11722970 (P.T.A.B. Feb. 21, 2014)

Ex Parte Giles et al

Patent Trial and Appeal BoardFeb 21, 2014

11722970 (P.T.A.B. Feb. 21, 2014)

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. 11/722,970 01/22/2008 Kevin Giles M-1405-02 4864 43840 7590 02/24/2014 Waters Technologies Corporation 34 MAPLE STREET - LG MILFORD, MA 01757 EXAMINER IPPOLITO, NICOLE MARIE ART UNIT PAPER NUMBER 2881 MAIL DATE DELIVERY MODE 02/24/2014 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 KEVIN GILES, MARTIN GREEN, and JASON LEE WILDGOOSE __________ Appeal 2011-012860 Application 11/722,970 Technology Center 2800 ____________ Before BRADLEY R. GARRIS, KAREN M. HASTINGS, and MICHAEL P. COLAIANNI, Administrative Patent Judges. COLAIANNI, Administrative Patent Judge. DECISION ON APPEAL Appellants appeal under 35 U.S.C. § 134 the final rejection of claims 1, 6, 10, 11, 13, 14, 16, 19, 20, 22, 23, 26, 32, 34, 35, 39, 40, 47, 78, 92, 99, and 111. We have jurisdiction over the appeal pursuant to 35 U.S.C. § 6(b). We AFFIRM-IN-PART. Appellants’ invention is directed to an ion guide or ion trap, a mass spectrometer and a method of guiding or trapping ions (Spec. 1). Appeal 2011-012860 Application 11/722,970 2 Claim 1 is illustrative: 1. An ion guide or ion trap comprising: a plurality of electrodes; an RF voltage source applying an RF voltage to at least some of said plurality of electrodes in order to confine radially at least some ions within said ion guide or ion trap; a voltage supply maintaining one or more substantially quadratic potential wells along at least a portion of the axial length of said ion guide or ion trap in a first mode of operation, said one or more substantially quadratic potential wells having a minimum; a modulator oscillating the position of said one or more substantially quadratic potential wells in a substantially periodic manner about a reference point and along at least a portion of the axial length of said ion guide or ion trap; and an ejector in said first mode of operation ejecting at least some ions from a trapping region of said ion guide or ion trap in a substantially non- resonant manner whilst other ions are arranged to remain substantially trapped within said trapping region of said ion guide or ion trap. Appellants appeal the following rejections: 1. Claims 1, 6, 10, 11, 13, 14, 26, 34, 39, 40, 47, 78, 92, 99, and 111 are rejected under 35 U.S.C. § 103(a) as being unpatentable over Kirchner (US 5,206,506, issued Apr. 27, 1993) in view of Wells (US 2006/01063468 A1, published Jul. 27, 2006)1. 2. Claims 16, 19, 20, 22, 23, 32 and 35 are rejected under 35 U.S.C. § 103(a) as being unpatentable over Kirchner in view of Wells and Schoen (US 5,089,703 issued Feb. 18, 1992). 1 The Examiner includes claims 32 and 35 in the statement of rejection (1) although the Examiner acknowledges that claims 32 and 35 are rejected and addressed solely under the combination of Kirchner, Wells and Schoen (Ans. 17). We, therefore, understand that claims 32 and 35 are not to be included in rejection (1). Appeal 2011-012860 Application 11/722,970 3 REJECTION (1) Appellants separately argue the subject matter of independent claims 1, 111, and dependent claims 13, 14 (App. Br. 7-15). ISSUE Did the Examiner reversibly err in concluding that the combined teachings of Kirchner and Wells would have rendered obvious the subject matter of claims 1 and 111? We decide this issue in the negative. FINDINGS OF FACT & ANALYSIS The Examiner finds that Kirchner teaches the subject matter of claims 1 and 111 except that Kirchner fails to teach oscillating the position of the one or more substantially quadratic potential wells in a substantially periodic manner about a reference point (Ans. 5). The Examiner finds that Wells discloses oscillating the position of one or more substantially quadratic potential wells in a substantially periodic manner about a reference point (Ans. 5). The Examiner concludes that it would have been obvious to include oscillating the position of the one or more substantially quadratic potential wells in a substantially periodic manner about a reference point in order to further separate “ions into discrete bundles so that, when the time arises for ejection of the ions, a higher degree of separation between m/z values will occur, and hence a higher resolution of the device as a whole may be achieved” (Ans. 6). Appellants argue that the Examiner failed to provide an apparent reason to combine the teachings of Kirchner and Wells and even if the references are combined they fail to teach all the limitations of the claims Appeal 2011-012860 Application 11/722,970 4 (App. Br. 7). Appellants contend that neither Kirchner nor Wells discloses a modulator oscillating the position of one or more substantially quadratic potential wells in a substantially periodic manner about a reference point and along at least a portion of an axial length of an ion guide or ion trap (App. Br. 8). Appellants contend that Wells teaches that the potential oscillates in a radial manner