13404558 (P.T.A.B. Aug. 18, 2017)

Ex Parte Yan et al

Patent Trial and Appeal BoardAug 18, 2017

13404558 (P.T.A.B. Aug. 18, 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. 13/404,558 02/24/2012 Shouli Yan SIL.0185US (D-11-600-54) 8100 21906 7590 08/22/2017 TROP, PRUNER & HU, P.C. 1616 S. VOSS ROAD, SUITE 750 HOUSTON, TX 77057-2631 EXAMINER LABOY ANDINO, IVAN A ART UNIT PAPER NUMBER 2838 NOTIFICATION DATE DELIVERY MODE 08/22/2017 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): tphpto@tphm.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte SHOULI YAN, DAZHI WEI, and ALAN L. WESTWICK Appeal 2016-000967 Application 13/404,558 Technology Center 2800 Before CATHERINE Q. TIMM, BRIAN D. RANGE, and JENNIFER R. GUPTA, Administrative Patent Judges. TIMM, Administrative Patent Judge. DECISION ON APPEAL1 STATEMENT OF CASE Pursuant to 35 U.S.C. § 134(a), Appellants2 appeal from the Examiner’s decision to reject claims 1—20 under 35 U.S.C. § 102(e) as anticipated by Shrivas.3 We have jurisdiction under 35 U.S.C. § 6(b). 1 In explaining our Decision, we cite to the Specification dated February 24, 2012 (Spec.), Final Office Action dated September 19, 2014 (Final), the Appeal Brief dated February 18, 2015 (Appeal Br.), the Examiner’s Answer dated August 13, 2015 (Ans.), and the Reply Brief dated October 13, 2015 (Reply Br.). 2 Appellants identify the real party in interest as Silicon Laboratories, Inc. 3 Shrivas et al., US 8,344,713 B2, issued Jan.l, 2013. Appeal 2016-000967 Application 13/404,558 We AFFIRM. The claims are directed to a regulator and a method of using a feedback path within the regulator. See, e.g., claims 1, 8, and 15. Figure 3, reproduced below, shows the location of two feedback paths within the regulator: Figure 3 is a block diagram of a linear regulator. Figure 3 does not depict the circuitry within the feedback paths. The feedback circuitry is shown in Figure 5. To further illustrate the claimed invention, we reproduce claim 1 with reference numerals from Figure 3. We also emphasize the language at issue in the appeal. 1. A method comprising: using a pass device [210] of a linear regulator [200] to provide an output signal [Vout] at an output terminal [194a] of the linear regulator [200] in response to a signal received at a control terminal [211] of the pass device [210], the control terminal 2 Appeal 2016-000967 Application 13/404,558 [211] being coupled to a node [at or near 205]4 and the node being associated with a bias current; and using a feedback path [230] coupled between the node and the output terminal [211] of the linear regulator [200] to communicate a feedback current between the output terminal [194a] and the node to regulate the output signal [Vout], the using comprising regulating a magnitude of the feedback current to be within a range of magnitudes comprising a magnitude that exceeds a magnitude of the bias current. Claims Appendix, Appeal Br. 17 (emphasis added). OPINION Appellants argue claims 1 and 8 as a group, and separately argue claims 4, 15, and 20. Appeal Br. 10-16. We address the separately argued claims insofar as they present separate issues. Claims 1 and 8 For the rejection of claims 1 and 8, we select claim 1 as representative. After considering the Examiner’s rejection and Appellants’ arguments, we frame the issue as follows: Have Appellants identified a reversible error in the Examiner’s finding that Shrivas describes “using a feedback path coupled between the node and the output terminal of the linear regulator to communicate a feedback current between the output terminal and the node to regulate the output signal” as recited in claim 1? Appellants have not identified such an error. 4 The Specification does not identify the location of the node in the Figures. However, it appears that the node is at, or near, the output terminal 205 as the Specification discloses that the amplifier’s output terminal 205 is associated with a bias current. Spec. 125. 3 Appeal 2016-000967 Application 13/404,558 As acknowledged by Appellants, Shrivas teaches a regulator, depicted in Figure 2, that includes an error amplifier 102, a pass transistor 104 (pass device) and two current mirror circuits 202, 204. Appeal Br. 11; Shrivas col. 3,11. 26-46; Fig. 2. Figure 2 is reproduced below: VDD Shrivas’ Figure 2 is a schematic circuit diagram of a regulator. As can be seen by Shrivas’ Figure 2, the current mirror circuits 202, 204 are coupled to a current signal line between the amplifier 102 and pass transistor 104. Shrivas Fig. 2. The Examiner finds that the intersection of the lines between the amplifier 102 and pass transistor 104 is the node required by claim 1. Final 3. We reproduce an annotated portion of Shirvas’ Figure 2 to show the location: 4 Appeal 2016-000967 Application 13/404,558 VD:D Annotated Figure 2 of Shrivas with a label showing the location of the node and arrows showing the direction of current Shrivas’ pass device (pass transistor 104) provides an output signal originating from the drain of the pass transistor 104. Annotated Fig. 2 (output signal originates from drain and moves towards resistors R1 and R2 as shown by the downward-facing arrow). The output signal is provided in response to a signal received at a control terminal (gate) of the pass device. Shrivas col. 4,11. 55—60. In Figure 2, the gate of pass transistor 104 is depicted as a circle. The current signal received at the gate (circle shown in Fig. 2) includes the current signal from the node, which travels from current mirrors 202, 204 to the node as shown by the left-facing arrows in annotated Figure 2. 