13237177 (P.T.A.B. Feb. 26, 2016)

Ex Parte Swei

Patent Trial and Appeal BoardFeb 26, 2016

13237177 (P.T.A.B. Feb. 26, 2016)

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. 13/237,177 09/20/2011 Yuwen Swei 2011.0514/1085.839 1091 54657 7590 02/29/2016 DUANE MORRIS LLP (TSMC) IP DEPARTMENT 30 SOUTH 17TH STREET PHILADELPHIA, PA 19103-4196 EXAMINER TRA, ANH QUAN ART UNIT PAPER NUMBER 2842 MAIL DATE DELIVERY MODE 02/29/2016 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 YUWEN SWEI1 —————— Appeal 2014-002912 Application 13/237,177 Technology Center 2800 —————— Before ROMULO H. DELMENDO, GEORGE C. BEST, and CHRISTOPHER L. OGDEN, Administrative Patent Judges. OGDEN, Administrative Patent Judge. DECISION ON APPEAL Appellant appeals under 35 U.S.C. § 134(a) from the Examiner’s final rejection of claims 1–8, 12–15, 19, and 20 in the above-identified application. We have jurisdiction pursuant to 35 U.S.C. § 6(b). We AFFIRM. 1 According to Appellant, the real party in interest is Taiwan Semiconductor Manufacturing Co., Ltd. Br. 2. Appeal 2014-002912 Application 13/237,177 2 BACKGROUND Appellant’s invention relates to a supply-independent biasing circuit such as the embodiment shown in Figure 2, which is reproduced below: Figure 2 depicts an upper current mirror (transistors M3 and M4) coupled with a lower current mirror (transistors M1 and M2) designed to produce two mirrored currents IREF and IOUT which are relatively independent of the source voltage VDD. See Spec. ¶ 10, 14. In this embodiment, the ratio of the size (W/L) of M2 to M1 is K, which also sets the ratio of IOUT to IREF. Id. ¶ 12. The circuit also includes a MOSFET transistor MR that is biased at the triode region to create a resistance that depends on the gate voltage VG. Id. ¶ 14–15. Independent claim 1 is representative: 1. A supply-independent biasing source, comprising: an upper current mirror including first and second PMOS transistors; Appeal 2014-002912 Application 13/237,177 3 a lower current mirror coupled to the upper current mirror including first and second NMOS transistors, wherein the first NMOS and first PMOS transistors have drain terminals coupled together and form a first stack of transistors and the second NMOS and second PMOS transistors have drain terminals coupled together and form a second stack of transistors; and a first resistive load connected to one of the first and second stacks, wherein the resistive load comprises a first MOSFET transistor biased at triode region, wherein the first MOSFET transistor is sized different from a transistor of the same polarity from the one of the first and second stacks to which it is connected and is sized the same as a transistor of the same polarity from the other of the first and second stacks. Br. 19 (emphasis added). The Examiner maintains the following grounds of rejection: I. Claims 1, 2, and 192 under 35 U.S.C. § 103(a)3 as being unpatentable over US 7,372,316 B2 [hereinafter Chatterjee] (issued May 13, 2008) in view of US 2007/0146061 [hereinafter Iriarte] (published June 28, 2007). Final Act. 3–4. II. Claims 3, 5, 12–15, and 20 under 35 U.S.C. § 103(a) as being unpatentable over US 7,755,419 B2 [hereinafter Rao] (issued July 13, 2010) in view of Iriarte and Chatterjee. Final Act. 4–6. III. Claims 4, 6, 7, 8, and 15 under 35 U.S.C. § 103(a) as being unpatentable over Chatterjee and Iriarte in combinations with other prior art references including Rao. Final Act. 6–7.4 2 On page 3, the Final Action incorrectly lists the claims as 3, 5, 12–15, and 20. Br. 9 n.1; Answer 3. 3 35 U.S.C. § 103 (2006). 