and not in an axial direction (App. Br. 9). Appellants argue that Wells does not disclose axial motion of a potential well (App. Br. 10). Appellants contend that even if the teachings of Wells would have been combined with Kirchner’s teachings there is still no disclosure of a quadratic potential well oscillating along the axial length of the ion guide (App. Br. 10). Appellants’ arguments are not persuasive because they attack the references individually instead of addressing what the combined teachings of the references would have suggested to one of ordinary skill in the art. In re Keller, 642 F.2d 413, 425 (CCPA 1981). Appellants’ arguments never specifically address the particular combination or reasoning presented by the Examiner. Appellants’ focus on whether or not Wells teaches oscillating the position of quadratic wells along at least a portion of the axial length of the ion guide fails to address the Examiner’s finding that Kirchner teaches such an oscillation of the position of quadratic wells along at least a portion of the axial length of the ion trap. The Examiner’s rejection is based upon combining the concept of oscillating the position of a quadratic potential well about a reference point as taught by Wells with Kirchner’s disclosure of a modulator that oscillates the position of quadratic potential wells along at least a portion of the axial length of the ion guide or trap (Ans. 5-6). Appeal 2011-012860 Application 11/722,970 5 Appellants contend that combining Wells’ teachings regarding oscillating of the position of the quadratic wells would have resulted in no modification of Kirchner because Wells’ teachings regarding the radio frequency (RF) potential refers to radial confinement, which Kirchner already uses to confine the ions (App. Br. 10). This argument fails to address the Examiner’s rejection that is based upon including Wells’ concept to oscillate the position of one or more quadratic wells in a substantially periodic manner about a reference point with Kirchner’s structure that oscillates the quadratic potential wells along at least a portion of the axial length of the ion guide or trap (Ans. 5-6). Plainly, the Examiner’s finding that Wells discloses oscillating the position of quadratic potential wells about a reference point was intended to modify Kirchner’s disclosure to modulate or oscillate the position of quadratic potential wells along the length of the axis. We agree with the Examiner that modifying Kirchner’s structure or method to include structure that oscillates the position of the quadratic wells about a reference point as taught by Wells would have been obvious. Contrary to Appellants’ argument the Examiner proffers a reason for the modification based upon the teachings of the references, which Appellants do not contest (Ans. 6). Dependent claims 13 and 14 Regarding claim 13, Appellants argue that the Examiner failed to show where the prior art teaches that the quadratic potential wells are DC potential wells (App. Br. 10; Reply Br. 4). Appeal 2011-012860 Application 11/722,970 6 Appellants do not point us to where they describe or define “DC potential well” in their Specification. Nevertheless, on page 24-26 of the Specification, Appellants describe that the quadratic wells may be formed from radio frequency (RF) and DC potentials. The DC potential provides the axial quadratic DC potential well (Spec. 26). Accordingly, DC potential wells include quadratic potential wells formed from DC and radio frequency (RF) or alternating current (AC) potentials. In light of this disclosure, Appellants have not explained how the Examiner’s findings that Kirchner discloses using DC offsets to all the electrodes and that Wells discloses a potential well formed by DC potential do not establish that DC potential wells were known in the art. Contrary to Appellants’ argument, the Examiner cites column 23 lines 3-55 of Kirchner as teaching that DC offsets are used in controlling the potential barriers in the potential wells (Ans. 7). Regarding claim 14, Appellants argue that the Examiner has not particularly shown where the prior art discloses that the modulator is arranged and adapted to continually oscillate the position of said one or more quadratic potential wells in a substantially periodic manner (App. Br. 11). Appellants contend that even if the equations in Kirchner potentially permit any form of motion of the ions, the Examiner has not provided any apparent reason why this particular motion is disclosed, let alone considered desirable (Reply Br. 4). We agree with the Examiner that Kirchner’s columns 21-23 disclosures teach the translation via modulation of the quadratic potential wells in a periodic manner. Kirchner’s columns 21 to 22 disclose that Appeal 2011-012860 Application 11/722,970 7 Figures 12A through 12J depict the movement of ion particles via translation of the quadratic potential wells. Appellants have not shown error in the Examiner’s finding that columns 21 to 23 of Kirchner disclose the subject matter of