12683708 (P.T.A.B. Oct. 15, 2018)

Ex Parte BRANDNER et al

Patent Trial and Appeal BoardOct 15, 2018

12683708 (P.T.A.B. Oct. 15, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 12/683,708 01/07/2010 23911 7590 10/17/2018 CROWELL & MORING LLP INTELLECTUAL PROPERTY GROUP P.O. BOX 14300 WASHINGTON, DC 20044-4300 FIRST NAMED INVENTOR Michael BRANDNER 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. 105440.62173US 3686 EXAMINER BERHANU, SAMUEL ART UNIT PAPER NUMBER 2859 NOTIFICATION DATE DELIVERY MODE 10/17/2018 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): edocket@crowell.com tche@crowell.com apomeroy@crowell.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte MICHAEL BRANDNER, THOMAS MUELLER, ROLAND SCHWAB, BERND ZIEGLER, and KLAUS HAUSER Appeal2017-011003 Application 12/683,708 Technology Center 2800 Before JEFFREY T. SMITH, LINDA M. GAUDETTE, and JANEE. INGLESE, Administrative Patent Judges. INGLESE, Administrative Patent Judge. DECISION ON APPEAL Appellants 1 request our review under 35 U.S.C. Â§ 134(a) of the Examiner's decision to finally reject claims 1, 2, 4, and 6-14. We have jurisdiction over this appeal under 35 U.S.C. Â§ 6(b ). We AFFIRM. STATEMENT OF THE CASE Appellants' Specification explains that power output from an accumulator battery must be controlled to avoid damage to the battery caused by a total discharge. Spec. ,r,r 3, 19. According to the Specification, 1 Appellants identify Hilti Aktiengesellschaft as the real party in interest. Appeal Brief filed February 27, 2017 ("App. Br."), 1. Appeal 2017-011003 Application 12/683,708 Appellants' invention provides a control method and system that prevents a total discharge of an accumulator battery. Spec. ,r,r 6, 19. Claim 1 illustrates the subject matter on appeal and is reproduced below with contested language italicized: 1. A control method for an accumulator battery, which includes an interface for communicating with a hand power tool and for supplying the hand power tool, comprising the steps of: receiving characterizing data of the hand power tool and/or data about an operating process of the hand power tool from the hand power tool by the accumulator battery via the interface, wherein characterizing data about a maximum permissible duration for which a voltage limit of the accumulator battery and/or of individual cells of the accumulator battery is fallen short of are received from the hand power tool by the accumulator battery via the interface and if a total discharge protection of the accumulator battery determines that the voltage limit has been fallen short of longer than the maximum permissible duration, a warning signal is output by the accumulator battery to the hand power tool via the interface. App. Br. 9 (Claims Appendix) (emphasis and indentations added). The Examiner sets forth the rejection of claims 1, 2, 4, and 6-14 under 35 U.S.C. Â§ I03(a) as unpatentable over Denning,2 Bertness, 3 and Wiesner4 in the Final Office Action entered April 28, 2016 ("Final Act."), and maintains the rejection in the Examiner's Answer entered June 30, 2017 ("Ans."). 2 US 2005/0248309 Al, published November 10, 2005. 3 US 6,888,468 B2, issued May 3, 2005. 4 US 2008/023 8609 Al, published October 2, 2008. 2 Appeal 2017-011003 Application 12/683,708 DISCUSSION Upon consideration of the evidence relied upon in this appeal and each of Appellants' contentions, we affirm the Examiner's rejection of claims 1, 2, 4, and 6-14 under 35 U.S.C. Â§ 103(a) for the reasons set forth in the Final Office Action, the Answer, and below. We review appealed rejections for reversible error based on the arguments and evidence Appellants provide for each ground of rejection Appellants contest. 37 C.F.R. Â§ 4I.37(c)(l)(iv); Ex parte Frye, 94 USPQ2d 1072, 107 5 (BP AI 2010) (precedential), cited with approval in In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011) (explaining that even if the examiner had failed to make a prima facie case, "it has long been the Board's practice to require an applicant to identify the alleged error in the examiner's rejections"). Appellants argue claims 1, 2, 4, and 6-14 as a group on the basis of independent claims 1, 4, and 12-14, which Appellants argue together. App. Br. 5-8. Therefore, we select claim 1 as representative, and decide the appeal as to claims 1, 2, 4, and 6-14 based on claim 1 alone. 37 C.F.R. Â§ 4I.37(c)(l)(iv). The Examiner finds that Denning discloses an accumulator battery that includes an interface for communicating with a cordless power tool. Final Act. 2 ( citing Denning Fig. 1 ). The Examiner finds that Denning discloses that the tool includes identification circuitry that provides data representative of the tool to the accumulator battery via the interface, such as the maximum discharge current of the tool. Final Act. 2 ( citing Denning ,r 24; Figs. 1---6); Ans. 3--4. The Examiner finds that Denning does not 3 Appeal 2017-011003 Application 12/683,708 disclose the remaining features recited in claim 1, and the Examiner relies on Bertness and Wiesner for suggesting these features. Final Act. 2--4. The Examiner finds that Bertness discloses a battery discharge indicator that provides a warning or alarm signal to a user when the battery voltage falls below a predetermined threshold for a predetermined interval of time to protect the battery from over discharge. Ans. 3 ( citing Bertness Abst.; col. 2, 11. 