Promethean Insulation Technology LLC v. Sealed Air Corporation et al
Filing
130
MEMORANDUM OPINION AND ORDER. Signed by Magistrate Judge Roy S. Payne on 4/2/2015. (ch, )
IN THE UNITED STATES DISTRICT COURT
FOR THE EASTERN DISTRICT OF TEXAS
MARSHAL DIVISION
PROMETHEAN INSULATION
TECHNOLOGY LLC,
Plaintiff,
v.
§
§
§
§
§
§
§
2:13-CV-1113-JRG-RSP
LEAD CASE
SEALED AIR CORPORATION, ET AL.
MEMORANDUM OPINION AND ORDER
Before the Court is the opening claim construction brief of Promethean Insulation
Technology LLC (“Plaintiff”) (Dkt. No. 99, filed on November 24, 2014), the response and motion
for partial summary judgment of indefiniteness of Defendants Reflectix, Inc., Innovative Insulation,
Inc., TVM Building Products, Inc., Energy Efficient Solutions, LLC, Home Depot U.S.A., Inc.,
Soprema, Inc. (Canada), Soprema, Inc. (United States), and Soprema U.S.A. Inc. (collectively,
“Defendants”) (Dkt. No. 105, filed on December 15, 2014), and the reply of Plaintiff (Dkt. No. 109,
filed under seal on January 13, 2015). The Court held a hearing on the issues of claim construction
and claim definiteness on February 3, 2015. Having considered the arguments and evidence
presented by the parties at the hearing and in their briefing, the Court issues this Order.
Table of Contents
I.
BACKGROUND ............................................................................................................... 3
II.
LEGAL PRINCIPLES ..................................................................................................... 5
III.
CONSTRUCTION OF AGREED TERMS .................................................................... 9
IV.
CONSTRUCTION OF DISPUTED TERMS ................................................................. 9
A. The Class A Insulation Terms............................................................................................. 9
B. The Rating Value Terms ................................................................................................... 19
C. The Outwardly Exposed Terms ........................................................................................ 22
D. The Surface Emissivity Terms .......................................................................................... 31
E. “lacquer protective coating” / “lacquer coating” .............................................................. 41
F. “requires a Class A standard insulation” / “requiring . . . a Class A standard thermal
insulation material” / “requiring Class A standard insulation” / “requiring a Class A
standard thermal insulation” ............................................................................................. 45
G. “said object is selected from an article to be packaged, a vehicle and a residential,
commercial, or industrial building or establishment” ....................................................... 50
V.
CONCLUSION ............................................................................................................... 52
2
I.
BACKGROUND
Plaintiff alleges infringement of five related United States patents: No. 7,935,410 (the
“’410 Patent”), No. 7,935,411 (the “’411 Patent”), No. 8,221,871 (the “’871 Patent”), No.
8,327,601 (the “’601 Patent”), and No. 8,343,614 (the “’614 Patent”) (collectively, the “Asserted
Patents”). Each of the Asserted Patents is entitled “Metallized Polymeric Film Reflective
Insulation Material” and name a common sole inventor, Furio Orologio. The application leading
to the ’410 Patent was filed on August 22, 2006 and claims priority to a Canadian patent
application filed on April 19, 2006. The ’410 Patent issued on May 3, 2011. The application
leading to the ’411 Patent was filed on June 8, 2007 and is a continuation-in-part of the
application for the ’410 Patent. The ’411 Patent issued on May 3, 2011. The application leading
to the ’871 Patent was filed on April 13, 2011 and is a divisional of the application for the ’410
Patent. The ’871 Patent issued on July 17, 2012. The application leading to the ’601 Patent was
filed on April 13, 2011 and is a divisional of the application for the ’411 Patent. The ’601 Patent
issued on Dec. 11, 2012. The application leading to the ’614 Patent was filed on July 12, 2012
and is a continuation of the application for the ’871 Patent. The ’614 Patent issued on January 1,
2013.
In general, the Asserted Patents are directed to insulating objects with reflective
insulation material that incorporate a reflective metallized polymeric film to effect an improved
fire rating over reflective insulation materials that incorporate a reflective metal foil. The abstract
of the ’410 Patent states:
A method of thermally insulating an object that requires a Class A standard
insulation material, said method comprising suitably locating a metallized
polymeric reflective insulation material adjacent said object, wherein said
polymeric material is selected from a closed cell foam, polyethylene foam,
polypropylene foam, expanded polystyrene foam, multi-film layers assembly and
a bubble-pack assembly. The object is preferably packaging, a vehicle or a
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residential, commercial or industrial building or establishment. The polymeric
material may contain a fire-retardant and the bright surface of the metallized layer
has a clear lacquer coating to provide anticorrosion properties, and which
maintains satisfactory reflectance commercial criteria.
Claim 1 of the ’410 Patent, a representative claim to a method of thermally insulating an object,
recites:
Claim 1 of the ’411 Patent, a representative claim to a thermally insulated object, recites:
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II.
LEGAL PRINCIPLES
“It is a ‘bedrock principle’ of patent law that ‘the claims of a patent define the invention
to which the patentee is entitled the right to exclude.’” Phillips v. AWH Corp., 415 F.3d 1303,
1312 (Fed. Cir. 2005) (en banc) (quoting Innova/Pure Water Inc. v. Safari Water Filtration Sys.,
Inc., 381 F.3d 1111, 1115 (Fed. Cir. 2004)). To determine the meaning of the claims, courts start
by considering the intrinsic evidence. See id. at 1313; see also C.R. Bard, Inc. v. U.S. Surgical
Corp., 388 F.3d 858, 861 (Fed. Cir. 2004); Bell Atl. Network Servs., Inc. v. Covad Commc’ns
Group, Inc., 262 F.3d 1258, 1267 (Fed. Cir. 2001). The intrinsic evidence includes the claims
themselves, the specification, and the prosecution history. See Phillips, 415 F.3d at 1314; C.R.
Bard, 388 F.3d at 861. Courts give claim terms their ordinary and accustomed meaning as
understood by one of ordinary skill in the art at the time of the invention in the context of the
entire patent. Phillips, 415 F.3d at 1312-13; accord Alloc, Inc. v. Int’l Trade Comm’n, 342 F.3d
1361, 1368 (Fed. Cir. 2003).
The claims themselves provide substantial guidance in determining the meaning of
particular claim terms. Phillips, 415 F.3d at 1314. First, a term’s context in the asserted claim
can be very instructive. Id. Other asserted or unasserted claims can aid in determining the claim’s
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meaning because claim terms are typically used consistently throughout the patent. Id.
Differences among the claim terms can also assist in understanding a term’s meaning. Id. For
example, when a dependent claim adds a limitation to an independent claim, it is presumed that
the independent claim does not include the limitation. Id. at 1314–15.
“[C]laims ‘must be read in view of the specification, of which they are a part.’” Id. at
1315 (quoting Markman v. Westview Instruments, Inc., 52 F.3d 967, 979 (Fed. Cir. 1995) (en
banc)). “[T]he specification ‘is always highly relevant to the claim construction analysis.
Usually, it is dispositive; it is the single best guide to the meaning of a disputed term.’” Id.
(quoting Vitronics Corp. v. Conceptronic, Inc., 90 F.3d 1576, 1582 (Fed. Cir. 1996)); accord
Teleflex, Inc. v. Ficosa N. Am. Corp., 299 F.3d 1313, 1325 (Fed. Cir. 2002). This is true because
a patentee may define his own terms, give a claim term a different meaning than the term would
otherwise possess, or disclaim or disavow claim scope. Phillips, 415 F.3d at 1316. In these
situations, the inventor’s lexicography governs. Id. The specification may also resolve the
meaning of ambiguous claim terms “where the ordinary and accustomed meaning of the words
used in the claims lack sufficient clarity to permit the scope of the claim to be ascertained from
the words alone.” Teleflex, 299 F.3d at 1325. But, “[a]lthough the specification may aid the court
in interpreting the meaning of disputed claim language, particular embodiments and examples
appearing in the specification will not generally be read into the claims.” Comark Commc’ns,
Inc. v. Harris Corp., 156 F.3d 1182, 1187 (Fed. Cir. 1998) (quoting Constant v. Advanced
Micro-Devices, Inc., 848 F.2d 1560, 1571 (Fed. Cir. 1988)); accord Phillips, 415 F.3d at 1323.
The prosecution history is another tool to supply the proper context for claim
construction because a patent applicant may also define a term in prosecuting the patent. Home
Diagnostics, Inc., v. Lifescan, Inc., 381 F.3d 1352, 1356 (Fed. Cir. 2004) (“As in the case of the
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specification, a patent applicant may define a term in prosecuting a patent.”). “[T]he prosecution
history (or file wrapper) limits the interpretation of claims so as to exclude any interpretation that
may have been disclaimed or disavowed during prosecution in order to obtain claim allowance.”
Standard Oil Co. v. Am. Cyanamid Co., 774 F.2d 448, 452 (Fed. Cir. 1985).
Although extrinsic evidence can be useful, it is “less significant than the intrinsic record
in determining the legally operative meaning of claim language.” Phillips, 415 F.3d at 1317
(citations and internal quotation marks omitted). Technical dictionaries and treatises may help a
court understand the underlying technology and the manner in which one skilled in the art might
use claim terms, but technical dictionaries and treatises may provide definitions that are too
broad or may not be indicative of how the term is used in the patent. Id. at 1318. Similarly,
expert testimony may aid a court in understanding the underlying technology and determining
the particular meaning of a term in the pertinent field, but an expert’s conclusory, unsupported
assertions as to a term’s definition are entirely unhelpful to a court. Id. Generally, extrinsic
evidence is “less reliable than the patent and its prosecution history in determining how to read
claim terms.” Id. The Supreme Court recently explained the role of extrinsic evidence in claim
construction:
In some cases, however, the district court will need to look beyond the patent’s
intrinsic evidence and to consult extrinsic evidence in order to understand, for
example, the background science or the meaning of a term in the relevant art
during the relevant time period. See, e.g., Seymour v. Osborne, 11 Wall. 516, 546
(1871) (a patent may be “so interspersed with technical terms and terms of art that
the testimony of scientific witnesses is indispensable to a correct understanding of
its meaning”). In cases where those subsidiary facts are in dispute, courts will
need to make subsidiary factual findings about that extrinsic evidence. These are
the “evidentiary underpinnings” of claim construction that we discussed in
Markman, and this subsidiary factfinding must be reviewed for clear error on
appeal.