claim 14. On this record, we affirm the Examiner’s § 103 rejection over Kirchner in view of Wells. REJECTION (2) Appellants argue claims 16, 19, 20 22, 23, 32, and 35 (App. Br. 15- 18). Because claims 19 and 20 and claims 22 and 23 are argued together, we select claims 19 and 22 as representative of each of the respective claim groupings. Claims 16, 19, & 22 Claim 16 depends from claim 1 and recites that the “modulator is arranged and adapted to oscillate the position of said one or more substantially quadratic potential wells with or at a first frequency f1, wherein said first frequency f1 is greater than the resonance or fundamental harmonic frequency at least 5% . . . or 100% of the ions located within an ion trapping region within said ion guide or ion trap.” Claim 19 depends from claim 1 and recites “wherein said ejector is arranged and adapted to vary the amplitude of the oscillation of the position of said one or more quadratic potential wells.” Claim 22 depends from claim 1 and recites “wherein said ejector is arranged and adapted to vary the frequency of oscillation of the position of said one or more quadratic potential wells.” Appeal 2011-012860 Application 11/722,970 8 Appellants argue that the Examiner has not shown how Schoen’s disclosures in columns 15 to 24 relate to forcing ions further down the trap and teach using a frequency exceeding the harmonic frequency (App. Br. 16- 17). Appellants contend that Schoen discloses using an RF-only multipole mass spectrometer unlike Kirchner that the Examiner finds uses a DC modulator. Id. Appellants contend that Schoen’s RF-only multipole has different principals of operation and it would not have been obvious to modify a DC modulator with a RF-only multipole control. Id. The Examiner responds that Schoen teaches in columns 15 to 24 ways to overcome the harmonic frequency discussed earlier in the patent at columns 8 and 13 (Ans. 18). The Examiner finds that Shoen teaches to modulate at a frequency greater than a resonance frequency because if the frequency did not exceed the resonance or harmonic frequency the ions would not move down the trap (Ans. 10-11). The Examiner explains that adjusting frequency to remove ions from the trap would be the simplest way to achieve that result (Ans. 11). We find that the preponderance of the evidence favors the Appellants’ argument of non-obviousness. Schoen describes moving the ions from one quadrupole to another quadrupole by using different frequencies (col. 21, lines 58-68, col. 22, lines 1-11). Schoen further describes at column 24, lines 29-31 that the RF-only quadrupole is an ideal mass filter because there are no DC voltages present in the device. Schoen further compares an ion trap with a RF/DC operation mode to the disclosed RF-only quadrupole and Schoen discloses that the RF-only quadrupole provides greater sensitivity and intensity in terms of ion current at the detector (col. 24, ll. 18-23). Appeal 2011-012860 Application 11/722,970 9 The Examiner does not specifically respond to Appellants’ argument that Schoen’s teaching regarding the frequency of an RF-only quadrupole device is fundamentally different than the DC modulated ion traps of the applied prior art such that one would not have modified Kirchner’s ion trap based upon Shoen’s disclosures. The Examiner has not established why one of ordinary skill in the art would have considered Schoen’s teachings regarding the frequencies or amplitudes applied to an RF-only quadrupole to be relevant to an ion trap with a DC modulator. On this record, we reverse the Examiner’s § 103 rejection of claims 16, 19, 20, 22 and 23 over Kirchner in view of Wells and Schoen. Claim 32 and 35 Claim 32 depends from claim 1 and recites “said ejector is arranged and adapted in said first mode of operation to eject ions substantially axially from said ion guide or ion trap.” Claim 35 depends from claim 1 and recites “said ion guide or ion trap comprises a multipole rod set ion guide or ion trap.” Appellants rely on the argument made regarding claim 16, that there is no reason to combine Schoen’s teachings directed to an RF-only ion trap with Kirchner and Wells that use DC based electrode system (App. Br. 18). However, the Examiner does not rely solely on the teachings of Schoen as the basis for modifying Kirchner as modified by Wells to arrive at the subject matter of claims 32 and 35. Regarding claim 32, the Examiner finds that Kirchner teaches a linear ion trap where axial ejection is the only reasonable ejection geometry. Regarding claim 35, the Examiner finds that Appeal 2011-012860 Application 11/722,970 10 Kirchner discloses that the ion trap may be modeled as a hexapole (i.e., multipole) as suggesting forming the ion trap as a multipole. Appellants’ arguments do not address or otherwise show error in these findings and conclusions of the Examiner. Therefore, on this record, we affirm the Examiner’s § 103 rejection of claims 32 and 35. DECISION The Examiner’s decision is affirmed-in-part. ORDER AFFIRMED-IN-PART lp