power and sideband component power are approximately equal would have improved Chrostowski' s system in the same way it improves 4 Carrier-to-sideband [power] ratio. (Yu 478 (Abstract).) 5 Tunable optical filter (with appended numbers for distinguishing among multiple TOFs). (Yu 479.) 6 Appeal2014-009614 Application I2/7I2,758 Yu's system. "[l]f a technique has been used to improve one device, and a person of ordinary skill in the art would recognize that it would improve similar devices in the same way, using the technique is obvious unless its actual application is beyond his or her skill." KSR Int'! Co. v. Teleflex Inc., 550 U.S. 398, 4I 7 (2007). Therefore, contrary to Appellants' contention (App. Br. I3), Yu explicitly provides a reason to combine Yu and Chrostowski, i.e., to optimize performance by setting CSR to 0 dB. (See Ans. 3-5.) Furthermore, Yu teaches locating the filter TOPI in the optical communication link before an amplifier EDFA. (Yu 479 (1st col. (Fig. 2)).) For emphasis, we note that there are a finite number of predictable places Yu's filter TOPI could be located in Chrostowski's "experimental setup" to adjust the CSR ratio of Chrostowski's signal: (I) before Chrostowski's amplifier EDFA; and (2) after Chrostowski's amplifier EDFA. (See id.) When there is a design need or market pressure to solve a problem and there are a finite number of identified, predictable solutions, a person of ordinary skill has good reason to pursue the known options within his or her technical grasp. If this leads to the anticipated success, it is likely the product not of innovation but of ordinary skill and common sense. KSR, 550 U.S. at 421. Appellants contend Chrostowski teaches away from the inclusion of a filter because Chrostowski teaches that the filter may, in some circumstances, be unnecessary. (App. Br. I2-I3 (citing Chrostowski 68).) We agree with the Examiner that nothing in Chrostowski identified by Appellants "criticize[s], discredit[s], or otherwise discourage[s]" (In re Fulton, 39I F.3d I I95, I200-0I (Fed. Cir. 2004)), using Yu's filter TOPI in Chrostowski's system to adjust the CSR to 0 dB. (See Ans. 2-3.) 7 Appeal2014-009614 Application I2/7I2,758 Appellants contend the Examiner's stated rational for combination of Yu with Chrostowski is merely "in order to optimize performance of the transmitter." (App. Br. I3.) Appellants argue "this statement of motivation is too general to form an 'articulated reasoning with some rational underpinning to support the legal conclusion of obviousness.'" (Id. (quoting KSR, 550 U.S. at 4I8).) We disagree. The Examiner has articulated the reasoning for combination in far more detail than asserted by Appellants. (Ans. 4--5.) In particular, the Examiner articulated the following reasoning: The advantage [ofYu's filter TOPI] is to obtain optimum performance of the transmitter ([Yu,] Conclusion). Accordingly, it would have been obvious to one of ordinary skill in the art at the time the invention was made to have modified the device disclosed by Chrostowski with the laser output modulated to comprise a carrier component and a modulated sideband component; and configure the equalizer unit to output an equalized output signal having a reduced ratio of carrier component power to modulated sideband component power in comparison to the laser output signal and the filter before the optical amplifier based on the teachings of Yu et al. that the output signal should have a reduced ratio of carrier component power to modulated sideband component power in comparison to the laser output signal, such that the output signal has the carrier component power approximately equal to the modulated sideband component power in order to optimize performance of the transmitter. (Final Act 4--5.) We conclude the Examiner's articulated reasoning is not conclusory. Rather, it is detailed, well-reasoned, and based on rational underpinnings evidenced by the cited references. Appellants contend Yu's filter TOPI is not part of an equalization unit because "the filters in Yu are used to select multiple signals separated by the passband spacing of the filter, and are not used to equalize the CSR." (App. 8 Appeal2014-009614 Application 12/712,758 Br. 14.) We disagree. Yu explicitly teaches "chang[ing] the transparent wavelength of the TOPI to obtain different CSR[s] ... "(Yu 479 (2nd col.