Teva Pharm. USA, Inc. v. Sandoz, Inc., 135 S. Ct. 831, 841 (2015).
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The “determination of claim indefiniteness is a legal conclusion that is drawn from the
Court’s performance of its duty as the construer of patent claims.” Exxon Research & Eng’g Co.
v. United States, 265 F.3d 1371, 1375 (Fed. Cir. 2001). Section 112 entails a “delicate balance”
between precision and uncertainty:
On the one hand, the definiteness requirement must take into account the inherent
limitations of language. Some modicum of uncertainty, the Court has recognized,
is the price of ensuring the appropriate incentives for innovation. . . . At the same
time, a patent must be precise enough to afford clear notice of what is claimed,
thereby apprising the public of what is still open to them. Otherwise there would
be a zone of uncertainty which enterprise and experimentation may enter only at
the risk of infringement claims. And absent a meaningful definiteness check, we
are told, patent applicants face powerful incentives to inject ambiguity into their
claims. . . . Eliminating that temptation is in order, and the patent drafter is in the
best position to resolve the ambiguity in patent claims.
Nautilus Inc. v. Biosig Instruments, Inc., 134 S. Ct. 2120, 2128–29 (2014) (citations omitted).
Therefore, in order for a patent to be definite under § 112, ¶ 2, 1 “a patent’s claims, viewed in
light of the specification and prosecution history, [are required to] inform those skilled in the art
about the scope of the invention with reasonable certainty.” Id. at 2129. The determination of
“definiteness is measured from the viewpoint of a person skilled in the art at the time the patent
was filed.” Id. at 2128 (emphasis in original, citations omitted). “The definiteness
requirement . . . mandates clarity, while recognizing that absolute precision is unattainable.” Id.
at 2129. This standard reflects rulings that have found that “the certainty which the law requires
in patents is not greater than is reasonable, having regard to their subject-matter.” Id. at 2129.
“Whether a claim reasonably apprises those skilled in the art of its scope is a question of law.”
Microprocessor Enhancement Corp. v. Texas Instruments Inc., 520 F.3d 1367, 1374 (Fed. Cir.
2008). As it is a challenge to the validity of a patent, the failure of any claim in suit to comply
with § 112 must be shown by clear and convincing evidence. Nautilus, 134 S. Ct. at 2130 n.10.
1
As the Asserted Patents have an effective filing date earlier than Sept. 16, 2012, the pre-AIA
version of 35 U.S.C. § 112 governs the definiteness analysis here.
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III.
CONSTRUCTION OF AGREED TERMS
The parties originally disputed the meaning of “bubble-pack assembly” and “bubble pack
insulation assembly.” (See, e.g., Dkt. No. 99 at 24–26; Dkt. No. 105 at 27.) Before the claimconstruction hearing, the parties reached an agreement that these terms do not need to be
construed with the understanding that the plain and ordinary meaning of the terms encompasses
“two films engaged to form a plurality of cavities.” (See Dkt. No. 110-1 at 4, Jan. 20, 2015 P.R.
4-5(d) Joint Claim Construction Chart.)
The Court agrees with the parties’ understanding and holds that “bubble-pack
assembly” and “bubble-pack insulation assembly” do not need to be construed, that they are
accorded their plain and ordinary meaning, and that the plain and ordinary meaning encompasses
“two films engaged to form a plurality of cavities.”
IV.
CONSTRUCTION OF DISPUTED TERMS
The parties’ positions and the Court’s analysis as to the disputed terms are presented
below.
A.
The Class A Insulation Terms
Disputed Terms
“Class A standard insulation
material”
(’410 Patent, claims 1, 14;
’601 Patent, claims 1, 3, 30)
“Class A standard thermal
insulation material”
(’411 Patent, claim 1)
“Class A standard thermal
insulation”
(’871 Patent, claim 1;
’614 Patent, claim 1)
Plaintiff’s Proposed
Construction
Defendants’ Proposed
Construction
An insulation material that
satisfies the Class A
specifications for Flame
Spread Index and Smoke
Developed Index as
determined by the standard
ASTM E-84 test without the
use of a wire mesh supporting
material.
Insulation material having a
Flame Spread Index of 0 to
25 and a Smoke Developed
Index of 0 to 450 as
determined by the standard
ASTM E-84-05 test in
existence as of the effective
filing date of the patents-insuit.
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Disputed Terms
Plaintiff’s Proposed
Construction
Defendants’ Proposed
Construction
“said insulation material being
sufficient to satisfy the
requirements for Class A
thermal insulation”
(’410 Patent, claims 1, 14)
“A reflective Class A standard
thermal insulation”
(’871 Patent, claim 18;
’614 Patent, claim 14)
A reflective insulation
material that satisfies the
Class A specifications for
Flame Spread Index and
Smoke Developed Index as
determined by the standard
ASTM E-84 test without the
use of a wire mesh supporting
material.
The Class A Insulation terms are found in the claims of the Asserted Patents as follows:
Claims 1, 3, and 14 of the ’410 Patent each recites “Class A standard insulation material” and
claims 1 and 14 each recites “said insulation material being sufficient to satisfy the requirements
for Class A thermal insulation.” Claims 1 and 11 of the ’411 Patent each recites “Class A
standard thermal insulation material.” Claims 1 and 18 of the ’871 Patent each recites “Class A
standard thermal insulation.” Claims 1, 3, and 30 of the ’601 Patent each recites “Class A
standard insulation material.” And claims 1 and 14 of the ’614 Patent each recites “Class A
standard thermal insulation.” 2 Because the parties’ arguments and proposed constructions treat
these terms as related, the Court addresses them together.
The Parties’ Positions
Plaintiff submits that: (1) its proposed constructions capture “one of the defining aspects
of the claimed invention” and are consistent with the Asserted Patents’ specifications and
prosecution histories, and that Defendants’ proposed constructions are inconsistent with the
2
The Court notes that claim 2 of the ’411 patent, Claim 2 of the ’871 Patent, and claim 2 of the
’614 Patent each recites “Class A insulation,” a term not identified for construction.
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teachings of the Asserted Patents and are in part duplicative of express claim language (Dkt. No.
99 at 3); (2) “Class A,” when referring to insulation material in certain industries, denotes that
the “material meets certain insulation performance characteristics in a given application” (id. at
4); (3) the “primary parameters” of the Class A rating are the material’s flame spread index and
the smoke developed index, which typically must be in the range 0–25 and 0–450, respectively
(id.); and (4) in the context of the Asserted Patents, the material’s flame spread index and the
smoke developed index are measured using the procedure set forth in ASTM E84 Standard Test
Method for Surface Burning Characteristics of Building Material without the use of a wire mesh
to support the material (id. at 5–7).
In addition to the claims themselves, Plaintiff cites the following intrinsic and extrinsic
evidence to support its position. Intrinsic evidence: ’410 Patent col.3 ll.46–65, col.4 ll.2–16,
col.9 l.34–col.18 l.13 (Examples); ’410 Patent prosecution history July 22, 2010 Inventor Decl.
(Pl.’s Exh. 6), Jan. 26, 2009 Response to Office Action (Pl.’s Exh. 17). Extrinsic evidence:
ASTM E2599–10 (Pl.’s Exh. 8); ASTM E84–05 (Pl.’s Exh. 9); ASTM E84–06 (Pl.’s Exh. 10);
ASTM E84–09 (Pl.’s Exh. 11); ASTM E84–09a (Pl.’s Exh. 12); ASTM E84–09b (Pl.’s Exh. 13);
ASTM E84–09c (Pl.’s Exh. 14); ASTM E84–10 (Pl.’s Exh. 15).
Defendants respond that: (1) Plaintiff’s proposed construction would improperly result in
a claim meaning that changes over time—as the ASTM E84 test method changes over time (Dkt.
No. 105 at 9–10); (2) the test to determine whether a material qualifies as “Class A” in the
context of the Asserted Patents is the same test as defined by the version of ASTM E84 in effect
as of the effective filing date of the Asserted Patents, namely ASTM E84–05 (id. at 9–11); (3)
the ASTM E84–05 test includes support of the material by a wire mesh (id. at 11); and (4) the
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inventor did not specially redefine the Class A test or disavow any aspect of the ASTM E84-05
test to justify excluding the wire mesh support as Plaintiff proposes (id. at 12–15).
In addition to the claims themselves, Defendants cite the following intrinsic and extrinsic
evidence to support their position. Intrinsic evidence: ’410 Patent col.3 l.66–col.4 l.2, col.19
ll.22–42; ’411 Patent col.5 ll.13–16, col.13 ll.26–49; ’410 Patent prosecution history July 22,
2010 Inventor Decl. (Defs.’ Exh. 10), Jan. 26, 2009 Response to Office Action (Defs.’ Exh. 11);
U.S. Patent App. No. 13/672,334 (continuation of ’601 Patent) prosecution history July 25, 2014
Response to Office Action (Defs.’ Exh. 9). Extrinsic evidence: ASTM E84–05 (Defs.’ Exh. 8);
ASTM E2599–10 (Defs. Exh. 6).
Plaintiff replies that: (1) its proposed construction does not result in different meanings at
different times, but rather is based on the version of the ASTM E84 in effect as of the effective
filing date of the Asserted Patents (Dkt. No. 109 at 2); and (2) the then-in-effect ASTM E84 test
procedures permitted the material to be supported by a wire mesh, but did not require the use of a
wire mesh (id. 2–3).
Plaintiff cites further extrinsic evidence to support its position: Tokarski Depo. (Pl.’s
Exh. 43).
Analysis
The parties agree that to qualify as a Class A insulation material, a material must exhibit
specific fire retardant characteristics. Their dispute lies in defining the test used to determine
whether the material possesses the requisite characteristics. Given the purpose and character of
the inventions of the Asserted Patents as set forth in the intrinsic evidence, and the various
procedures allowed by the test standard that the parties agree defined how the characteristics
were measured at the effective filing date of the Asserted Patents, the Court holds that whether a
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material qualifies as “Class A” under the Asserted Patents is determined by the ASTM E84–05
test procedure without the use of a wire mesh to support the material, whether or not the material
also qualifies as “Class A” with the use of a wire mesh to support the material.