4 The Examiner has withdrawn additional rejections under 35 U.S.C. §§ 103 and 112, found on pages 2 and 8–11 of the Final Action. See Answer 3. Appeal 2014-002912 Application 13/237,177 4 Figure 6 of Chatterjee is reproduced below: Figure 6 depicts a current source with two current mirrors between two current branches, see Chatterjee 5:29–7:11, with one current branch attached to MOS transistor Mt, where “[t]he function desired from transistor Mt is to provide a controlled resistance,” id. at 7:12–14. Figures 1 and 2 of Iriarte are reproduced below: Figure 1 depicts a prior art current source comprising transistors MP1, MP2, MN1, and MN3, with two current mirrors between two current branches. See Iriarte ¶ 10. The “second circuit branch,” containing transistors MP2 and MN3, is connected to a resistor R. Id. In addition, “[t]ransistors MN1 Appeal 2014-002912 Application 13/237,177 5 and MN3 are sized in a ratio 1:K. This determines the current of the second circuit branch.” Id. Figure 2 depicts a circuit similar to Figure 1, except that “the first circuit branch includes a diode-connected n-channel tail transistor MN2, and the second circuit branch has a diode-connected n-channel- transistor MN4 in the place of the resistor R in FIG. 1.” Id. ¶ 12. Figure 2 of Rao is reproduced below: Figure 2 depicts a current source comprising transistors P1, P2, N1, and N2, with two current mirrors between two current branches, and the branch comprising P2 and N2 is connected to a resistor R1. See Rao 4:34–5:13. The figure also depicts a “replica leg” comprising transistor P5 and resistor Appeal 2014-002912 Application 13/237,177 6 R2, the gate of which is connected to the gates of P1 and P2. See id. at 4:43–44. With respect to the rejection of claims 1, 2, and 19 over Chatterjee in view of Iriarte, Appellant’s arguments focus solely on claim 1. Br. 9–12. With respect to the rejection of claims 3, 5, 12–15, and 20 over Rao in view of Iriarte and Chatterjee, Appellant: (i) notes that claims 3, 5, 12, and 13 depend, either directly or independently, from claim 1 and, therefore, rely on the same arguments offered for claim 1, id. at 12 ; (ii) provides additional arguments for claims 5 and 13 as a group, id. at 13–14; and (iii) for claims 14, 15, and 20, relies on the same arguments offered in support of claims 3, 5, 12, 13, and 19, id. at 14–15. As for the remaining grounds of rejection, Appellant also relies on the arguments in support of claim 1, id. at 15. Therefore, consistent with the provisions of 37 C.F.R. § 41.37(c)(1)(iv) (2013), we limit our discussion to claims 1 and 13. That discussion controls the outcome for all other claims on appeal. DISCUSSION Upon consideration of the evidence on this appeal record and each of Appellant’s contentions raised in the Appeal Brief, we determine that a preponderance of the evidence supports the Examiner’s conclusion that the subject matter of Appellant’s claims is unpatentable over the applied prior art. We sustain the Examiner’s § 103 rejections essentially for the reasons set out by the Examiner in the Answer. We add the following for emphasis. The Examiner determines that it would have been obvious for a person of ordinary skill in the art to combine the circuit described by Chatterjee, Figure 6, with the teaching in Iriarte that the two transistors Appeal 2014-002912 Application 13/237,177 7 comprising the second current mirror (MN1 and MN3 in Fig. 1 of Iriarte) are sized differently in order to specify the current in the branch containing the resistance. See Final Act. 3. The Examiner also determines that it would have been obvious to size the connected MOSFET transistor (e.g., Mt in Chatterjee) the same as “a normal or smallest transistor, for the purpose of saving space and cost and achieving a desired driving voltage at” the current node. See id. Appellant argues, see Br. 11–12, that Chatterjee and Iriarte both teach away from the limitation in claim 1 specifying that the “first MOSFET transistor is sized different from a transistor of the same polarity from the . . . stack[] to which it is connected and is sized the same as a transistor of the same polarity from the other . . . stack[].” Id. at 19. According to Appellant, Chatterjee appears to teach: [E]ach of transistors M1a, M2a and Mt of Chatterjee et al. FIG. 6 should have different sizes to as to ensure that the device is first order temperature compensated (i.e., some devices have positive coefficients while others have negative in order to