5 Appeal 2016-000967 Application 13/404,558 As explained by Shrivas, resistors R1 and R2 generate a scaled-down version of the output voltage signal that is fed to the error amplifier 102. Shrivas col. 4,11. 46—61. The error amplifier compares the scaled-down version of the output voltage to a reference signal Vref and generates an error-amplified signal that is fed to the gate terminal of the pass-transistor 104. Id. When the gate voltage of the pass transistor 104 changes, the magnitude of the drain current of the pass transistor 104 also varies and this varies the magnitude of the output of the voltage signal. Id. As found by the Examiner, Shrivas discloses a feedback path (path including current mirrors 202, 204) coupled between a node (located at intersection of lines between amplifier 102 and pass transistor 104 in Fig. 2) and output terminal (from pass transistor 104 drain). Final 3; Shrivas Fig. 2. Appellants contend that “Shrivas fails to disclose using a feedback path to communicate a feedback current between the output terminal of a linear regulator and the gate terminal of the pass transistor 104.” Appeal Br. 12. However, Appellants have not identified a reversible error in the Examiner’s finding that the communicating required by the claim is described by Shrivas. This is because Appellants do not address the specific findings of the Examiner (Final 3). Instead, Appellants focus on C2 and C3 capacitors and the MOSFETs within the current mirror circuits 202, 204 in a manner that ignores the overall function of the current mirror circuits in the regulator. Appeal Br. 12; Reply Br. 2. Shrivas specifically teaches supplying a current generated by either the first or second current mirror to the gate of the pass transistor (by way of the node) so that the voltage at the gate terminal is either pulled down or pulled up such that the magnitude of 6 Appeal 2016-000967 Application 13/404,558 the voltage difference between the gate and source changes, which in turn changes the drain current and output signal. Shrivas col. 3,11. 2—19. Thus, Appellants have not persuaded us that Shrivas fails to teach using the feedback path in the manner required by claim 1. Claim 15 Claim 15 requires a first feedback path and a second feedback path. Claim 15 requires an amplifier rather than a node. According to claim 15, “the second feedback path is adapted to communicate a feedback current between the output terminal of the pass device and the output terminal of the amplifier to regulate the output signal.” Appellants focus their arguments on the Examiner’s findings with regard to the second feedback path. Appeal Br. 14. The Examiner finds that Shrivas’ circuit, including current mirrors 202, 204, is adapted to communicate as required by claim 15. Final 13—14. Appellants contend that “[a]s discussed above, neither circuit 202 nor circuit 204 of Shrivas communicates a current from an output terminal of pass device 104 to an output terminal of amplifier 102.” Appeal Br. 14. However, as found by the Examiner, Shrivas communicates a current from the current mirrors 202, 204 to what was previously referred to as a node and this location is “between the output terminal of the pass device and the output terminal of the amplifier.” Moreover, by changing the magnitude of the gate voltage, this feedback current from the current mirror circuits 202, 204 changes the magnitude of the output signal across the drain of the pass transistor thus regulating the output signal as required by claim 15. Appellants have not persuaded us of a reversible error in the Examiner’s findings with regard to claim 15. 7 Appeal 2016-000967 Application 13/404,558 Claim 4 Claim 4 depends from claim 1 and further limits the “using feedback path to communicate the feedback current” step of claim 1 to one that “comprises communicating the feedback current through a capacitor coupled between the output terminal and the node.” The Examiner finds that Shrivas’ capacitors C2 and C3 are used in the manner required by claim 4. Final 6. Appellants contend “Shrivas fails to disclose communicating a feedback current between the output terminal of a regulator and a node (as defined in claim 1) through either the C2 or C3 capacitor.” Appeal Br. 15. However, C2 and C3 are within the feedback circuit because they are within current mirrors 202, 204. Because the current mirrors communicate the current as required by the claim and contain the C2 and C3 capacitors, Appellants have not persuaded us of a reversible error in the Examiner’s finding that Shrivas discloses a method including communicating feedback current through a capacitor coupled between the output terminal and a node. Claim 20 Claim 20 depends from claim 15 and requires the second feedback path comprise “a capacitor coupled between an output terminal of the regulator and the control terminal.” Appellants make the same argument as against the rejection of claim 4. Appeal Br. 15—16. For the reasons given above, we determine that Appellants have not identified a reversible error in the Examiner’s rejection of claim 20. 8 Appeal 2016-000967 Application 13/404,558 CONCLUSION We sustain the Examiner’s rejection. DECISION The Examiner’s decision is affirmed. TIME PERIOD FOR RESPONSE No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1). AFFIRMED 9