The inventor of the Asserted Patents, Mr. Orologio, recognized the need for insulation
assemblies “having improved fire retardant standards.” ’410 Patent col.3 ll.43–45. 3 He explained
that reflective insulation materials “must meet minimum surface burning characteristics to satisfy
codes.” Id. at col.3 ll.46–51. These characteristics are determined through measurements of the
material’s “Flame Spread and Smoke Developed Values.” See id. at col.3 ll.51–52. The material
is classified according to these values:
Id. at col.3 ll.55–63.
The standard test to determine the Flame Spread and Smoke Developed Values was
defined by ASTM E84. See id. at col.3 ll.46–66. That test allows for “the use of a hexagonal 50
mm steel wire mesh with 6 mm diameter steel rods spaced at 610 mm intervals to support the
insulation materials” in the flame test oven. See id. at col.3 l.66–col.4 l.2. Mr. Orologio noted
that the use of such a wire mesh to support the material was known to allow some reflective
insulation materials to satisfy the Class A standard when the materials would not qualify as Class
3
Other than their claim sets, the ’410 Patent, the ’871 Patent, and the ’614 Patent have nearly
identical specifications. The ’411 Patent and the ’601 Patent have nearly identical specifications
(other than the claims) and essentially comprise the ’410 Patent specification plus some extra
material introduced in the application that led to the ’411 Patent. For the purposes of this
opinion, the Court primarily cites the ’410 Patent realizing that the ’411 Patent, the ’871 Patent,
the ’601 Patent, and the ’614 Patent have equivalent cites, and cites the ’411 Patent for material
not found in the ’410 Patent realizing the ’601 Patent has equivalent cites.
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A without the use of the wire mesh support in the test. Id. at col.4 ll.3–8. Specifically, “the use of
supporting materials on the underside of the test specimen may lower the flame spread index
from that which might be obtained if the specimen could be tested without such support. This
method may not be appropriate for obtaining comparative surface burning behavior of some
cellular plastic materials.” Id. at col.12 ll.29–35.
Mr. Orologio’s invention is based on his discovery that by replacing the metallic foil in
the prior art reflective insulation material with a polymer film having a metallized coating, the
surface burning characteristics of the insulation material are improved when measured via the
ASTM E84 test “in the absence of the wire mesh support.” See id. at col.4 ll.9–16. His reflective
insulation materials having the metallized polymeric film “provide improved safety towards
fire.” Id. at col.4 ll.34–37. The objects of his invention were to provide: (1) “metallized
polymeric film reflective insulation material . . . having improved fire retardant properties,” id. at
col.4 ll.42–51; (2) “a method of thermally insulating an [object] with a Class A standard
metallized polymeric reflective insulation material having improved fire retardant properties,” id.
at col.4 ll.52–55; and (3) “an improved thermally-insulated [object] having a Class A standard
metallized polymeric reflective insulation material,” id. at col.4 ll.56–59. Thus, his invention was
meant to be an improvement over prior art Class A reflective insulation materials in that it would
qualify as a Class A material under the ASTM E84 test without use of the wire mesh support.
Various embodiments of the metallized polymer insulation invention, and their
performance in the standard ASTM E84–05 test, are described in the Asserted Patents. ’410
Patent col.12 l.12–col.14 l.60 (Examples 3–6). All embodiments were tested in the flame test
oven without the wire mesh support—they were self-supporting—and all qualified as Class A
material. Id. The Asserted Patents also describe a number of metallic-foil insulation materials
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that were tested under “less stringent ASTM E84 test conditions,” but still without the use of the
wire mesh support. Id. at col.14 l.61–col.15 l.28 (Examples 7–9). The Asserted Patents describe
only two ASTM E84 tests that were performed with use of a wire mesh support, and they were
performed under ASTM E84-00a conditions, not under ASTM E84-05 conditions, they were of
prior art reflective insulation materials, and they were performed over four years before the
effective filing date of the Asserted Patents. Id. at col.16 l.33–col.17 l.14 (Examples 14 and 15).
All described embodiments of the invention that were tested under the ASTM E84-05 standard
were tested without a wire mesh support to determine if they were an improvement over the state
of the art—i.e., to see if the material had the Flame Spread and Smoke Developed Values to
qualify as Class A material as measured without the use of the wire mesh support.
The prosecution history further indicates that Mr. Orologio’s invention is directed to a
reflective insulation material that qualifies as Class A material under the ASTM E84 test without
the use of the wire mesh support. In the prosecution of the application leading to the ’410 Patent,
Mr. Orologio explained to the patent examiner that his invention was meant to address the need
for reflective insulation materials that qualify as Class A under the ASTM E84 test conditions
without the use of the wire mesh support. Orologio July 22, 2010 Decl. at ¶ 7 (Pl.’s Exh. 6 at 3).
He stated to the patent examiner,
As a background, it is important to note that prior to the invention of the subject
application, bubble pack assemblies, commonly known as reflective insulation,
included aluminum foil as the reflective component. It was thought that such
assemblies were qualified to serve as Class A thermal insulation based on the
results obtained when the assembly was subject to a standard flame test where it
was the practice to support the assembly being tested on steel wire mesh.
However, it has subsequently been shown that the available reflective insulation
assemblies, based on the use of aluminum foil, did not meet Class A requirements
and that for a proper determination regarding Class A status, materials
should be tested without the steel wire support conventionally used.
Id. (emphasis added)
15
The Court further finds that the extrinsic evidence indicates that those in the field of
reflective insulation material at or about the Asserted Patents’ effective filing date shared Mr.
Orologio’s understanding—i.e., the wire mesh support mounting was not appropriate for an
ASTM E84-05 test of reflective insulation material. For example, Section 1.3 of ASTM E84-05
states “The use of supporting materials on the underside of the test specimen has the ability to
lower the flame spread index from those which might be obtained if the specimen could be tested
without such a support.” (Pl.’s Exh. 9 at 1.) Section X4.7.7 of that document states that “[i]f
supported on wire screen . . . materials [such as cellular plastics] may be completely engulfed in
flame, and a questionable comparison is being made between the surface flame-spread of
nominal 1-in. (0.039-mm) thick red oak with the burning rate of these materials.” (Pl.’s Exh. 9 at
19.) Given that the ASTM E84-05 test “is intended to provide only comparative measurements
of surface flame spread and smoke density measurements with that of a select grade of red oak
and fiber-cement board surfaces” a “questionable comparison” with red oak will lead to a
questionable result. See ASTM E84-05 at § 4.1 (Pl.’s Exh. 9 at 2). The standard ultimately
recognized that “[f]or some building materials none of the [mounting] methods described may be
applicable. In such cases, other means of support may have to be devised.” Id. at § X1.1.1.2
(Pl.’s Exh. 9 at 13); see also, id. at § X1.1.1.3 (Pl.’s Exh. 9 at 13) (describing the listed mounting
methods as “suggested”). And Defendant Reflectix’s president testified that everyone in the
industry knew by March 2006—months before the effective filing date of the Asserted Patents—
that the ASTM E84 test standard was going to be changed to eliminate the option to use wire
mesh support. See, e.g., Tokarksi Depo. at 51:9–19, 100:9–17 (Pl.’s Exh. 43 at 2, 8).
Defendants’ argument that the Asserted Patents do not sufficiently exclude the wire mesh
support from the Class A test is unavailing. First, the ASTM E84-05 mounting methods are not
16
mandated, they are suggested. And the standard itself recognizes that the wire-mesh-support
mounting may be inapplicable in some circumstances and notes that a different, appropriate,
mounting method should be used when a described mounting means is inapplicable. Second, not
only did Mr. Orologio clearly state in the intrinsic record that mounting the reflective insulation
material using a wire mesh support was inappropriate for ASTM E84-05 testing of the material,
those in the industry knew that such mounting was inappropriate as of the effective filing date.
Finally, the intrinsic record is replete with references to the invention as or using an improved
reflective insulation material that qualifies as a Class A material under the ASTM E84-05 test
when mounted other than with a wire mesh support because the use of the wire mesh support
does not yield a trustworthy result. Indeed, the very problem that Mr. Orologio set out to solve
was to devise a reflective insulation material that qualifies as a Class A material when tested
according to the ASTM E84 standard when mounted without the use of the wire mesh support.
The Court’s construction is consistent with what Mr. Orologio described as his invention in the
Asserted Patents and their prosecution histories and Defendants’ proposed construction is not.
See Inpro II Licensing, S.A.R.L. v. T-Mobile USA Inc., 450 F.3d 1350, 1353–57 (Fed. Cir. 2006)
(limiting a claim to exclude certain technology when that technology was disparaged in the
patent and when overcoming the failing of that technology was described as a purpose of the
invention); Chicago Bd. Options Exch., Inc. v. Int'l Sec. Exch., LLC, 677 F.3d 1361, 1371–72
(Fed. Cir. 2012) (same).
Defendants argue that: (1) Mr. Orologio knew how to expressly claim testing without a
wire mesh support because he included “when tested without wire mesh support” in an amended
claim in a related pending Patent Application No. 13/672,334 on March 26, 2014 (Dkt. No. 105
at 12); and (2) because the claims of the Asserted Patents do not include “when tested without
17
wire mesh support,” the claims allow for testing with a wire mesh support. At the hearing,
Defendants reiterated this argument, pointing to the claim as it issued on January 20, 2015 in
U.S. Patent No. 8,936,847. The Court disagrees with Defendants’ conclusion. First, the intrinsic
and extrinsic evidence is conclusive that Mr. Orologio’s invention as claimed in the Asserted
Patents was an improvement over the prior art in that it qualified as Class A without the use of
the wire mesh support in the qualification test. Second, the claim in the related patent is of
substantially different scope than the Class-A claims. For example, it does not recite Class A.
