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`UNITED STATES PATENT AND TRADEMARK OFFICE
`____________________________________________
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`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`____________________________________________
`
`FUJITSU SEMICONDUCTOR LIMITED,
`FUJITSU SEMICONDUCTOR AMERICA, INC.,
`ADVANCED MICRO DEVICES, INC., RENESAS ELECTRONICS
`CORPORATION, RENESAS ELECTRONICS AMERICA, INC.,
`GLOBALFOUNDRIES U.S., INC., GLOBALFOUNDRIES DRESDEN
`MODULE ONE LLC & CO. KG, GLOBALFOUNDRIES DRESDEN
`MODULE TWO LLC & CO. KG, TOSHIBA AMERICA ELECTRONIC
`COMPONENTS, INC., TOSHIBA AMERICA INC., TOSHIBA
`AMERICA INFORMATION SYSTEMS, INC.,
`TOSHIBA CORPORATION, and
`THE GILLETTE COMPANY,
`Petitioner,
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`v.
`
`ZOND, LLC,
`Patent Owner
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`Patent 6,853,142 B2
`____________________________________________
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`IPR Case Nos. IPR2014-00818, 00819, 00821, 00827, 01098
`____________________________________________
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`DECLARATION OF LAWRENCE J. OVERZET PH.D.
`ON BEHALF OF PETITIONER
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`I.
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`TABLE OF CONTENTS
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`RELEVANT LAW .......................................................................................... 6
`A.
`Claim Construction................................................................................ 6
`B.
`Obviousness ........................................................................................... 6
`SUMMARY OF OPINIONS: CLAIMS 1-43 ................................................. 9
`II.
`III. CLAIM CONSTRUCTION ............................................................................ 9
`A.
`“weakly-ionized plasma” and “strongly-ionized plasma” ..................10
`B.
`“means for ionizing a feed gas . . .” (claims 40 and 41) .....................13
`C.
`“means for supplying power . . .” (claim 40) and “means for applying
`an electric field . . .” (claim 41) ...........................................................15
`“means for diffusing . . .” ....................................................................18
`D.
`IV. RESPONSE TO PATENT OWNER’S ARGUMENTS REGARDING THE
`OBVIOUSNESS OF CLAIMS 1-43 .............................................................20
`A. General Discussion ..............................................................................20
`1. Power, Voltage, and Current ...............................................................20
`2. The Two Embodiments of Wang ........................................................24
`3. Kudryavtsev’s Strongly Ionized Plasma is Generated Without
`Forming an Arc .........................................................................................27
`4. Combining the Teachings of Wang and Kudryavtsev ........................28
`5. Combining the Teachings of Wang and Lantsman .............................31
`Independent Claims 1, 10, 21, 31, 40, and 41 .....................................33
`1. Weakly-Ionized and Strongly-Ionized Plasma in Wang .....................33
`2. Wang and Lantsman Teach Feed Gas Diffusion ................................35
`3. Wang Teaches A Magnitude And A Rise-Time To Increase The
`Density Of The Weakly-Ionized Plasma ..................................................39
`Dependent Claims 3 and 12: Additional Feed Gas ............................41
`C.
`D. Dependent Claims 14 and 36: Selecting a pulse amplitude and/or
`width to increase an ionization rate of the strongly-ionized plasma ...42
`Dependent Claim 26: Selecting a rise time to increase an ionization
`rate of the weakly-ionized plasma .......................................................47
`Dependent Claims 15, 27, and 37-38: The strongly-ionized plasma is
`substantially uniform ...........................................................................50
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`B.
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`E.
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`F.
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`1. At a single instance of time, Wang produces a substantially uniform
`plasma in a limited area adjacent to the cathode ......................................51
`2. Over time, Wang produces a substantially uniform plasma over the
`entire surface of the cathode .....................................................................54
`G. Dependent Claims 13, 24, and 32: A quasi-static electric field .........55
`H. Dependent Claim 25: A pulsed electric field .....................................57
`I.
`Dependent Claims 4-5, 22-23, and 33-34: A constant power or
`constant voltage ...................................................................................58
`Dependent Claims 21 and 28: A “gap” in the reactor ........................63
`J.
`K. Dependent Claims 6 and 29: An “electrode” in the reactor ...............66
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`I, Lawrence J. Overzet, declare as follows:
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` My name is Lawrence J. Overzet. 1.