22--48; col. 4, 11. 47---67; and col. 10, 11. 6-77). The Examiner finds that Wiesner discloses communication line 22 for transferring data from power tool 2 to battery pack 4 to improve theft protection. Ans. 2 ( citing Wiesner ,r,r 7, 8; Fig. 1 ). The Examiner concludes that it would have been obvious to one of ordinary skill in the art at the time of Appellants' invention to combine the disclosures of Denning, Bertness, and Wiesner in order to protect Denning' s battery from over discharge, and to enhance the security of Denning' s power tool. Final Act. 3--4; Ans. 3--4. Appellants argue that even if Denning were modified in view Bertness and Wiesner as proposed by the Examiner "all that would be disclosed is that data about the maximum discharge current of the tool of Denning is transferred to a battery pack via the communication line of Wiesner," and a warning/alarm signal of Bertness would be sent from a battery discharge indicator to an operator of a vehicle. App. Br. 6-8; Reply Br. 3--4. Appellants contend that "any hand power tool and accumulator battery of Denning would still not transmit/receive data to/from each other." Reply Br. 3. Appellants assert that the proposed combination of Denning, Bertness, and Wiesner, therefore, does not disclose transmitting characterizing data of a hand power tool by the hand power tool to an accumulator battery via an 4 Appeal 2017-011003 Application 12/683,708 interface, and if a total discharge protection of the accumulator battery determines that the voltage limit has been fallen short of longer than the maximum permissible duration, outputting a warning signal by the accumulator battery to the hand power tool via the interface. App. Br. 6-8; Reply Br. 2-5. However, Denning discloses coupling battery pack 102 including one or more cells 203 to cordless power tool 100 having tool identification circuitry 230. Figs. 1 and 2; ,r,r 6, 19, 20. Denning discloses that identification circuitry 230 provides a signal representative of data particular to cordless power tool 100 to battery pack 102. Figs. 1 and 2; ,r,r 6, 21, 24. Denning discloses that monitoring and control circuitry 208 in battery pack 102, which includes processor 506 and memory 534, receives the tool identification signal from cordless power tool 100. ,r,r 7, 21, 24, 38. Denning explains that during discharging of battery pack 102, monitoring and control circuitry 208 monitors the voltage levels of battery cells 203, and compares the measured values to threshold levels to determine if any of the cell voltage levels is less than an under voltage threshold. ,r,r 22, 39. Denning discloses that if the measured voltage is below the threshold, processor 506 in monitoring and control circuitry 208 instructs some preventative action to be taken, such as providing a control input to circuitry located outside battery pack 102. ,r,r 22, 39. Denning does not explicitly disclose that the data particular to the cordless power tool provided by tool identification circuitry 230 to monitoring and control circuitry 208 in battery pack 102 includes characterizing data about a maximum permissible duration for which a voltage limit of the battery and/ or of individual cells of the battery is fallen 5 Appeal 2017-011003 Application 12/683,708 short of, as recited in claim 1. Nor does Denning explicitly disclose outputting a warning signal by battery pack 102 to cordless power tool 100 if a voltage limit has been fallen short of longer than a maximum permissible duration, as also recited in claim 1. However, Bertness discloses that preventing destructive deep discharging of storage batteries, such as those used in electrically propelled traction vehicles, is conventionally carried out by a battery controller. Col. 1, 11. 10-30. Bertness indicates that such battery controllers, referred to as "battery discharge indicators," provide some form of warning or visual indication to allow a user (such as a vehicle operator) to monitor the battery charge status. Col. 1, 11. 25-3 5. Bertness discloses that providing such a low charge warning substantially immediately after a battery terminal voltage drops below a predetermined threshold may result in a false alarm, however. Col. 1, 11. 35--41. Bertness discloses preventing such false alarms by providing an alarm signal as a function of both battery voltage level and time. Col. 2, 11. 32-34. Specifically, Bertness discloses a vehicle storage battery coupled to a discharge indicator ( controller) that includes a microprocessor, a voltage sensor, a memory, and a system clock. Col. 2, 11. 7-19. Bertness discloses storing a threshold voltage value and a predetermined time interval in the memory of the discharge indicator. Col. 2, 11. 