The claim language was introduced into a substantially different claim in a related patent
application roughly eight years after the effective filing date of the Asserted Patents, and nearly
three years after the ’410 Patent issued, and it does not overcome the evidence of the meaning of
the Class A terms in the Asserted Patents as of the effective filing date.
Further, because the claims separately recite the Flame Spread and Smoke Developed
values that are the defining characteristics of a Class A material, the Court will not incorporate
those values into its constructions.
But the meaning of “Class A” in the claims cannot be tied to a test standard that did not
exist as of the effective filing date or that could be changed in a way that changes the scope of
the claims over time. As Defendants note, “[a] claim cannot have different meanings at different
times; its meaning must be interpreted as of its effective filing date.” PC Connector Solutions
LLC f. SmartDisk Corp., 406 F.3d 1359, 1363 (Fed. Cir. 2005) (citing Markman v. Westview
Instruments, Inc., 52 F.3d 967, 986 (Fed. Cir. 1995) (en banc)). Whether a material is Class A for
purposes of the Asserted Patents is determined by the ASTM E84 test in effect as of the effective
filing date, namely ASTM E84–05, but without using the wire mesh support, regardless of
whether it also qualifies as Class A when using the wire mesh support.
18
Accordingly, the Court construes the Class A Insulation terms as follows:
•
“Class A standard insulation material” means “thermal insulation material that
qualifies as a Class A material under the ASTM E84-05 standard without the use
of a wire mesh supporting material”;
•
“Class A standard thermal insulation material” means “thermal insulation material
that qualifies as a Class A material under the ASTM E84-05 standard without the
use of a wire mesh supporting material”;
•
“Class A standard thermal insulation material” means “thermal insulation material
that qualifies as a Class A material under the ASTM E84-05 standard without the
use of a wire mesh supporting material”;
•
“said insulation material being sufficient to satisfy the requirements for Class A
thermal insulation” means “said insulation material being sufficient to qualify as a
Class A material under the ASTM E84-05 standard without the use of a wire
mesh supporting material”; and
•
“a reflective Class A standard thermal insulation” means “a reflective thermal
insulation material that qualifies as a Class A material under the ASTM E84-05
standard without the use of a wire mesh supporting material.”
B.
The Rating Value Terms
Disputed Terms
“flame speed rating value”
(’410 Patent, claims 1, 14;
’411 Patent, claim 1;
’601 Patent, claims 1, 30)
Plaintiff’s Proposed
Construction
Flame spread index as
measured by ASTM E-84
without the use of a wire
mesh supporting material
19
Defendants’ Proposed
Construction
No construction necessary
Disputed Terms
Plaintiff’s Proposed
Construction
Defendants’ Proposed
Construction
“flame spread speed rating
value”
(’871 Patent, claim 1, 18;
’614 Patent, claims 1, 14)
“smoke developed rating
value”
(’410 Patent, claims 1, 14;
’411 Patent, claim 1;
’871 Patent, claims 1, 18;
’601 Patent, claims 1, 30;
’614 Patent, claims 1, 14)
Smoke developed index as
measured by ASTM E-84
without the use of a wire
mesh supporting material
No construction necessary
The Rating Value terms are found in the claims of the Asserted Patents as follows:
Claims 1 and 14 of the ’410 Patent each recites “flame speed rating value” and “smoke
developed rating value.” Claims 1 and 11 of the ’411 Patent each recites “flame speed rating
value” and “smoke developed rating value.” Claims 1 and 18 of the ’871 Patent each recites
“flame spread speed rating value” and “smoke developed rating value.” Claims 1 and 30 of the
’601 Patent each recites “flame speed rating value” and “smoke developed rating value.” And
claims 1 and 14 of the ’614 Patent each recites “flame spread speed rating value” and “smoke
developed rating value.” Because the parties’ arguments and proposed constructions treat the
terms as related, the Court addresses them together.
The Parties’ Positions
Plaintiff submits that: (1) “flame speed rating value” and “flame spread speed rating
value” are both synonymous with “flame spread index” as that index is defined in ASTM E84
(Dkt. No 99 at 9); (2) “smoke developed rating value” is synonymous with “smoke developed
index” as that index is defined in ASTM E84 (id.); and (3) the rating values are described in the
intrinsic record as being determined through the ASTM E84 test method without the use of the
wire mesh support (id.).
20
In addition to the claims themselves, Plaintiff cites the following intrinsic and extrinsic
evidence to support its position. Intrinsic evidence: ’410 Patent col.3 ll.54–63, col.9 l.34–col.18
l.13 (Examples). Extrinsic Evidence: ASTM E84–05 (Pl.’s Exh. 9).
Defendants respond that: (1) the rating values are the indices as determined according to
version of the ESTM E84 test procedure in effect as of the effective filing date of the Asserted
Patents (see Dkt. No. 105 at 15–16); and (2) that the then-effective ESTM E84 test procedure did
not exclude the use of a wire mesh support (id.).
In addition to the claims themselves, Defendants cite the following extrinsic evidence to
support their position: ASTM E84–05 (Defs.’ Exh. 8); ASTM E2599–10 (Defs. Exh. 6).
Plaintiff replies that: (1) the ASTM E84 test procedures in effect as of the effective filing
date of the Asserted Patents permitted the material to be supported by a wire mesh, but did not
require the use of a wire mesh (Dkt. No. 109 at 1), and (2) the intrinsic record specifies using the
ASTM E-84 test procedure without using the supporting wire mesh (id. at 1–3).
Plaintiff cites further extrinsic evidence to support its position: Tokarski Depo. (Pl.’s
Exh. 43).
Analysis
The parties agree that: (1) “flame speed rating value” and “flame spread speed rating
value” mean the “flame spread index” of ASTM E84 and (2) the “smoke developed rating value”
means the “smoke developed index” of ASTM E84. The Court agrees. The value terms are used
in the Asserted Patents identically to the index terms of ASTM E84. See, e.g., ’410 Patent col.3
ll.54–63 (flame speed value and smoke developed value) and col.12 ll.56–67 (flame spread index
and smoke developed index).
21
The parties disagree with respect to the process to determine these indices. In essence,
this is the same disagreement that the parties have with respect to the Class A Insulation terms,
and for the reasons stated above, the Court holds that these terms are defined with respect to
ASTM E84–05 without the use of a wire mesh support.
Accordingly, the Court construes the Rating Value terms as follows:
•
“flame speed rating value” means “flame spread index as measured under the
ASTM E84-05 standard without the use of a wire mesh supporting material”;
•
“flame spread speed rating value” means “flame spread index as measured under
the ASTM E84-05 standard without the use of a wire mesh supporting material”;
and
•
“smoke developed rating value” means “ smoke developed index as measured
under the ASTM E84-05 standard without the use of a wire mesh supporting
material.”
C.
The Outwardly Exposed Terms
Disputed Terms
“reflective metallized outer
surface”
(’410 Patent, claims 1, 14)
“a reflective metallized
polymeric film as its exposed
outer surface”
(’411 Patent, claim 1)
“foil free metallized outwardly
exposed surface”
(’871 Patent, claims 1, 18;
’601 Patent, claim 1, 30)
“at least one outer layer of said
metallized film”
Plaintiff’s Proposed
Construction
A reflective metallized
surface that faces away from
the insulated object.
A polymeric film having a
reflective metallized surface
that faces away from the
insulated object.
A foil free metallized surface
that faces away from the
insulated object.
No construction necessary
(’601 Patent, claim 14)
22
Defendants’ Proposed
Construction
A reflective metallized layer
positioned externally
relative the insulation
material.
Disputed Terms
“exposed surface”
(’614 Patent, claim 1)
Plaintiff’s Proposed
Construction
A surface that faces away
from the insulated object.
Defendants’ Proposed
Construction
The outer-surface and exposed-surface terms are found in the claims of the Asserted
Patents as follows: Claims 1 and 14 of the ’410 Patent each recites “reflective metallized outer
surface.” Claims 1 and 11 of the ’411 Patent each recites “a reflective metallized polymeric film
as its exposed outer surface.” Claims 1 and 18 of the ’871 Patent each recites “foil-free
metallized outwardly exposed surface.” 4 Claims 1 and 30 of the ’601 Patent each recites “foilfree metallized outwardly exposed surface” and claim 14 recites “at least one outer layer of said
metallized film.” 5 And claims 1 and 19 of the ’614 Patent each recites “exposed surface,” and
claim 14 recites “at least one outer layer of said metallized film.” 6 Because the parties’
arguments and proposed constructions treat these terms as related, the Court addresses them
together.
The Parties’ Positions
Plaintiff submits that: (1) the outer-surface terms should be construed to recognize that
the claims are directed to methods for insulating objects and to insulated objects and that
Defendants’ exclusive focus on the insulation material is improper (see Dkt. No. 99 at 10); (2)
examination of the entirety of the methods for insulating an object reveals that the “suitably
locating” step positions the insulation material adjacent to the object such that the material has a
4
The Court notes that claim 6 of the ’871 Patent recites “at least one outer layer of said
metallized thermoplastic film” and claim 7 recites “An object as claimed in claim 6 having two
outer layers.”
5
The Court notes that claim 15 of the ’601 Patent recites “A method as claimed in claim 4
wherein said assembly has two outer layers.”
6
The Court notes that claim 6 of the ’614 Patent recites “at least one outer layer of said
metallized thermoplastic film” and claim 7 recites “An object as claimed in claim 6 having two
outer layers.”
23
surface that faces away from the object, so “outer surface” and “outwardly exposed surface”
refer to the surface that faces away from the object (see id. at 11–12); (3) examination of the
entirety of the claims to an insulated object reveals that the terms “exposed outer surface,”
“outwardly exposed surface,” and “exposed surface” refer to the insulation material as assembled
with the object to insulate the object, so the terms relate to the insulated object, not just the
material (see id. at 12–13); and (4) statements made by the patentee in an ex parte reexamination
of the ’410 Patent explain that the metalized surface of the insulation material faces outward
from the object being insulated (id. at 13–14).