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`2.
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`I received my bachelors, masters, and Ph.D. in electrical engineering,
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`all from the University of Illinois, College of Engineering, Urbana, IL. My
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`doctoral thesis was titled “Enhancement of the Negative Ion Flux to Surfaces from
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`Radio Frequency Processing Discharges.”
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`3.
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`Since graduating in 1988, I have worked as a professor in the
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`Department of Electrical Engineering at the University of Texas at Dallas. I have
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`taught many courses including Introduction to Electromagnetic Fields I and II;
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`Plasma Processing Technology; Plasma Science for Materials Processing; and
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`Current Topics in Plasma Processing.
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`4.
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`I have written over 75 articles, presented over 240 presentations at
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`international symposia, and have 8 patents in various areas of electrical
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`engineering, most of which being related to plasma science.
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`5.
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`I am a senior member of the Institute of Electrical and Electronic
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`Engineers (IEEE), and am a fellow of the American Vacuum Society (AVS) for
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`my contributions toward understanding pulsed plasmas and the role of negative
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`ions in plasma processing.
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`6.
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`A copy of my resume is provided as Appendix A to this declaration.
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`7.
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`I have reviewed the following publications in preparing this
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`declaration:
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`• U.S. Patent No. 6,853,142 (the “’142 Patent”) (Ex. 1001)).
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`• D.V. Mozgrin, et al, High-Current Low-Pressure Quasi-Stationary
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`Discharge in a Magnetic Field: Experimental Research, Plasma Physics
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`Reports, Vol. 21, No. 5, pp. 400-409, 1995 (“Mozgrin” (Ex. 1003)).
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`• A. A. Kudryavtsev et al, Ionization relaxation in a plasma produced by a
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`pulsed inert-gas discharge, Sov. Phys. Tech. Phys. 28(1), pp. 30-35, January
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`1983 (“Kudryavtsev” (Ex. 1106)).
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`• U.S. Pat. No. 6,413,382 (“Wang” (Ex. 1005)), including U.S. Pat. No.
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`6,306,265 (“Fu” (Ex. 1117)) and U.S. Pat. No. 6,398,929 (“Chiang” (Ex.
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`2004)) which are both incorporated by reference by Wang.
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`• U.S. Pat. No. 6,190,512 (“Lantsman” (Ex. 1004)).
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`• D.V. Mozgrin, High-Current Low-Pressure Quasi-Stationary Discharge in a
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`Magnetic Field: Experimental Research, Thesis at Moscow Engineering
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`Physics Institute, 1994 (“Mozgrin Thesis” (Ex. 1118)).
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`8.
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`I have read and understood each of the above publications and any
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`other publication cited in this declaration. The disclosure of each of these
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`publications provides sufficient information for someone to make and use the
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`plasma generation and sputtering processes that are described in the above
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`publications.
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`9.
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`Also, I have reviewed papers in the Inter Partes Review Case Nos.
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`IPR2014-00818, 00819, 00821, 00827, and 01098 including the Petitions and the
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`accompanying Declarations of Dr. Uwe Kortshagen. As discussed below, I agree
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`with Dr. Kortshagen’s conclusions as stated in those Declarations. Further, I have
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`reviewed the Board’s Institution Decisions, Patent Owner’s Responses, and the
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`accompanying Declaration of Larry D. Hartsough, Ph.D.
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`10.
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`I have considered certain issues from the perspective of a person of
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`ordinary skill in the art as described below at the time the ’142 Patent application
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`was filed. In my opinion, a person of ordinary skill in the art for the ’142 Patent
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`would have found the ’142 Patent invalid.
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`11.
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`I have been retained by Petitioner as an expert in the field of plasma
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`technology. I am working as an independent consultant in this matter on behalf of
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`Petitioner and am being compensated at my normal consulting rate of $500/hour
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`for my time. My compensation is not dependent on and in no way affects the
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`substance of my statements in this Declaration.
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`12.
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`I have no financial interest in the Petitioners. I similarly have no
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`financial interest in the ’142 Patent, and have had no contact with the named
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`inventor of the ’142 Patent.
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`I.
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`RELEVANT LAW
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`13.
