13742599 (P.T.A.B. Nov. 28, 2017)

Ex Parte Takahashi et al

Patent Trial and Appeal BoardNov 28, 2017

13742599 (P.T.A.B. Nov. 28, 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. 13/742,599 01/16/2013 Goro TAKAHASHI BPL0225US 9205 23413 7590 11/30/2017 TANTOR TOT RTTRN T T P EXAMINER 20 Church Street BAE, GYOUNGHYUN 22nd Floor Hartford, CT 06103 ART UNIT PAPER NUMBER 3742 NOTIFICATION DATE DELIVERY MODE 11/30/2017 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): usptopatentmail@cantorcolbum.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte GORO TAKAHASHI, TAKANORI SAITO, WENLING WANG, KOJI YOSHII, and TATSUYA YAMAGUCHI1 Appeal 2016-008221 Application 13/742,599 Technology Center 3700 Before KEN B. BARRETT, JAMES P. CALVE, and SEAN P. O’HANLON, Administrative Patent Judges. CALVE, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Appellant appeals under 35 U.S.C. § 134(a) from the Final Office Action rejecting claims 1—5. Appeal Br. 5. Claims 6—9 are withdrawn. Id. We have jurisdiction under 35 U.S.C. § 6(b). We REVERSE. 1 Tokyo Electron Limited, the Appellant, is identified as the real party in interest. Appeal Br. 3. Appeal 2016-008221 Application 13/742,599 CLAIMED SUBJECT MATTER The claims relate to a heat treatment apparatus and controller that restores a desired temperature without overshooting the desired temperature. Spec. 1:12—32. Claim 1, the sole independent claim, is reproduced below. 1. A heat treatment apparatus comprising: a processing chamber which accommodates a processing object; a heating unit which heats the processing object accommodated in the processing chamber; a temperature detecting unit which detects an internal temperature of the processing chamber; and a controller which is configured to: set a second setting temperature that is the same as a temperature detected by the temperature detecting unit when the temperature detected by the temperature detecting unit falls below a predetermined first setting temperature due to an external disturbance; control the heating unit so that the temperature detected by the temperature detecting unit becomes identical to a third setting temperature between the second setting temperature and the first setting temperature; and control the heating unit so that the temperature detected by the temperature detecting unit becomes identical to the first setting temperature after the temperature detected by the temperature detecting unit becomes identical to the third setting temperature. Appeal Br. 21 (Claims Appendix). REJECTIONS Claims 1—3 and 5 are rejected under 35 U.S.C. § 103(a) as being unpatentable over Nanno (US 2003/0121905 Al, pub. July 3, 2003) and Scaramuzzo, Jr. (US 5,465,035, iss. Nov. 7, 1995) (“Scaramuzzo”). Claim 4 is rejected under 35 U.S.C. § 103(a) as being unpatentable over Nanno, Scaramuzzo, and Sugishita (US 2010/0124726 Al, pub. May 20, 2010). 2 Appeal 2016-008221 Application 13/742,599 ANALYSIS Claims 1—3 and 5 Rejected Over Nanno and Scaramuzzo The Examiner finds that Nanno discloses a heat treatment apparatus as recited in claim 1 including a controller that controls a detected temperature to become identical to a first setting temperature if the detected temperature is below a predetermined first setting temperature, but otherwise does not set a second or a third setting temperature. Final Act. 4—5. The Examiner finds that Scaramuzzo discloses a controller that uses three unit step commands of +3 Amperes (“A”), -3 A, and 0 A in Figure 16, where +3 A is a first setting temperature, -3 A is a second setting temperature, and 0 A is a third setting temperature that is between the second setting temperature (-3 A) and first setting temperature (+3 A), as claimed. Id. at 5—6; Ans. 14. The Examiner determines that it would have been obvious to replace Nanno’s SP average input command in Fig. 10A with Scaramuzzo’s open loop input command generator in Fig. 8 “to provide any desired profile of command with respect to time.” Final Act. 6. The Examiner also finds that Nanno’s temperature regulator can generate any shape input function using the pulses in Figs. 35A—35D, but Nanno does not teach a command function with two unit steps and a linear straight transition therebetween; however, Scaramuzzo teaches three unit step commands of +3 A, -3 A, and 0 A, and it would have been obvious to apply such a multi-step function to Nanno’s unit step function to adjust Nanno’s control gains “to achieve the desired closed loop control system response within the error bound from the desired input command and satisfy the required gain margin and phase margin for the stability of the closed loop control system during operation.” Ans. 14. 