In addition to the claims themselves, Plaintiff cites the following intrinsic and extrinsic
evidence to support its position. Intrinsic evidence: ’410 Patent reexamination prosecution
history Dec. 1, 2011 Supplemental Submission of Request for Ex Parte Reexamination (Pl.’s
Exh. 18); ’411 Patent prosecution history May 2, 2011 Submission (Pl.’s Exh. 19). Extrinsic
Evidence: ASTM C1224–03 (Pl.’s Exh. 20). 7
Defendants respond that the plain language of the claims, the description of the
inventions, and the prosecution history indicate that in an insulation material comprising a
reflective metallized film bonded to a bubble-pack assembly, the metallized film is an “outer”
surface if it is “positioned external to the bubble-pack assembly.” (Dkt. No. 105 at 17–19.)
Defendants argue that the descriptions of the invention contrast an “outer” metallized layer of the
insulation with an inner layer and thus “outer” means “external.” (Id. at 19.) Defendants further
argue that in an ex parte reexamination of the ’411 Patent, the patentee explained that the
7
Plaintiff contends that the May 2, 2011 submission and the ASTM C1224-03 standard were
submitted to the U.S. Patent and Trademark Office in the reexamination of the ’410 Patent. (See
Dkt. No. 99 at 13 n.12.)
24
metallized film is positioned “outwardly” or “externally” to the bubble-pack assembly to provide
a reflective outer surface. (Id.)
In addition to the claims themselves, Defendants cite the following intrinsic evidence to
support their position: ’410 Patent Fig. 14, col.6 ll.4–6, col.7 ll.39–42, col.8 ll.41–45; ’411 Patent
col.8 ll.19–22; ’411 Patent reexamination prosecution history Nov. 4, 2011 Supplemental
Submission of Request for Ex Parte Reexamination (Defs.’ Exh. 12).
Plaintiff replies that the outer-surface terms must be construed in the context of the entire
claim in which they are found, and that the Defendants improperly isolate the claim terms to
reach their proposed construction. (Dkt. No. 109 at 4–5.) Plaintiff argues that statements in the
prosecution history explain that the metalized surface is both (1) positioned on the outer surface
of the bubble-pack assembly and (2) positioned so that it faces away from the insulated object.
(Id. at 5.) Plaintiff further argues that even if the statements in the reexamination of the ’411
Patent that the Defendants’ cite explain that the metallized film is on the outer surface of a
bubble-pack assembly, the statements do not preclude that the metallized film is also facing
outwardly from the insulated object, as stated elsewhere in the prosecution history. (Id. at 6.)
Analysis
The parties appear to equate “outer surface,” “outwardly exposed surface,” “exposed
outer surface” and “exposed surface.” Defendants would also equate “outer layer” with those
terms. The parties’ main dispute is with respect to the relative position of the surface (or layer) in
question. Plaintiff proposes that the surface faces away from the insulated object. Defendants
propose that the surface be an external surface of the insulation material.
To begin, the Court is not convinced that “exposed” and “outer” are interchangeable or
that “layer” and “surface” are interchangeable.
25
The term “exposed surface” is used in the
Asserted Patents to describe a surface that is not enclosed
or covered by the insulated object. See, e.g., ’410 Patent
col.9 ll.51–53 (“This method is used to evaluate the
flammability characteristics of finish wall and ceiling
coverings when such materials constitute the exposed
interior surfaces of buildings.”), col.12 ll.17–20 (“The
method is for determining the comparative surface
burning behaviour of building materials. This test is
’411 Patent col.23 ll.40–56
applicable to exposed surfaces, such as ceilings or
walls”). The ’411 Patent describes a burn test of
reflective insulation comprising foil bonded to polymer film in various configurations. ’411
Patent col.23 l.16–col.24 l.60 (Example 21). “Whenever an exposed polymer film face was
present in the sample the blowtorch was directed on that surface because it is the polymer surface
that is exposed to the interior of the walls and ceiling of a building and which surface is
generally, initially, subject to a fire within the building.” Id. col.23 ll.27–31. Two listed samples,
reproduced here, are illustrative. Sample 2 has aluminum foil on top and a polymer film on the
bottom. Sample 3 has aluminum foil on the top and the bottom. The other samples are of similar
configuration, with variations in the inner layers. Id. at col.23 ll.34–67. In sample 2, the bottom
face of the bottom polymer film is the “exposed” surface because that face, when the insulation
is installed, would face away from the object such that the bottom face was exposed—the
aluminum foil surface would face toward the object and would not be exposed. The ’411 Patent
26
similarly describes another sample set, having a metallized-polymer layer in place of the
metallic-foil layer. Id. at col.24 ll.48–60.
The term “outer” as used in the Asserted Patents to describe the insulation refers to a
position with respect to the insulation. For example, an “outer layer” is contrasted with an “inner
layer.” See, e.g., ’410 Patent col. 6, ll.4–6 (“The assembly, as hereinabove defined, may have at
least one outer layer of metallized thermoplastic film, or, surprisingly, one or more inner, only,
layers”); FIG. 14 (referring to the outermost layer of the bubble-pack assembly as an “outer
layer” without reference to an object insulated by the assembly).
The term “layer” as used in the Asserted Patents to describe the insulation refers to the
various films and foils stacked to form the insulation. See, e.g., ’410 Patent col.4 ll.9–15
(“substitution of metallic foil, particularly, aluminum foil, with a metallized, particularly,
aluminum, coating on an organic polymer layer . . . favourably enhances the surface burning
characteristics of the reflective insulation in
the aforesaid ASTM E84 test in the absence
of the wire mesh support”), col.4 ll.17–20
(“the presence of a fire retardant compound
in or on one or more of the polymer layers
’410 Patent FIG.14
of a reflective insulation assembly further
favourably enhances the surface burning
characteristics of the insulation”), col.5 ll.32–35 (“the use of at least one layer of metallized
thermoplastic film provides enhanced fire retardant properties over those having only a
corresponding layer(s) of aluminum foil”), col.8 ll.41–45 (“FIG. 14 is a bubble-pack-scrim
laminated blanket assembly having polyethylene layers 112, 114, 116 and 118 and scrim layer
27
126 with nylon tapes 124 laminated between layers 112 and 114. Adhered to outer layer 112 is a
metallized PET layer 12.”).
The term “surface” as used in the Asserted Patents to describe the insulation refers to the
surfaces of the layers. See, e.g., ’410 Patent col.3 ll.35–39 (“Metallized films and their methods
of production are well-known in the art. One technique is to evaporate an extremely thin layer of
nearly pure aluminum onto a surface of the non-porous plastics material under vacuum by a socalled ‘vacuum metallizer.’”), col.7 ll.23–27 (“a clear polymeric lacquer coating applied to the
metallic layer having the higher reflectivity (bright) surface as the outer layer provides a
protective layer to manual handling without significant loss of reflectance”), col.19 ll.3–10
(“Standard Surface Emittance (reflectivity) tests . . . with the embodiments shown in FIG. 3 and
FIG. 17 gave a measured emittance of 0.30 (65% reflectance) for the dull surface of the
metallized coated PET material and a value of 0.06 (96% reflectance) for the shiny surface.”).
For the terms that do not include “exposed,” the Court agrees with Defendants’ proposed
construction in so far as “outer” refers to a position with respect to the insulation material. For
example, in the following phrase from claim 1 of the ’410 Patent, the metallized polymeric film
is claimed as “positioned” with respect to the bubble-pack assembly without reference to the
insulated object:
suitably locating a reflective insulation material in a thermally insulating position
adjacent to said object,
wherein said reflective insulation material comprises a bubble-pack assembly having
a metallized polymeric film bonded thereto such that said metallized polymeric
film is positioned to provide said assembly with a reflective metallized outer
surface, said reflective metallized outer surface having a clear, anticorrosion
lacquer protective coating thereon.
Given that the Asserted Patents distinguish between “inner” and “outer” with respect to the
insulation material itself rather than with respect to the insulation material as located on the
28
insulated object, Defendants’ proposed construction best matches the claim language and aligns
with the description of the invention. See Phillips v. AWH Corp., 415 F.3d 1303, 1316 (Fed. Cir.
2005) (en banc) (“‘The construction that stays true to the claim language and most naturally
aligns with the patent's description of the invention will be, in the end, the correct construction.’”
(quoting Renishaw PLC v. Marposs Societa' per Azioni, 158 F.3d 1243, 1250 (Fed. Cir. 1998)).
For the terms that include “exposed,” the Court agrees with Plaintiff’s proposed
construction. For example, in the following phrase from claim 1 of the ’411 Patent, the outer
surface of the metallized polymeric film is claimed as exposed with respect to the insulated
object:
said object being insulated with said Class A standard thermal insulation material
located adjacent to said object, said insulation material comprising a bubble-pack
insulation assembly provided with a reflective metallized polymeric film as its
exposed outer surface.
Given that the Asserted Patents describe the various embodiments of the invention as having an
insulation material with an “exposed” surface with respect to the insulation material as located
on the insulated object, Plaintiff’s proposed construction best matches the claim language and
aligns with the description of the invention. See Phillips, 415 F.3d at 1316 (“‘The construction
that stays true to the claim language and most naturally aligns with the patent's description of the
invention will be, in the end, the correct construction.’” (quoting Renishaw, 158 F.3d at 1250).
Plaintiff’s proposed construction also gives separate effect to the words “exposed” and “outer,”
and thus the word “exposed” is not rendered superfluous, as it is under Defendants’ proposed
construction. See id. at 1314 (reasoning that the phrase “steel baffles” “strongly implies that the
term ‘baffles’ does not inherently mean objects made of steel”); Bicon, Inc. v. Straumann Co.,
441 F.3d 945, 950 (Fed. Cir. 2006) (“claims are interpreted with an eye toward giving effect to
all terms in the claim”). And contrary to Defendants’ argument, the word “its” in the claim
29
phrase “as its exposed outer surface” does not mandate Defendants’ construction. True, “its” in
the phrase refers to “said insulation material” in the claim. But “said insulation material” refers
to “Class A standard insulation material located adjacent to said object.” Thus, the “exposed
outer surface” is of the outer surface of the insulation material that is exposed when the
insulation material is located adjacent to the insulated object.