}- 80, (1st col.)), and "the received sensitivity performance is dependent on the optical CSR with optimum performance occurring at a CSR equal to 0 dB [i.e., when the carrier power is equal to the sideband power]" (Yu 480 (2nd col.)), i.e., equalization of the carrier power and the sideband power. (See Ans. 7-8.) Therefore, we find Yu teaches an equalizer unit configured to receive [a laser] output signal and output an equalized output signal having a reduced ratio of carrier component power to modulated sideband component power in comparison to the [laser] output signal, such that the equalized output signal has the carrier component power approximately equal to the modulated sideband component power, as recited in claim 1. Appellants contend as follows: The TOPI filter in Yu is tuned so that the carrier wavelength falls somewhere along the slope of the filter, which requires very tight temperature control and wavelength stability to work. In contrast, in the claimed invention, the approach is much simpler - the filter is centered on the modulated sideband such that the "equalized output signal [has] a reduced ratio of carrier component power to modulated sideband component power in comparison to the VCSEL output signal, such that the equalized output signal has the carrier component power approximately equal to the modulated sideband component power." This approach is stable with respect to environmental conditions. Yu does not teach this approach. (App. Br. 15 (brackets in original).) We are not persuaded of error because, as pointed out by the Examiner (Ans. 6-7), Appellants are arguing limitations not found in the claims. 9 Appeal2014-009614 Application 12/712,758 We conclude Appellants do not demonstrate error in the rejection of claim 1. Accordingly, we sustain the rejection over Chrostowski and Yu of claim 1. Appellants contend Roberts does not cure the deficiencies in the teachings of Chrostowski and Yu, but do not otherwise separately argue claims 2, 3, 7, and 9 with particularity. Accordingly we also sustain in the rejections over various combinations of Chrostowski, Yu, and Roberts of claims 2, 3, 7, and 9, which depend from claim 1. Claims 13 and 21 Appellants recite language from claims 13 and 21 and state generally that the claims "define[] over the cited art for at least these reasons." (App. Br. 17; see also Reply Br. 10.) Such a conclusory statement, amounting to no more than quoting the claim language and a general denial of obviousness, is unpersuasive to rebut the prima facie case set forth by the Examiner. Cf 37 C.F.R. Â§ 41.37(c)(l)(iv) ("A statement which merely points out what a claim recites will not be considered an argument for separate patentability of the claim."); see also In re Lovin, 652 F.3d 1349, 1357 (Fed. Cir. 2011) ("[W]e hold that the Board reasonably interpreted Rule 41.37 to require more substantive arguments in an appeal brief than a mere recitation of the claim elements and a naked assertion that the corresponding elements were not found in the prior art."); cf In re Baxter Travenol Labs., 952 F.2d 388, 391 (Fed. Cir. 1991) ("It is not the function of this court to examine the claims in greater detail than argued by an appellant, looking for [patentable] distinctions over the prior art."). Appellants further contend "[c]laims 13 and 21 also specifically recite that the filter is placed before the optical amplifier. Claims 13 and 21 thus define over the cited art for at least the reasons set forth above [regarding 10 Appeal2014-009614 Application 12/712,758 claim 1]." (App. Br. 17.) We conclude Appellants do not demonstrate error in the rejection of claims 13 and 21 for the same reasons as discussed supra regarding claim 1. For the foregoing reasons, we sustain the rejection of claims 13 and 21. Claim 4 Appellants contend Sasai does not cure the deficiencies in the teachings of Chrostowski and Yu. (App. Br. 17.) We find this contention unpersuasive of error for the reasons discussed supra regarding claim 1. Appellants further contend the Examiner "does not point [to] a specific element in Sasai that allegedly corresponds to the claimed 'first three-port optical filter' and to the claimed 'first optical circulator."' (App. Br. 18.) Appellants additionally