3 Appeal 2016-008221 Application 13/742,599 Appellant argues that Nanno discloses “performing the PID control,” but Nanno does not disclose the claimed first, second, and third temperature settings. Appeal Br. 11—14; Reply Br. 4. Appellant argues that Nanno’s multiple “n” inputs shown in Figures 1 and 3 are for “n” heaters and “n” temperature sensors (at different locations), and this teaching is irrelevant to the claimed first, second, and third setting temperatures. Reply Br. 4. These arguments are not persuasive because the Examiner relies on Nanno to teach the claimed apparatus and controller that sets a first setting temperature. The Examiner relies on Scaramuzzo to teach a controller that sets second and third setting temperatures as discussed above. Final Act. 4— 6. Appellant’s arguments amount to individual attacks on the references where the Examiner relies on Scaramuzzo (not Nanno) to teach a controller that sets second and third setting temperatures. Id. at 5—6. Next, Appellant argues that “FIG. 16 of Scaramuzzo is not the case of preventing the overshooting of the current, and the disclosure of Scaramuzzo is merely deliberately using so-called ‘bang-bang-input’ in order to make the square wave signal.” Appeal Br. 18. Appellant also argues that Scaramuzzo applies a square wave drive signal to a motor as a “bang-bang” function to achieve swift motion of the actuator and sharp changes in the coil current. Id. at 17 (citing Scaramuzzo, 1:29—33, 17:21—26); Reply Br 12. Appellant further argues that Scaramuzzo does not control the current in a three-step command process, as claimed, to reach a target current value after aiming at a target control value, but instead repeats the square wave input over and over so that “the current actually reaches the target current value almost in real time” without pause as it changes from +3 A to -3 A in Figure 16. It does not “become identical” to a third setting as claimed. Reply Br. 8, 11. 4 Appeal 2016-008221 Application 13/742,599 The Examiner’s finding that Scaramuzzo teaches a controller that sets a second setting temperature and controls a heating unit or even a current to become identical to a third setting temperature before controlling a heating unit to become identical to a first setting temperature is not supported by a preponderance of evidence. The Examiner’s finding that Scaramuzzo’s square wave bang-bang input passes through three different current values (+3 A, 0 A, -3 A) as a function of time does not explain how Scaramuzzo’s controller detects a value, sets it as a second setting value, and controls the motor or current to a third setting value that is between the second setting value and the original first setting value. Appeal Br. 15—17. Nor has the Examiner explained how Scaramuzzo controls a motor or current to become identical to a third setting value before controlling it to become identical to the original first setting value, as claimed. Id. at 17; Final Act. 5—6; Ans. 15. As Appellant points out (Reply Br. 12), Scaramuzzo repeats a square wave over and over so it moves from -3 A, which the Examiner equates to the second setting temperature (Final Act. 5), to +3 A, which the Examiner equates to the first setting temperature (id. at 6), in real time in Figure 16. Reply Br. 11. Thus, this input bang-bang wave occurs as a function of time without controlling the actual current to move to +3 A, which is the alleged first setting temperature. Id. Instead, the bang-bang square wave input results in the current moving from +3 A to -3 A without any control function being exercised to transition between these two current values, which change with time. Scaramuzzo, 17:21—35, 14:12—25, see Fig. 16. Thus, we do not sustain the rejection of claims 1—3 and 5. 5 Appeal 2016-008221 Application 13/742,599 Claim 4 Rejected Over Nanno, Scaramuzzo, and Sugishita The Examiner relies on Sugishita to teach features of claim 4 and not to overcome any deficiencies of Nanno and Scaramuzzo for claim 1 from which claim 4 depends. Final Act. 7—9; Appeal Br. 20. Because Sugishita does not cure deficiencies of Nanno and Scaramuzzo as to claim 1, we do not sustain the rejection of claim 4. DECISION We reverse the rejections of claims 1—5. REVERSED 6