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`I am not an attorney. For the purposes of this declaration, I have been
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`informed about certain aspects of the law that are relevant to my opinions. My
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`understanding of the law is as follows:
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`A. Claim Construction
`I have been informed that claim construction is a matter of law and
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`that the final claim construction will ultimately be determined by the Board. For
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`the purposes of my invalidity analysis in this proceeding and with respect to the
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`prior art, I have applied the broadest reasonable construction of the claim terms as
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`they would be understood by one skilled in the relevant art.
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`15.
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` I have been informed and understand that a claim in inter partes
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`review is given the “broadest reasonable construction in light of the specification.”
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`37 C.F.R. § 42.100(b). I have also been informed and understand that any claim
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`term that lacks a definition in the specification is therefore also given a broad
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`interpretation.
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`B. Obviousness
`I have been informed and understand that a patent claim can be
`16.
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`considered to have been obvious to a person of ordinary skill in the art at the time
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`the application was filed. This means that, even if all of the requirements of a
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`claim are not found in a single prior art reference, the claim is not patentable if the
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`differences between the subject matter in the prior art and the subject matter in the
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`claim would have been obvious to a person of ordinary skill in the art at the time
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`the application was filed.
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`17.
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`I understand that the level of ordinary skill in the art is reflected by the
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`prior art of record. A person of ordinary skill in the art at the time of filing the
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`’142 Patent would be someone who holds at least a bachelor of science degree in
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`physics, material science or electrical/computer engineering, or chemical
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`engineering, with two or more years practicing plasma generation methods and
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`using plasma-based processing equipment. I met and/or exceeded these
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`requirements for one of ordinary skill in the art at the time of the filing of the ’142
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`Patent.
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`18.
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`I have been informed and understand that a determination of whether
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`a claim would have been obvious should be based upon several factors, including,
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`among others:
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`• the level of ordinary skill in the art at the time the application was filed;
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`• the scope and content of the prior art; and
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`• what differences, if any, existed between the claimed invention and the
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`prior art.
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`19.
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`I have been informed and understand that the teachings of two or
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`more references may be combined in the same way as disclosed in the claims, if
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`such a combination would have been obvious to one having ordinary skill in the
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`art. In determining whether a combination based on either a single reference or
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`multiple references would have been obvious, it is appropriate to consider, among
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`other factors:
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`• whether the teachings of the prior art references disclose known concepts
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`combined in familiar ways, and when combined, would yield predictable
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`results;
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`• whether a person of ordinary skill in the art could implement a
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`predictable variation, and would see the benefit of doing so;
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`• whether the claimed elements represent one of a limited number of
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`known design choices, and would have a reasonable expectation of
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`success by those skilled in the art;
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`• whether a person of ordinary skill would have recognized a reason to
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`combine known elements in the manner described in the claim;
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`• whether there is some teaching or suggestion in the prior art to make the
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`modification or combination of elements claimed in the patent; and
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`• whether the innovation applies a known technique that had been used to
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`improve a similar device or method in a similar way.
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`20.
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`I understand that one of ordinary skill in the art has ordinary
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`creativity, and is not an automaton.
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`21.
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`I understand that in considering obviousness, it is important not to
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`determine obviousness using the benefit of hindsight derived from the patent being
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`considered.
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`II.
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`SUMMARY OF OPINIONS: CLAIMS 1-43
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`22.
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`I have reviewed the following portions of the declarations of Dr.
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`Kortshagen provided in the above-captioned inter partes reviews of the ’142 Patent
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`and I agree with the findings of Dr. Kortshagen at (1) No. 2014-00818, Ex. 1002,
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`¶¶ 115-175 captioned Ground II and Ground III; (2) No. 2014-00821, Ex. 1102, ¶¶
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`92-129, 145-156, and 166-168 captioned Ground II, Ground IV, and Ground VI;
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`(3) No. 2014-00819, Ex. 1202, ¶¶ 104-149 captioned Ground III; (4) No. 2014-
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`00827, Ex. 1302, ¶¶ 109-157 captioned Ground II.
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` Thus, it is my opinion that every limitation of the plasma generation 23.
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`methods described in claims 1 through 43 of the ’142 Patent are disclosed by the
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`prior art, and are rendered obvious by the prior art.
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`III. CLAIM CONSTRUCTION
`I have been informed and understand that a claim in inter partes
`24.
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`review is given the “broadest reasonable construction in light of the specification.”