contend as follows: [T]here is no indication in Figure 9 of Sasai or the accompanying text that discloses a first three-port optical filter that is configured to perform each of the follo\'l1ing fi.1nctions: "receive the VCSEL output signal from the VCSEL"; "separate the carrier component and the modulated sideband component," and "separately transmit the carrier component and the modulated sideband component" (emphasis added). (App. Br. 18.) We disagree. As to the recited "first optical circulator," Appellants' contention is unpersuasive because it is not commensurate with the Examiner's rejection, which relies on Chrostowski, not Sasai, to teach the first optical circulator. (See Final Act. 12 (citing Chrostowski 69 (Fig. 62)); accord Ans. 8.) See In re Keller, 642 F.2d413, 426(CCPA1981) ("[O]ne cannot shownon- obviousness by attacking references individually where, as here, the rejections are based on combinations of references."). 11 Appeal2014-009614 Application 12/712,758 As to the recited "first three-port optical filter," the Examiner points to optical filter portion 710 illustrated in Sasai's figure 9 (see Final Act. 12- 13; Ans. 9) and described as follows: The optical filter portion 710 outputs the component of the lower sideband divided to the first optical fiber 140-1 as a first optical signal OS1, while outputting the components of the upper sideband and the main carrier divided to the second optical fiber 140-2 as a second optical signal OS2 . . . . In FIG. 9, the optical filter portion 710 comprises an optical circulator portion 910 having terminals 1, 2 and 3 and an optical fiber grating portion 920. The terminals 1, 2 and 3 are connected to the external optical modulating portion 120, the optical fiber grating portion 920, and the optical fiber 140-1. (Sasai, col. 26, 1. 57---col. 27, 1. 3 (emphasis omitted).) Thus, Sasai teaches "a first three-port optical filter," i.e., optical filter portion 710, "being configured to receive ... [a] signal," i.e., OSdmod, and "separate the carrier component," i.e., OS2, "and the modulated sideband component," i.e., OS1, "and separately transmit the carrier component and the modulated sideband component," as recited in claim 1. We note that the received signal to be processed by the filter is an output signal from a VCSEL is taught by Chrostowski and Yu. (See discussion of claim 1 supra.) We conclude Appellants do not demonstrate error in the rejection of claim 4. For the foregoing reasons, we are constrained by this record to sustain the rejection over Chrostowski, Yu, and Sasai of claim 4. Claims 5 and 6 Appellants contend Yang does not cure the deficiencies in the teachings of Chrostowski, Yu, and Sasai (App. Br. 18.) We find this 12 Appeal2014-009614 Application 12/712,758 contention unpersuasive of error for the reasons discussed supra regarding claims 1 and 4. Appellants further contend the filter in Yang is not a "three-port optical filter." Thus, the combination of Chrostowski, Yu, Sasai, and Yang fails to teach or suggest "a second three-port optical filter ... wherein the second three-port optical filter ... is configured to combine the attenuated carrier component and the modulated sideband component to output the equalized output signal" (emphasis added). (App. Br. 19 (ellipses in original).) Appellants' contention is unpersuasive because it fails to address the claim limitations as they are recited claims 5 and 6. Each of claims 5 and 6 recites "a second three-port optical filter or a three-port optical power coupler" (emphases added). That is to say, the claim recites an optical filter and an optical coupler in the alternative. Appellants proffer no evidence or argument to demonstrate that Yang's second directional coupler 130 does not teach or suggest a three-port optical power coupler as recited in claims 5 and 6. We conclude Appellants do not demonstrate error in the rejection of claims 5 and 6. For the foregoing reasons, we are constrained by this record to sustain the rejection over Chrostowski, Yu, Sasai, and Yang of claims 5 and 6. DECISION The decision of the Examiner to reject claims 1-7, 9, 13, and 21 is affirmed. 13 Appeal2014-009614 Application 12/712,758 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a)(l). See 37 C.F.R. Â§ 1.136(a)(l)(iv) (2013). AFFIRMED 14