offset (cancel out) one another as temperature changes). Id. at 11 (citing Chatterjee 7:21–63). However, as the Examiner correctly finds, Chatterjee does not place any limitations on the suitable sizes of the transistors, or that they should be differently sized. Answer 5. Moreover, Appellant does not explain why one of ordinary skill in the art would have understood, from a teaching to use both positive and negative temperature coefficients, that M1a, M2a, and Mt should all be sized differently. Appellant also argues that Iriarte teaches that “when the resistor R of FIG. 1 (upon which the Examiner relies) is embodied as a transistor, such as n-channel transistor MN4 (FIG. 2), that resistor has a different size than both Appeal 2014-002912 Application 13/237,177 8 MN3 and MN1,” and that this different sizing “provides a reference voltage that is stable over temperature variations.” Br. 11 (citing Iriarte ¶ 12 and the different sizing notations in Fig. 2). However, as the Examiner correctly finds, resistor MN4 in Figure 2 operates as a diode, rather than a resistor. Answer 5. In addition, Figure 2 of Iriarte also includes a second diode- connected transistor MN2 on the other current branch. Id. Thus, transistor MN4 is not functionally equivalent to resistor R in Figure 1 or an equivalent transistor (such as that described in Chatterjee) that is connected to function as a resistor. See id. Therefore, the evidence on this record does not support Appellant’s argument that either Chatterjee or Iriarte teaches away from the combination of the two references, and we find no reversible error in the Examiner’s rejection of claim 1. Claim 13 requires a third circuit mirror comprising a transistor (e.g., M5 in Fig. 2) and a second MOSFET transistor (e.g., MS) that is sized the same as the first MOSFET transistor (e.g., MR). See Br. 20–22. The Examiner cites Rao for this limitation, which in Figure 2 depicts a third circuit branch comprising transistor P5 and resistor R2. See Final Act. 4–5. The Examiner determines that it would have been obvious for a person of ordinary skill in the art to combine the teachings of Rao, Iriarte, and Chatterjee, and to set the sizing of resistances R1 and R2 to be equal to the size of “a normal or smallest transistor, for the purpose of saving space and cost and achieving a desired output voltage.” Id. Appellant argues that Rao teaches that transistor P5 is sized by a factor of K in relation to the other transistors P1 and P2 to which it is connected, and therefore Rao teaches that resistance R2 should be different from resistance R1. See Br. 13–14. Appellant also argues that Rao teaches Appeal 2014-002912 Application 13/237,177 9 that “‘K’ is greater than one.” Id. at 14 (citing Rao 1:58–61). However, as the Examiner correctly finds, Rao does not teach that K in Figure 2 should differ from 1, or that R1 should differ from R2. Answer 7. In the one example cited by Appellant in which Rao states that K has a specific value, Rao states that transistors N51 and N52 of Figure 5 “can have the same channel lengths, but a width of transistor N52 may be ‘K’ times that of N51, where K is greater than one.” Rao 1:58–61. However, as the Examiner correctly notes, this discussion concerns the comparative “background art” example of Rao’s Figure 5, not Figure 2 on which the Examiner relied. See Answer 7. Transistors N51 and N52 in Figure 5 would correspond to transistors N1 and N2 of Figure 2, respectively, and are part of the second current mirror. Thus, the “K” in this context reflects the ratio of the sizing of the two mirrored current branches in Figure 5, rather than the ratio of resistances R1 and R2 in Figure 2. Therefore, Appellant does not direct our attention to any reversible error in the Examiner’s rejection of claim 5. For the above reasons, and those expressed by the Examiner, we affirm the Examiner’s decision to reject claims 1–8, 12–15, 19, and 20. DECISION The Examiner’s decision is affirmed. 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)(iv). AFFIRMED