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`37 C.F.R. § 42.100(b). I have also been informed and understand that any claim
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`term that lacks a definition in the specification is therefore also given a broad
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`interpretation.
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` The following discussion proposes constructions of and support for 25.
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`those terms. I have been informed and understand that any claim terms not
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`included in the following discussion are to be given their broadest reasonable
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`interpretation in light of the specification as commonly understood by those of
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`ordinary skill in the art. Moreover, should Patent Owner, in order to avoid the
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`prior art, contend that the claim has a construction different from its broadest
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`reasonable interpretation, I have been informed and understand that the appropriate
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`course is for Patent Owner to seek to amend the claims to expressly correspond to
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`its contentions in this proceeding.
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` “weakly-ionized plasma” and “strongly-ionized plasma”
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`A.
` A plasma refers to the combination of electrons, ions, and gas. 26.
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`Petitioner had previously proposed that, according to the broadest reasonable
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`interpretation, the claim term “weakly-ionized plasma” means “a lower density
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`plasma” and the claim term “strongly-ionized plasma” means “a higher density
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`plasma.” Patent Owner, relying on the specification of U.S. Patent No. 6,806,652
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`(“the ’652 Patent”) has proposed similar definitions. The Board, after noting that
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`there is “no significant difference between the parties’ constructions,” stated that
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`“we construe the claim term ‘weakly-ionized plasma’ as ‘a plasma with a relatively
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`low peak density of ions,’ and the claim term ‘strongly-ionized plasma’ as ‘a
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`plasma with a relatively high peak density of ions.’” IPR2014-00818, Decision at
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`p. 7 (Paper No. 9); IPR2014-00821, Decision at p. 10 (Paper No. 9); IPR2014-
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`00819, Decision at p. 8 (Paper No. 9); IPR2014-00827, Decision at pp. 7-8 (Paper
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`No. 9); IPR2014-01098, Decision at p. 9 (Paper No. 9).
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`27.
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`I agree with this construction by the Board, and my determination that
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`the claims of the ’142 Patent are rendered obvious by the prior art applies this
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`construction. One of ordinary skill in the art would not understand the claims of
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`the ’142 Patent or these terms in particular (“strongly-ionized plasma” and
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`“weakly-ionized plasma”) to require any specific or quantified difference in
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`magnitude between the peak density of ions of the “strongly-ionized plasma” and
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`the “weakly-ionized plasma.”
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` As stated above, I understand that claims are construed in light of the 28.
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`specification. I do not understand the ’142 Patent specification to require orders of
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`magnitude difference between the “weakly-ionized” and the “strongly-ionized”
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`plasma. For example, the ’142 Patent specification states: “the peak plasma
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`density of the pre-ionized plasma is between about 106 and 1012 cm-3)” and claim
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`17 recites that “the peak plasma density of weakly-ionized plasma is less than 1012
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`cm-3.” ’142 Patent at 5:19-21; 21:47-49 (claim 17) (Ex. 1001). The ’142 Patent
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`states that “the peak plasma density of the strongly-ionized plasma is greater than
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`about 1012 cm-3.” ’142 Patent at 7:16-17 (Ex. 1001). I have produced Overzet Fig.
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`1 below to illustrate that these are ranges without any specific magnitude or order
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`difference, as described by the specification of the ’142 Patent.
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`Overzet, Figure 1.
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` Accordingly, in light of the teachings of the ’142 Patent specification 29.
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`that weakly-ionized plasma and strongly-ionized plasma can have numerically
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`overlapping ranges of plasma density, I agree with the Board’s adopted
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`construction that “‘weakly-ionized plasma’ is ‘a plasma with a relatively low peak
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`density of ions,’ and that ‘strongly-ionized plasma’ is ‘a plasma with a relatively
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`high peak density of ions.’”
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` Further, a person of ordinary skill in the art would understand the term 30.
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`“high-density plasma” to be the same as “strongly-ionized plasma.” These terms
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`are used synonymously in the ’142 Patent, as evidenced at 7:25-26 (“The strongly-
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`ionized plasma … is also referred to as a high-density plasma.”) and 9:45-47 (Ex.
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`1001).
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`“means for ionizing a feed gas . . .” (claims 40 and 41)
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`B.
` Petitioner previously proposed, and the Board agreed, that this 31.
