12050876 (P.T.A.B. Feb. 25, 2014)

Ex Parte Tatapudi et al

Patent Trial and Appeal BoardFeb 25, 2014

12050876 (P.T.A.B. Feb. 25, 2014)

UNITED STATES PATENT AND TRADEMARKOFFICE 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. 12/050,876 03/18/2008 Suryanarayana B. Tatapudi MICS:0258/MAN/DRY 9479 52142 7590 02/25/2014 FLETCHER YODER (MICRON TECHNOLOGY, INC.) P.O. BOX 692289 HOUSTON, TX 77269-2289 EXAMINER ROJAS, DANIEL E ART UNIT PAPER NUMBER 2842 MAIL DATE DELIVERY MODE 02/25/2014 PAPER 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. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte SURYANARAYANA B. TATAPUDI and JEFFREY P. WRIGHT ____________ Appeal 2011-011372 Application 12/050,876 Technology Center 2800 ____________ Before TERRY J. OWENS, ROMULO H. DELMENDO, and MICHAEL P. COLAIANNI, Administrative Patent Judges. DELMENDO, Administrative Patent Judge DECISION ON APPEAL The Appellants1 seek our review of a final rejection of claims 1-25. We have jurisdiction under 35 U.S.C. §§ 6(b) and 134(a). We reverse. 1 The Appellants identify the real party in interest as “Micron Technology, Inc.” Appeal Brief filed September 27, 2010 (“App. Br.”) 2. Appeal 2011-011372 Application 12/050,876 2 BACKGROUND The invention relates to memory devices and sub-systems of such devices. Specification (“Spec.”) ¶ 1. Representative claim 1 is reproduced below: 1. An output driver, comprising: a driver stage, wherein the driver stage can be configured to one of a plurality of output impedances; and a pre-driver circuit coupled the driver stage, wherein the pre-driver circuit can be configured based at least partially on the output impedance. App. Br. 25 (Claims App’x). The Examiner rejected the claims as follows: I. Claims 1-10 and 12-25 under 35 U.S.C. § 102(b) as anticipated by Rho (U.S. Patent Application Publication 2008/0303558 A1 published December 11, 2008); and II. Claim 11 under 35 U.S.C. § 103(a) as unpatentable over Rho. DISCUSSION I. Claims 1-6 & 13-25: Independent claim 1, reproduced above, recites that “the pre-driver circuit can be configured based at least partially on the output impedance.” Independent claim 13, which is directed to a method of operating a memory Appeal 2011-011372 Application 12/050,876 3 device, recites a step of “configuring a pre-driver based at least partially on the determined output driver strength.” App. Br. 27. The Examiner found that Rho describes these claim limitations. Ans. 3-4, 6. The Appellants contend that the Examiner’s findings regarding these claim limitations are erroneous. App. Br. 10-13. We agree with the Appellants that the Examiner’s findings constituted reversible errors. As acknowledged by the Examiner, Ans. 10, Rho teaches a pre-driver that appears to be configured based on a sensed external voltage that changes with respect to PVT (process, voltage temperature), not “output impedance” (claim 1) or “determined output driver strength” (claim 13). See, e.g., Rho’s ¶¶ 5, 16. Appreciating these differences, the Examiner argues that “[t]he phrase ‘can be configured’ [in claim 1] only requires that the device is capable of being modified or configured to be used for the intended function.” Ans. 10 (emphasis added). That is incorrect. Setting aside the Examiner’s failure to explain in detail what modifications would be necessary, the phrase “can be configured based at least partially on the output impedance” (claim 1), when properly construed, requires the specified pre-driver circuit, without modification, to be capable of performing the recited function. The Examiner further asserts that “Ohm’s law teaches that current, voltage, and impedance are all related.” Ans. 10. Ohm’s Law, however, does not establish that a pre-driver circuit that can be configured to be based Appeal 2011-011372 Application 12/050,876 4 on external voltage, as disclosed in Rho, is necessarily capable of being configured to be based at least partially on output impedance without modification of Rho’s system, as required by claim 1. See also Reply Brief filed April 7, 2011 at 6-7. Similarly, we find no persuasive evidence or reasoning to support the Examiner’s finding that Rho’s system or method is capable of being configured based at least partially on determined output driver strength, as required by claim 13. For these reasons, we cannot uphold the rejection of claims 1-6 and 13-25. Claims 7-10: Independent claim 7 recites: 7. An output driver system, comprising: a pre-driver configured to maintain a generally constant slew rate of an output driver across a plurality of output impedances. App. Br. 25. The Examiner stated that Rho inherently describes a pre-driver configured to maintain a generally constant slew rate of an output driver across a plurality of output impedances. Ans. 5. In support, the Examiner