34--3 7. Bertness discloses measuring the terminal voltage of the battery using the voltage sensor of the discharge indicator, and sending the measured voltage to the microprocessor, which compares the measured value to the threshold value stored in memory. Col. 2, 11. 37--42. Bertness further discloses using the system clock of the discharge indicator and the time interval value stored in memory 6 Appeal 2017-011003 Application 12/683,708 to provide an alarm signal to the operator of the vehicle if the voltage falls below the under voltage threshold for a predetermined interval of time. Col. 2, 11. 22-30; 40-45 In view of these disclosures, one of ordinary skill in the art seeking to protect the cells of a battery pack, such as the battery pack disclosed in Denning, from destructive deep discharging as disclosed in Bertness, reasonably would have modified Denning's system so that the control input provided by Denning's processor 506 to circuitry located outside battery pack 102 when the voltage of a cell falls below the under voltage threshold would cause the power tool to produce an audible or visual alarm to alert the tool operator of the under voltage situation, as recited in claim 1. One of ordinary skill in the art would have understood that providing such an alarm to the operator of a power tool-like the operator of a vehicle-would allow the operator to proceed accordingly with use of the tool. One of ordinary skill in the art also would have modified Denning' s system to prevent false alarms, as disclosed in Bertness. Specifically, the ordinarily skilled artisan would have modified Denning' s system to include a system clock as disclosed in Bertness, and would have modified Denning's tool identification circuitry 230 so that the data provided by tool identification circuitry 230 to battery monitoring and control circuitry 208 in Denning's battery pack would include both an under voltage threshold value and a predetermined time interval ( characterizing data about a maximum permissible duration for which a voltage limit of the accumulator battery and/ or of individual cells of the accumulator battery is fallen short of). As disclosed in Bertness, providing this data to memory 534 of Denning's monitoring and control circuitry 208 would allow monitoring and control 7 Appeal 2017-011003 Application 12/683,708 circuitry 208 to not only monitor the voltage levels of Denning's battery cells and compare the measured values to the under voltage threshold value, but would also allow monitoring and control circuitry 208, in conjunction with the system clock, to utilize the time interval value stored in memory to provide an alarm signal only if the measured voltage falls below the under voltage threshold for a predetermined interval of time. Modifying Denning' s system in this manner as suggested by Bertness would thus reduce the occurrence of false alarms by virtue of providing an alarm signal as a function of both battery voltage level and time, as recited in claim 1. Appellants argue that there is no disclosure or suggestion in any of the cited references to exchange Appellants' most-particularly claimed data-a maximum permissible duration for which a voltage limit of the accumulator battery and/or individual cells of the battery is fallen short of-between a hand power tool and an accumulator battery, even if Wiesner discloses communication between an accumulator battery and a hand power tool. App. Br. 7-8; Reply Br. 6-7. However, as discussed above, Bertness' disclosure of preventing false low charge warnings when monitoring the voltage of storage batteries to prevent destructive deep discharging would have led one of ordinary skill in the art to modify Denning' s system so that the data provided by tool identification circuitry 230 to battery monitoring and control circuitry 208 in Denning' s battery pack would include both an under voltage threshold value and a predetermined time interval. As discussed above, providing this data to memory 534 of Denning's monitoring and control circuitry 208 would allow monitoring and control circuitry 208 to not only monitor the voltage levels of the battery cells and compare the measured values to the under 8 Appeal 2017-011003 Application 12/683,708 voltage threshold value, but would also allow monitoring and control circuitry 208, in conjunction with the system clock, to utilize the time interval value stored in memory to provide an alarm signal only if the measured voltage falls below the under voltage threshold for a predetermined interval of time, thereby reducing the occurrence of false under voltage alarms. Therefore, Appellants' arguments are unpersuasive of reversible error, and we accordingly sustain the Examiner's rejections of claims 1, 2, 4, and 6-14 under 35 U.S.C. Â§ 103(a). DECISION We affirm the Examiner's rejections of claims 1, 2, 4, and 6-14 under 35 U.S.C. Â§ 103(a). No time period for taking any subsequent action in connection with this appeal may be extended under 3 7 C.F .R. Â§ 1.13 6( a )(1 )(iv). AFFIRMED 9