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`element is a means-plus-function element that must be construed to recite a
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`function that is performed by specific structures from the patent specification.
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`IPR2014-01098, Decision at pp. 9-10 (Paper No. 9).
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` Petitioner had previously proposed that, according to the broadest 32.
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`reasonable interpretation, the claim term “means for ionizing a feed gas to form a
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`weakly-ionized plasma that reduces the probability of developing an electrical
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`breakdown condition in the chamber” has a claimed function of “ionizing a feed
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`gas to form a weakly-ionized plasma that reduces the probability of developing an
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`electrical breakdown condition in the chamber.” Patent Owner has proposed
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`similar definitions. The Board, in adopting the broadest reasonable interpretation,
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`stated that the recited function of this claim element is “to ionize a feed gas to
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`generate a weakly-ionized plasma.” IPR2014-01098, Decision at p. 11 (Paper No.
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`9).
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`33.
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`I note that the Board’s construction of the claimed function is broader
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`than the construction previously proposed by both Petitioner and Zond; as a result,
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`Petitioner’s previous analysis is based on a narrower construction which is still
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`correct in light of the Board’s broader construction. I agree with this construction
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`by the Board, and my determination that the claims of the ’142 Patent are rendered
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`obvious by the prior art applies this construction. One of ordinary skill in the art
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`would understand that this term claims the function of creating a weakly-ionized
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`plasma by ionizing the feed gas and that it is this weakly-ionized plasma that
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`subsequently reduces the probability of developing an electrical breakdown
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`condition in the chamber.
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` Petitioner had previously proposed that, according to the broadest 34.
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`reasonable interpretation, the corresponding structure for the recited function is a
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`power supply electrically coupled to a cathode, an anode, and/or an electrode,
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`wherein the latter are arranged relative to the sputtering target as shown in Figs.
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`2A-2D and 6A-6D of the ’142 Patent. Patent Owner proposed similar structures
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`without the limitation that the components be arranged relative to the sputtering
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`target. The Board, after noting that there is “more similarity than difference
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`between the corresponding structures proffered by GF and Zond,” stated it
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`identifies “a pulsed power supply electrically connected to a cathode, an anode,
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`and/or an electrode” to be the corresponding structures. IPR2014-01098, Decision
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`at p. 11 (Paper No. 9).
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`35.
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`I agree with this construction by the Board, and my determination that
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`the claims of the ’142 Patent are rendered obvious by the prior art applies this
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`construction. One of ordinary skill in the art would understand that in order to
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`ionize a feed gas to create a weakly-ionized plasma, the ’142 Patent relies on the
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`components that allow power to be absorbed by the feed gas. As demonstrated by
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`the ’142 Patent, these ionization components include a power supply connected to
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`both a cathode and an anode which may or may not include an electrode. ’142
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`Patent at 5:5-10 (no electrode); 16:27-29 (includes electrode) (Ex. 1001).
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`C.
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`“means for supplying power . . .” (claim 40) and “means for
`applying an electric field . . .” (claim 41)
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` Petitioner previously proposed, and the Board agreed, that these 36.
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`similar elements are means-plus-function elements that must be construed to recite
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`a function that is performed by specific structures from the patent specification.
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`IPR2014-01098, Decision at pp. 9-10 (Paper No. 9).
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` Petitioner had previously proposed that, according to the broadest 37.
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`reasonable interpretation, the claim term “means for supplying power to the
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`weakly-ionized plasma by applying an electrical pulse across the weakly-ionized
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`plasma, the electrical pulse having a magnitude and a rise-time that is sufficient to
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`increase the density of the weakly-ionized plasma to generate a strongly-ionized
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`plasma” (claim 40) has a claimed function that maps to the same claim language of
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`claim 40. Patent Owner proposed similar definitions. The Board, in adopting the
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`broadest reasonable interpretation, stated that the recited function of this claim
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`element is “applying an electrical field through an electrical pulse across the
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`weakly-ionized plasma to create a strongly-ionized plasma.” IPR2014-01098,
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`Decision at p. 12 (Paper No. 9).
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` Petitioner had previously proposed that, according to the broadest 38.