relied on Rho’s Figure 1 and paragraph 16. Id. The Appellants contend that the Examiner’s finding of inherent disclosure in Rho is not supported. App. Br. 14-15. Appeal 2011-011372 Application 12/050,876 5 Again, we agree with the Appellants. Rho teaches improving the slew rate by taking into account sensed external voltage. Rho’s ¶ 16. The Examiner failed to direct us to persuasive evidence or reasoning why a device configured to be based on external voltage is necessarily capable of being configured based at least partially on output impedance. Accordingly, we cannot affirm the rejection of claim 7 and claims 8- 10 dependent thereon. Claim 12: Claim 12 recites: 12. A memory device, comprising: an output driver having a configurable output driver strength and comprising: a plurality of driver stages arranged in parallel and wherein each of the plurality of driver stages comprises a respective pull-up leg and a respective pull-down leg, wherein each of the respective pull-up legs and each of the respective pull-down legs comprise a transistor and a fixed resistor; and a plurality of pre-drivers each having an output coupled to an input of at least a respective one of the transistors, wherein each of the plurality of pre-drivers comprises a configurable circuit comprising a plurality of control inputs configured to receive signals that are enabled or disabled based on the output driver strength, and wherein each of the plurality of pre-drivers is configured to maintain a generally constant slew rate of the output driver regardless of the output driver strength. App. Br. 27 (emphasis added). Appeal 2011-011372 Application 12/050,876 6 The Examiner found that Rho’s Figure 1 and 2 and paragraph 16 inherently describe the limitation “wherein each of the plurality of pre- drivers is configured to maintain a generally constant slew rate of the output driver regardless of the output driver strength.” Ans. 5-6. The Appellants contend, inter alia, that “there is simply nothing to support the Examiner's contention that by controlling slew rate to account for detected PVT variations, the pre-driver 210 of Rho also necessarily provides for a generally constant slew rate of an output driver regardless of output driver strength.” App. Br. 16. Again, we agree with the Appellants. The Examiner has failed to direct us to persuasive evidence or reasoning to support the finding of inherent disclosure of the disputed claim limitation. Claim 11: Claim 11 recites: 11. A pre-driver circuit, comprising: an inverter; a first CMOS inverter; a second CMOS inverter; and a third CMOS inverter wherein the inverter comprises an output coupled in parallel to the gates of the first CMOS inverter, the second CMOS inverter, and the third CMOS inverter, and an output of the pre-driver circuit is coupled in parallel to outputs of the Appeal 2011-011372 Application 12/050,876 7 first CMOS inverter, the second CMOS inverter, and the third CMOS inverter. App. Br. 26 (emphasis added). Relying on Rho’s Figure 4, the Examiner found, inter alia, that Rho describes a pre-driver circuit 100 comprising an inverter b1, a first inverter INV1, a second inverter INV2, and a third inverter within L3, but acknowledged that the reference does not disclose the first, second, and third inverters as CMOS inverters. Ans. 8-9, 14. The Examiner asserted, however, that “it is notoriously old and well known to implement inverters in a CMOS configuration and that it is common to implement buffers comprising inverters.” Id. at 9. The Examiner then concluded: [I]t would have been obvious to one of ordinary skill in the art that [Rho’s] b1 comprises an inverter and to implement the first, second, and third inverters as CMOS inverters since all the claimed elements were known in the prior art and one skilled in the art could have combined the elements as claimed by known methods with no change in their respective functions, and the combination would have yielded predictable results to one of ordinary skill in the art at the time of invention. Id. The Appellants contend, inter alia, that the Examiner failed to account for the limitation “the inverter comprises an output coupled in parallel to the gates of the first CMOS inverter, the second CMOS inverter, and the third CMOS inverter” in claim 23 (emphasis added). App. Br. 23. We agree with the Appellants. In response to the Appellants’ argument, the Examiner asserted that “all of the elements on Figure 4 are Appeal 2011-011372 Application 12/050,876 8 connected in parallel at least between their power supplies (they are all supplied with the same power supplies).” Ans. 14. We do not find the assertion to be sufficient in addressing the Appellants’ argument based on the disputed claim limitation. SUMMARY Rejections I and II are reversed. REVERSED kmm