Finally, the Court rejects Defendants’ proposed construction in so far is it equates the
words “layer” and “surface.” These terms are used in differently in the Asserted Patents. And
Defendants’ proposed construction not only fails to capture the differences, it runs counter to the
presumption that “different terms in the claims connotes different meanings.” See CAE
Screenplates, Inc. v. Heinrich Fiedler GmbH & Co. KG, 224 F.3d 1308, 1317 (Fed. Cir. 2000)
(“we must presume that the use of . . . different terms in the claims connotes different
meanings”).
Accordingly, the Court construes the Outwardly Exposed terms as follows:
•
“reflective metallized outer surface” means “reflective metallized surface that faces
away from the insulation material”;
•
“foil-free metallized outwardly exposed surface” means “foil-free metallized surface
that faces away from the insulated object”;
•
“a reflective metallized polymeric film as its exposed outer surface” means “a
polymeric film having a reflective metallized surface that faces away from the
insulated object”;
•
“exposed surface” means “surface that faces away from the insulated object”; and
•
“at least one outer layer of said metallized film” means “at least one reflective
metallized layer positioned externally relative to the insulation material.”
30
D.
The Surface Emissivity Terms
Disputed Terms
Plaintiff’s Proposed
Construction
Defendants’ Proposed
Construction
“a surface thermal emissivity
equivalent to or greater than
95% reflectance”
(’410 Patent, claims 1, 14)
“the surface thermal emissivity
is equivalent to or greater than
95% reflectance”
The measure of the
percentage of infrared
(’871 Patent, claim 24;
radiation reflecting from the
’601 Patent, claim 36,
surface is equal to or greater
’614 Patent, claim 20)
than 95%
“wherein said metallized
polymeric film with the
lacquer coating thereon has a
surface thermal emissivity
equivalent to or greater than
95% reflectance”
The measure of the
percentage of thermal
radiation reflecting from the
surface is greater than 95%.
(’411 Patent, claim 1)
“effective surface emissivity of
said exposed surface”
(’871 Patent, claim 1;
’614 Patent, claim 1)
“an effective surface
emissivity of the exposed
surface”
(’871 Patent, claim 23;
’601 Patent, claim 35;
’614 Patent, claim 19)
“a surface thermal emissivity
sufficient to meet required
emissivity”
An emittance of the exposed
surface less than or equal to .1
An emittance of the surface
less than 0.05
An emittance of the surface
less than or equal to .1
(’601 Patent, claim 1)
The Surface Emissivity terms are found in the claims of the Asserted Patents as follows:
Claims 1 and 14 of the ’410 Patent each recites “a surface thermal emissivity equivalent to or
greater than 95% reflectance.” Claims 1 and 11 of the ’411 Patent each recites “surface thermal
emissivity equivalent to or greater than 95% reflectance.” Claims 1 and 23 the ’871 Patent each
31
recites “effective surface emissivity” and claim 24 recites “surface thermal emissivity is
equivalent to or greater than 95% reflectance.” Claim 1 of the ’601 Patent recites “surface
thermal emissivity sufficient to meet required emissivity,” claim 35 recites “an effective surface
emissivity of the exposed surface,” and claim 36 recites “a surface thermal emissivity is
equivalent to or greater than 95% reflectance.” 8 And claims 1 and 19 of the ’614 Patent each
recites “an effective surface emissivity of the exposed surface” and claim 20 recites “the surface
thermal emissivity is equivalent to or greater than 95% reflectance.” Because the parties’
arguments and proposed constructions treat these terms as related, the Court addresses them
together.
The Parties’ Positions
Plaintiff submits that: (1) within the field of the invention, the prosecution history, and
the description of the invention, “thermal emissivity” refers to the emissivity of infrared radiation
(Dkt. No. 99 at 16–19), (2) an emissivity “equivalent to or greater than 95% reflectance” refers
to an emissivity that is 95% or greater reflectance (id. at 19–22), and (3) an emissivity is
considered “effective” or “sufficient to meet required emissivity” according to relevant industry
standards if it is less than or equal to 0.1, and the terms are used in the patent as in they were in
industry (id. at 22–24).
In addition to the claims themselves, Plaintiff cites the following intrinsic and extrinsic
evidence to support its position. Intrinsic evidence: ’410 Patent col.6 ll.65–67, col.19 ll.1–10;
’410 Patent prosecution history Sept. 2, 2009 Office Action (Pl.’s Exh. 31), March 24, 2010
Office Action (Pl.’s Exh. 30), Apr. 22, 2010 Response to Office Action (Pl.’s Exh. 35); ’411
Patent prosecution history Sept. 1, 2009 Office Action (Pl.’s Exh. 34), Dec. 31, 2009 Response
8
The Court notes that claim 29 of the ’601 Patent recites “an emissivity of no more than 0.04 or
a reflectance of greater than 95%.”
32
to Office Action (Pl.’s Exh. 39), March 8, 2010 Supplemental Response to Office Action (Pl.’s
Exh. 36), March 25, 2010 Office Action (Pl.’s Exh. 33), May 4, 2010 Office Action (Pl.’s Exh.
32); U.S. Patent App. No. 13/672,334 (continuation of ’601 Patent) prosecution history
November 13, 2014 Notice of Allowance (Pl.’s Exh. 37). Extrinsic Evidence: ASTM C727–01
(Pl.’s Exh. 38); ASTM C1224–03 (Pl.’s Exh. 24); ASTM C1371–04a (Pl.’s Exh. 25); RIMA
Int’l, Understanding and Using Reflective Insulation Barriers and Radiation Control Coating
(2d. ed. May 2002) (Pl.’s Exh. 21); Innovative Insulation Inc. webpages (Pl.’s Exhs. 22 and 23);
Energy Efficient Solutions webpage (Pl.’s Exh. 26); tvm Building Products, Technical Data
Sheet Between-Joint Insulation (Pl.’s Exh. 27); Innovative Energy, Inc., Astro-Therm Thermal
Insulation (Pl.’s Exh. 28); Insulation Solutions, Radiant Shield Flexible Attic Radiant Barrier
(Pl.’s Exh. 29).
Defendants respond that: (1) “thermal emissivity” refers to thermal radiation and that
Plaintiff’s proposed “infrared radiation” is ambiguous because it is not clear what wavelengths
are considered “infrared” and it is inaccurate because it does not capture all wavelengths of
thermal radiation (see Dkt. No. 105 at 24); (2) an emissivity “equivalent to or greater than 95%
reflectance” refers to an emissivity that is greater than 95% reflectance because the patentee
disavowed 95% reflectance in the prosecution of the application for the ’411 Patent and because
there is no written description support for an emittance equal to 95% reflectance (id. at 21–23);
and (3) an emissivity is “effective” or “sufficient to meet required emissivity” in the context of
the Asserted Patents if it is less than 0.05 because emissivity and reflectance sum to
approximately 1 and the prosecution history dictates that reflectance must be greater than 0.95
(id. at 25–26).
33
In addition to the claims themselves, Defendants cite the following intrinsic and extrinsic
evidence to support their position. Intrinsic evidence: ’411 Patent col.4 ll.60–65, col.7 ll.28–30,
col.8 ll.11–18, col.22 ll.32–34; ’601 Patent col.7 l.65–col.8 l.15; ’410 Patent prosecution history
March 8, 2010 Supplemental Response to Office Action (Defs.’ Exh. 18); ’411 Patent
prosecution history June 19, 2009 Amendment Accompanying Request for Continued
Examination (Defs.’ Exh. 13), Sept. 1, 2009 Office Action (Defs.’ Exh. 14), Dec. 31, 2009
Response to Office Action (Defs.’ Exh. 15), March 8, 2010 Supplemental Response to Office
Action (Defs.’ Exh. 16), U.S. Patent Publ’n No. 2007/0245664 (Defs.’ Exh. 17), March 25, 2010
Office Action (Defs.’ Exh. 19). Extrinsic evidence: ASTM C1224–03 (Defs. Exh. 20).
Plaintiff replies that: (1) the insulation industry, including Defendants, use “emissivity”
and “reflectance” to refer to a material’s ability to emit or reflect infrared radiation and the Patent
Office understood the terms to be used that way during examination of the applications for the
Asserted Patents (Dkt. No. 109 at 7); (2) the amendment of pending claims to restrict the
emissivity to greater than 95% reflectance during prosecution of an application cannot qualify as
a disavowal of 95% when the pending claims were later amended in prosecution to expressly
encompass emissivity equivalent to or greater than 95% reflectance and the Asserted Patents
issued with, and their descriptions support, the broader claim language (id. at 8–9); and (3) that
even if the prosecution history dictated that “equivalent to or greater than 95% reflectance”
means “greater than 95% reflectance” the “effective” and “sufficient” emissivity terms are
independent of the “equivalent to or greater than 95% reflectance” terms and the prosecution
history related to the “equivalent to or greater than 95% reflectance” terms cannot constitute a
disavowal of what constitutes “effective” or “sufficient” emissivity (id. at 10–11).
34
Plaintiff cites further intrinsic evidence to support its position: ’410 Patent col.1 ll.33–
35, col.4 ll.42–44, col.7 ll.23–35; ’411 Patent col.7 l.66–col.8 l.10, col.22 ll.13–16; ’410 Patent
prosecution history U.S. Patent Publ’n No. 2007/0248805 (Pl.’s Exh. 44); ’411 Patent
prosecution history April 22, 2010 Response to Office Action (Pl.’s Exh. 45), Aug. 25, 2010
Supplemental Response to Office Action (Pl.’s Exh. 46), Feb. 11, 2011 Request for Continued
Examination (Pl.’s Exh. 47).
Analysis
The parties agree that emissivity and reflectance refer to a material’s ability to emit and
reflect radiation. There are three issues in dispute with respect to the Surface Emissivity terms:
(1) whether the emissivity and reflectance terms refer to the emissivity and reflectance of thermal
radiation or of infrared radiation; (2) whether a disclaimer by amendment attaches to the
“equivalent to or greater than 95% reflectance” terms when the amended claims never issued as
amended; and (3) whether an “effective” and “sufficient” emissivity refers to an emittance of less
than or equal to 0.1 or to an emittance of less than 0.05.