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`reasonable interpretation, the claim term “means for applying an electric field
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`across the weakly-ionized plasma in order to excite atoms in the weakly-ionized
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`plasma and to generate secondary electrodes from the cathode, the secondary
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`electrons ionizing the excited atoms, thereby creating the strongly-ionized plasma”
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`(claim 41) has a claimed function that maps to the same claim language of claim
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`41. Patent Owner proposed the same definition. The Board, in adopting the
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`broadest reasonable interpretation, stated that the recited function of this claim
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`element is “applying an electric field across the weakly-ionized plasma thereby
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`generating secondary electrons to create a strongly-ionized plasma.” IPR2014-
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`01098, Decision at p. 12 (Paper No. 9).
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` While the functions of these two claim limitations are slightly 39.
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`different, Petitioner previously proposed that each of these functions correspond to
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`the same structures: a power supply electrically coupled to a cathode, an anode,
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`and/or an electrode, wherein the latter are arranged relative to the sputtering target
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`as shown in Figs. 2A-2D and 6A-6D of the ’142 Patent. The Board subsequently
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`agreed that both claimed functions are carried out by the same structures: “a pulsed
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`power supply electrically connected to a cathode, an anode, and/or an electrode.”
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`IPR2014-01098, Decision at pp. 12-13 (Paper No. 9).
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`40.
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`I note that the Board’s construction of the claimed function is broader
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`than the construction previously proposed by both Petitioner and Zond; as a result,
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`Petitioner’s previous analysis is based on a narrower construction which is still
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`correct in light of the Board’s broader construction. I agree with this construction
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`by the Board, and my determination that the claims of the ’142 Patent are rendered
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`obvious by the prior art applies this construction. One of ordinary skill in the art
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`would understand that both of the claimed functions ultimately create a strongly-
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`ionized plasma from weakly-ionized plasma. In order to accomplish these
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`functions, the ’142 Patent specification relies on ionization components comprising
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`a power supply connected to both a cathode and an anode which may or may not
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`include an electrode. ’142 Patent at 5:5-10 (no electrode); 16:27-29 (includes
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`electrode) (Ex. 1001).
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` Petitioner had previously proposed that, according to the broadest 41.
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`reasonable interpretation, the corresponding structure for the recited function is a
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`power supply electrically coupled to a cathode, an anode, and/or an electrode,
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`wherein the latter are arranged relative to the sputtering target as shown in Figs.
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`2A-2D and 6A-6D of the ’142 Patent. Patent Owner proposed similar structures
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`without the limitation that the components be arranged relative to the sputtering
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`target. The Board stated it identifies “a pulsed power supply electrically
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`connected to a cathode, an anode, and/or an electrode” to be the corresponding
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`structures. IPR2014-01098, Decision at p. 13 (Paper No. 9).
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`42.
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`I agree with this construction by the Board, and my determination that
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`the claims of the ’142 Patent are rendered obvious by the prior art applies this
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`construction. One of ordinary skill in the art would understand that in order to
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`ionize a feed gas to create a weakly-ionized plasma, the ’142 specification relies on
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`the components that allow power to be absorbed by the feed gas. As demonstrated
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`by the ’142 patent, these ionization components include a power supply connected
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`to both a cathode and an anode which may or may not include an electrode. ’142
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`Patent at 5:5-10 (no electrode); ’142 Patent at 16:27-29 (includes electrode) (Ex.
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`1001).
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`“means for diffusing . . .”
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`D.
` Petitioner previously proposed, and the Board agreed, that these 43.
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`similar elements are means-plus-function elements that must be construed to recite
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`a function that is performed by specific structures from the patent specification.
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`IPR2014-01098, Decision at pp. 9-10 (Paper No. 9).
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` Petitioner had previously proposed that, according to the broadest 44.
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`reasonable interpretation, the claim term “means for diffusing the strongly-ionized
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`plasma with additional feed gas to allow additional power to be absorbed by the
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`strongly-ionized plasma” has a claimed function of “diffusing the strongly-ionized
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`plasma with additional feed gas to allow additional power to be absorbed by the
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`strongly-ionized plasma.” Patent Owner proposed the same definition. The Board,
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`in adopting the broadest reasonable interpretation, stated that the recited function
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`of this claim element is “providing a feed gas to the strongly-ionized plasma
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`sufficiently to allow additional power to be absorbed by the strongly-ionized
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`plasma.” IPR2014-01098, Decision at p. 13 (Paper No. 9).
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`45.
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`I note that the Board’s construction of the claimed function is broader
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`than the construction previously proposed by both Petitioner and Zond; as a result,
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`Petitioner’s previous analysis is based on a narrower construction which is still
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`correct in light of the Board’s broader construction. I agree with this construction
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`by the Board, and my determination that the claims of the ’142 Patent are rendered
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`obvious by the prior art applies this construction. One of ordinary skill in the art
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`would understand that this term claims the function of allowing more power to be
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`absorbed by the strongly-ionized plasma by providing additional feed gas to the
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`already-strongly-ionized plasma.
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` Petitioner had previously proposed that, according to the broadest 46.
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`reasonable interpretation, the corresponding structure for the recited function is
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`“feed gas lines 224 as shown in Figs. 2A-2D and 6A-6D and as described in the
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`text of the ’142 Patent at 4:48-5:4.” The Board, after disagreeing with Zond’s
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`proposed construction relating to the ’142 Patent’s chamber, stated that it identifies
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`“a feed gas source and structures for supplying the gas to the strongly-ionized
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`plasma” as the corresponding structures. IPR2014-01098, Decision at pp. 13-14
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`(Paper No. 9).
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`47.
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`I agree with this construction by the Board, and my determination that
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`the claims of the ’142 Patent are rendered obvious by the prior art applies this
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`construction. One of ordinary skill in the art would understand that in order to
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`diffuse the strongly-ionized plasma, the ’142 Patent relies on the components that
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`supply enough feed gas to the strongly-ionized plasma to allow additional energy
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`to be absorbed. As demonstrated by the ’142 Patent, feed gas structures include
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`components such as a gas source and a gas flow control system. ’142 Patent at
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`4:60-62 (Ex. 1001).
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`IV. RESPONSE TO PATENT OWNER’S ARGUMENTS REGARDING
`THE OBVIOUSNESS OF CLAIMS 1-43
`A. General Discussion
`1.
`Power, Voltage, and Current
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` The related patents and references, including the ’142 patent and 48.
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`Kudryavtsev, refer to power supplies, as well as the concepts of power (P), voltage
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`(V), and current (I). As shown below, Kudryavtsev illustrates the relationship
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`between voltage and current, exactly as shown in the ’142 patent, noting that
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`voltage leads current by a time ts.
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` Although Kudryavtsev does not show a power pulse, it is understood 49.
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`that power is defined as a product of the voltage and current (P = V ∙ I).
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` Further, and more importantly, the ’142 patent describes similar 50.
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`power supply operation as Wang. See ’142 Patent at Fig. 4 (Ex. 1001) and Wang at
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`Fig. 6 (Ex. 1005) (reproduced and annotated below).
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` Although both the ’142 patent and Wang refer to power pulses, both 51.
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`teach providing the power pulse in Fig. 4 (’142 patent) and Fig. 6 (Wang) using a
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`voltage pulse. See ’142 patent 14:6-14 (Ex. 1001); Wang at 7:61-64 (Ex. 1005).
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`Wang specifically teaches: “a power supply connected to said target and delivering
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`pulses of power of negative voltage.” Wang at 8:37-38 (Ex. 1005). The negative
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`voltage pulses are further illustrated in Fig. 7 of Wang, being output from the
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`pulsed supply 80.
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`52.
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`In short, and as illustrated above, to generate a power pulse, a voltage
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`pulse with a specific amplitude and rise time is first provided by the power supply.
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`After a period of time (illustrated as the time between t3 and t4 of the ’142 patent,
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`and illustrated as time ts in Kudryavtsev) the current and power will pulse with
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`related profiles.
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`The Two Embodiments of Wang
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`2.
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` As a threshold matter, I note that Patent Owner and Dr. Hartsough’s 53.
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`assertions regarding Wang are flawed because their analysis generally jumps back
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`and forth between two different embodiments, improperly applying some of
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`Wang’s statements directed to one embodiment to the other embodiment.
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` Wang shows and discusses a system diagram of a magnetron sputter 54.
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`reactor in Fig. 1, and then in connection with Figs. 4 and 6, shows and discusses
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`two different embodiments, respectively, of pulsing a target in the reactor of Fig. 1.
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`See Wang at 3:37-50 (Ex. 1005). These two separate and distinct embodiments are
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`shown by the figures reproduced above.
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` While both of these embod