Infrared / Thermal Radiation. There are two references to “radiation” in the Asserted
Patents. The first reference explains that the metallized polymer is used to reflect infrared
radiation. ’410 Patent col.6 ll.65–67 (“The bubble-pack further comprises one or more organic
polymer films metallized with a suitable metal, for example, aluminum to enhance reflection of
infra-red radiation.”). The second reference explains that an effective lacquer coating on the
metallized polymer protects the metallized polymer from corrosion while maintaining the layer’s
ability to reflect thermal radiation. ’411 Patent at col.8 ll.11–16 (“Thus, by anti-corrosion
effective clear lacquer in this specification is meant that the layer coating has a sufficient
thickness to provide effective anti-corrosion protection to the metallized layer while providing an
35
emissivity reading of no more than 0.04, i.e. that at least 96% of thermal radiation is reflected
from that face.”). There is not a clear definition of “thermal radiation” as “infrared radiation,” or
of “thermal emissivity” as “emissivity of infrared radiation.”
Plaintiff points to statements by the patent examiner in the prosecution history and
extrinsic
evidence
to
support
its
argument
that
“thermal
emissivity”
refers
to
emission/reflectance of infrared radiation. (Dkt. No. 99 at 17–19.) But these references can
equally be interpreted to mean that thermal emissivity refers to emission/reflectance of thermal
radiation, which includes infrared radiation. The example extrinsic evidence provided by
Plaintiff on page 17 of its opening brief is illustrative: “emittance” is defined as “refer[ing] to the
ability of a material’s surface to emit radiant energy.” (Id. at 17.) The same section that defines
emittance goes on to explain that “The lower the emittance of a material, the lower the heat
(infra-red radiant energy) radiated from its surface.” (Id.) The fact that the document refers to
“infrared radiant energy” can be interpreted to mean that the term “radiant energy” does not
inherently mean infrared radiant energy. See Phillips, 415 F.3d at 1314 (reasoning that the phrase
“steel baffles” “strongly implies that the term ‘baffles’ does not inherently mean objects made of
steel”).
The Asserted Patents identify a standard by which the emissivity values are determined,
namely ASTM C1371-04a. ’410 Patent col.19 ll.1–10 (Example 16); ’411 Patent col.22 ll.5–46
(Example 19). The Court finds that the ASTM standard sets forth a “means of quantifying the
emittance of opaque, highly thermally conductive materials near room temperature.” ASTM
C1371-04a § 1.1 (Pl.’s Exh. 25 at 2). While the standard does caution that it does not apply to
materials that are “transparent to infrared radiation” it does not state that the measurement is
restricted to infrared radiation. See ASTM C1371-04a § 5.1.3 (Pl.’s Exh. 25 at 4). This can be
36
interpreted to mean that the standard measures emissivity with respect to thermal radiation and
that thermal radiation includes, but is not limited to, infrared radiation.
Given that the term is “thermal emissivity” and not “infrared emissivity” the Court
prefers Defendants’ construction, but modified to explicitly recognize that thermal radiation
includes infrared radiation. The Court also notes that the thermal emissivity in the Asserted
Patents is determined according to ASTM C1371-04a, and that standard refers to a measurement
“near room temperature.” The Court’s construction does not render the ASMT C1371-04a test
inapplicable.
Equivalent to or greater than 95% reflectance. The Court rejects Defendants’
argument that the patentee somehow disclaimed 95% from the “equivalent to or greater than
95%” claim language. While Mr. Orologio did at one point narrow his claims to “greater than
95%” in the course of prosecuting the ’411 Patent application, see Dec. 31, 2009 Response to
Office Action at 2 (Defs.’ Exh. 15 at 3), he later amended the claims to recite “equivalent to or
greater than 95%”—and clearly announced such to the patent examiner, see Mar. 8, 2010
Response to Office Action at 5 (Pl.’s Exh. 36 at 3). It can hardly be said that he narrowed his
claims to secure issuance of the patent when he actually broadened his claims in prosecution and
it was the broader claims that issued. Defendants’ reliance on United Video Props. v.
Amazon.com, Inc., 561 F. App’x 914 (Fed. Cir. 2014) is unfounded. That case considered an
issued claim that was narrowed by amendment in the course of prosecution. Id. at 917–18. Here,
while the claims were narrowed by amendment at one point in the prosecution, they were later
broadened by amendment. And it is the broadened claim that issued that we are considering.
There cannot be a clear and unmistakable disavowal of claim scope when an applicant expressly
and overtly injects into the pending claims the very subject matter asserted to be disavowed. See
37
id. at 917 (“We do not rely on the prosecution history to construe the meaning of the claim to be
narrower than it would otherwise be unless a patentee limited or surrendered claim scope through
a clear and unmistakable disavowal.”).
Having determined that there was no disavowal of claim scope and because the plain
meaning of “equivalent to or greater than 95% reflectance” is not ambiguous, the Court refuses
to engage in the validity analysis the Defendants propose. As the Federal Circuit stated in
Phillips,
While we have acknowledged the maxim that claims should be construed to
preserve their validity, we have not applied that principle broadly, and we have
certainly not endorsed a regime in which validity analysis is a regular component
of claim construction. Instead, we have limited the maxim to cases in which the
court concludes, after applying all the available tools of claim construction, that
the claim is still ambiguous.
415 F.3d at 1327 (citations and quotation marks omitted). Here, as in Phillips, the requested
validity analysis is inappropriate.
Effective / Sufficient Emissivity. For the reasons stated in the discussion on the
“equivalent to or greater than 95% reflectance” term, the Court rejects Defendants’ disavowal
argument. The Court further rejects Defendants’ proposed construction—“an emittance . . . less
than 0.05”—as that construction would exclude an exemplary embodiment having a 0.06
emittance:
Standard Surface Emittance (reflectivity) tests (ASTM C 1371-04a—“Standard
Test Method for Determination of Emittance of Materials near Room
Temperature Using Portable Emissometers”) with the embodiments shown in
FIG. 3 and FIG. 17 gave a measured emittance of 0.30 (65% reflectance) for the
dull surface of the metallized coated PET material and a value of 0.06 (96%
reflectance) for the shiny surface.
’410 Patent col.19 ll.1–10. And “[a] construction that excludes a preferred embodiment is rarely,
if ever, correct.” C.R. Bard, Inc. v. United States Surgical Corp., 388 F.3d 858, 865 (Fed. Cir.
2004).
38
Plaintiff argues that an emissivity is “sufficient” or “effective” if it meets the industry
standard. (Dkt. No. 99 at 23.) The Court agrees. For example, the ’410 Patent describes:
Thus, I also have found that a suitable and effective thickness of the lacquer
polymeric coating can provide satisfactory anti-corrosion protection to the metal
surface and still allow of sufficient reflectance as to meet the emissivity
standard as set by the industry.
col.7 ll.26–32 (emphasis added). Plaintiff further argues that a “sufficient” or “effective
emissivity” is different than an emissivity “equivalent to or greater than 95% reflectance” as
expressly recited in separate claims. (Dkt. No. 99 at 23.) The Court agrees. See SRI Int’l v.
Matsushita Elec. Corp of Am., 775 F.2d 1107, 1122 (Fed. Cir. 1985) (en banc) (“It is settled law
that when a patent claim does not contain a certain limitation and another claim does, that
limitation cannot be read into the former claim in determining either validity or infringement.”).
The question remains: what does it mean for the emissivity to meet the industry standard?
Plaintiff submits that the industry standard is an emissivity of 0.1 or less. (Dkt. No. 99 at
23.) The Court agrees. First, this was explained in the intrinsic record. The patentee submitted
the following statement to the patent examiner in the course of prosecuting the ’411 Patent:
The term “reflective insulation” is a term of art. Reflective insulation has a high
degree of reflectivity and, accordingly, a low degree of emissivity, the inverse of
reflectivity. According to ASTM standard C 1224 the emissivity of reflective
insulation must [be] 0.10 or less. This means that it must reflect at least 90% of
the radiant energy to which it is exposed.
Dec. 31, 2009 Response to Office Action at 4, and attachment (Pl.’s Exh. 39 at 3, 17). The Court
finds that the extrinsic evidence further supports the statement in the intrinsic record: Section 1.1
of ASTM C1224-03 states that “[r]eflective insulations derive their thermal performance from
surfaces with an emittance of 0.1 or less, facing enclosed air spaces” (emphasis in original)
(Pl.’s Exh. 24 at 2). And the Asserted Patents refer to emissivity as measured according to
another ASTM standard, the ASTM C1371–04a standard. See, e.g., ’410 Patent col.19 ll.1–10
39
(Example 16); ’411 Patent col.22 ll.5–46 (Example 19). One of skill in the art would read the
claims knowing that the industry standard is the ASTM standard, and that the standard calls for
an emissivity of 0.1 or less. See Phillips, 415 F.3d at 1313 (one of ordinary skill in the art “is
deemed to read the words used in the patent documents with an understanding of their meaning
in the field, and to have knowledge of any special meaning and usage in the field”) (quoting
Multiform Desiccants, Inc. v. Medzam, Ltd., 133 F.3d 1473, 1477 (Fed. Cir. 1998)).
Accordingly, the Court construes the Surface Emissivity Terms as follows:
•
“a surface thermal emissivity equivalent to or greater than 95% reflectance”
means “a measure of the percentage of thermal radiation, including infrared
radiation, reflecting from the surface near room temperature is equal to or greater
than 95%”;
•
“the surface thermal emissivity is equivalent to or greater than 95% reflectance”
means “the measure of the percentage of thermal radiation, including infrared
radiation, reflecting from the surface near room temperature is equal to or greater
than 95%”;
•
“wherein said metallized polymeric film with the lacquer coating thereon has a
surface thermal emissivity equivalent to or greater than 95% reflectance” means
“wherein said metallized polymeric film with the lacquer coating thereon has a
measure of the percentage of thermal radiation, including infrared radiation,
reflecting from the surface near room temperature that is equal to or greater than
95%”;
•
“effective surface emissivity of said exposed surface” means “an emittance of the
exposed surface less than or equal to 0.1”;
40
•
“an effective surface emissivity of the exposed surface” means “an emittance of
the exposed surface less than or equal to 0.1”; and
•
“a surface thermal emissivity sufficient to meet required emissivity” means “an
emittance of the surface less than or equal to 0.1.”
E.
“lacquer protective coating” / “lacquer coating”
Disputed Terms
Plaintiff’s Proposed
Construction
Defendants’ Proposed
Construction
“lacquer protective coating”
(’410 Patent, claims 1, 14)
“lacquer coating”
(’411 Patent, claim 1;
’871 Patent, claim 1;
’601 Patent, claim 1;
’614 Patent, claim 1)
No construction necessary
Alternatively, Promethean
proposes: “a coating that
dissolves in a lacquer
solvent”
A protective coating formed
using a liquid-based
material that may be applied
by techniques, such as by
brushing, spraying, and
deposition.
The lacquer terms are found in the Asserted Patents as follows: Claims 1 and 14 of the
’410 Patent each recites “lacquer protective coating.” 9 Claims 1 and 11 of the ’411 Patent each
recites “lacquer coating.” 10 Claims 1 and 25 of the ’871 Patent each recites “lacquer coating.”
Claims 1, 29, and 37 of the ’601 Patent each recites “lacquer coating.” And Claims 1 and 21 of
the ’614 Patent each recites “lacquer coating.”
The Parties’ Positions
Plaintiff submits that: (1) the terms “lacquer protective coating” and “lacquer coating”
will be readily understood by the fact finder so no construction is necessary (Dkt. No. 99 at 26);
and (2) the terms are used in the Asserted Patents without restriction on the method of applying
the lacquer so no such restriction should be incorporated by construction (id. at 27).
9
The Court notes that claim 13 of the ’410 patent recites “said lacquer protective coating
comprises an acrylic polymer or copolymer of 80,000-150,000 molecular weight.”
10
The Court notes that claims 3 and 11 of the ’411 patent each recites “the lacquer protective
coating comprises an acrylic polymer or copolymer of 80,000-150,000 molecular weight.”
41
In addition to the claims themselves, Plaintiff cites the following intrinsic evidence to
support its position: ’410 Patent col.7 ll.23–32, 43–47.
Defendants respond that: (1) the meaning of “lacquer” and “lacquer coating” is
susceptible to conflicting interpretations so the terms must be construed to guide the jury (Dkt.
No. 105 at 28); (2) the terms must be construed to give effect to “lacquer” such that not every
coating is a “lacquer coating” (see id.); and (3) the description of the invention explains what a
lacquer is by reference to its application process, it is something that can be applied “by
brushing, spraying, deposition and the like” so construction of the term should incorporate the
application process (see id. at 28–29); and (4) one of ordinary skill in the art would understand
“lacquer” to be a liquid-based material both in the context of the Asserted Patents and generally
in the art (see id. at 29–30).
In addition to the claims themselves, Defendants cite the following intrinsic and extrinsic
evidence to support their position. Intrinsic evidence: ’410 Patent col.7 ll.43–46; ’411 Patent
col.8 ll.6–10. Extrinsic evidence: Richard J. Lewis, Sr., Hawley’s Condensed Chemical
Dictionary (13th ed. 1997) (Defs.’ Exh. 21); Stephen L. Rosen, Fundamental Principles of
Polymeric Materials (2d ed. 1993) (Defs. Exh. 22).
Plaintiff replies that: (1) the lacquer terms include words used in common parlance and
are thus understandable without construction (Dkt. No. 109 at 11); (2) the claims recite a coating
made of lacquer, not a method of applying a lacquer, so the claims should not be limited by the
method of application (id. at 11–13); and (3) the Asserted Patents describe that a lacquer may
applied by “deposition” thus a lacquer need not be applied in liquid form, it may be applied as a
vapor, as was known in the art (see id. at 12–13). Plaintiff further replies that if the Court decides
42
to construe the terms, the terms should be construed as “a coating that dissolves in a lacquer
solvent” as that “is consistent with the commonly understood definition of lacquer.” (Id. at 13.)
Plaintiff cites further extrinsic evidence to support its position: Tokarski Depo. (Pl.’s
Exh. 43); Ex. 12 to Tokarski Depo. (Pl.’s Exh. 48).
Analysis
The parties do not dispute the meaning of “coating” as each use that word in their
proposed constructions. The dispute centers on the meaning of “lacquer.” The dispute is threefold: (1) whether the term should be construed at all; (2) whether exemplary application methods
should be incorporated into the construction; and (3) whether the term should be construed as
“liquid based.” The Court holds that it must construe “lacquer” as there is a legitimate dispute
over the meaning of the term that affects determination of infringement. U.S. Surgical Corp. v.
Ethicon, Inc., 103 F.3d 1554, 1568 (Fed. Cir. 1997) (“Claim construction is a matter of
resolution of disputed meanings and technical scope, to clarify and when necessary to explain
what the patentee covered by the claims, for use in the determination of infringement.”); O2
Micro Int’l Ltd. v. Beyond Innovation Tech. Co., 521 F.3d 1351, 1362 (Fed. Cir. 2008) (“When
the parties present a fundamental dispute regarding the scope of a claim term, it is the court's
duty to resolve it.”).
Plaintiff contends that “lacquer” has its common-place meaning and Defendants do not
appear to contest this. The Asserted Patents suggest that the “lacquers” of the Asserted Patents,
and their modes of application, are well known in the art:
The clear lacquer coating may be applied to the highest reflectance surface, i.e.
the bright side, of the metallic surface by techniques, such as by brushing,
spraying, deposition and the like, as is well-known in the art. Preferred lacquers
are clear, cross-linked polymers well-known in the art.
43
’410 Patent col.7 ll.43–47 (emphasis added). Defendants submit a technical dictionary definition
in support of their construction that defines “lacquer” as a “protective or decorative coating that
dries primarily by evaporation of solvent, rather than by oxidation or polymerization.” Richard J.
Lewis, Sr., Hawley’s Condensed Chemical Dictionary 651 (13th ed. 1997) (Defs.’ Exh. 21 at 4).
In its reply brief, Plaintiff proposes an alternative definition. It cites the Hawley’s definition in
arguing that the alternative definition is “consistent with the commonly understood definition of
lacquer.” (Dkt. 109 at 13.) Apparently, Plaintiff believes that the Hawley’s definition
appropriately captures the common meaning of the term.
Defendants, while relying on the Hawley’s definition, propose a construction that
includes an open ended list of exemplary application methods. (Dkt. No. 105 at 29.) The Court
rejects Defendants proposed construction as it threatens to improperly import limitations from
the description of the exemplary embodiments. See Phillips, 415 F.3d at 1320 (identifying “one
of the cardinal sins of patent law—reading a limitation from the written description into the
claims”). And it does not further the purpose of claim construction—to clarify and explain. See
U.S. Surgical, 103 F.3d at 1568.
During the claim construction hearing, neither party objected to the Court’s construction
of “lacquer coating” and “lacquer protective coating.”
Accordingly, the Court construes the terms as follows:
•
“lacquer coating” means “a protective coating that dries primarily by evaporation
of solvent, rather than by oxidation or polymerization”; and
•
“lacquer protective coating” means “a protective coating that dries primarily by
evaporation of solvent, rather than by oxidation or polymerization.”
44
F.
“requires a Class A standard insulation” / “requiring . . . a Class A standard
thermal insulation material” / “requiring Class A standard insulation” /
“requiring a Class A standard thermal insulation”
Disputed Terms
Plaintiff’s Proposed
Construction
Defendants’ Proposed
Construction
“an object that requires a Class
A standard insulation material”
(’410 Patent, claims 1, 14;
’601 Patent, claims 1, 30)
“A thermally insulated object
requiring and provided with a
Class A standard thermal
insulation material”
(’411 Patent, claim 1)
“requiring Class A standard
insulation”
No construction necessary
apart from the Class A terms.
Indefinite.
(’601 Patent, claim 3)
“An object requiring a Class A
standard thermal insulation”
(’614 Patent, claim 1;
’871 Patent, claim 1)
The Requiring Terms are found in the Asserted Patents as follows: Claims 1 and 14 of the
’410 Patent each recites “an object that requires a Class A standard insulation material.”11
Claims 1 and 11 of the ’411 Patent each recites “A thermally insulated object requiring and
provided with a Class A standard thermal insulation material.” 12 Claim 1 of the ’871 Patent
recites “An object requiring a Class A standard thermal insulation.” 13 Claims 1 and 30 of the
’601 Patent each recites “an object that requires a Class A standard insulation material” and
claim 3 recites “requiring Class A standard insulation material.” And claim 1 of the ’614 Patent
recites “An object requiring a Class A standard thermal insulation.”
11
The Court notes that claim 3 of the ’410 patent recites “said object . . . requiring Class A
standard insulation material.”
12
The Court notes that claim 3 of the ’411 patent recites “said object . . . requiring Class A
insulation.”
13
The Court notes that claim 2 of the ’871 Patent recites “an object . . . requiring Class A
insulation.”
45
The Parties’ Positions
Plaintiff submits that the Requiring Terms are not indefinite as one of ordinary skill in the
art would understand whether or not an application requires a Class A rating. (See Dkt. No. 99 at
29–30.)
In addition to the claims themselves, Plaintiff cites the following intrinsic and extrinsic
evidence to support its position. Intrinsic evidence: ’410 Patent col.1 ll.5–13. Extrinsic
evidence: July 31, 2007 email forwarding a June 4, 2007 RIMA update (Pl.’s Exh. 42).
Defendants respond that one of ordinary skill in the art would not understand what it
means for an object to require a Class A rating because: (1) the requirement may be, for
example, a function of law, industry standard, or contract; (2) it is unclear if the requirement
attaches when the object moves from jurisdiction to jurisdiction; and (3) it is unclear whether the
object requires a Class A rating when there are conflicting requirements or when only a portion
of the object requires a Class A rating. (See Dkt. No. 105 at 4.) Defendants contend that the
intrinsic record fails to clarify who or what requires a Class A rating (id. at 5–6) and that the
extrinsic evidence cited by Plaintiff “has little bearing on what the patentee intended the [terms]
to mean upon filing the patent application” at least in part because the evidence is a statement
made “more than a year after the effective filing date” of the Asserted Patents (id. at 7).
In addition to the claims themselves, Defendants cite the following intrinsic and extrinsic
evidence to support their position. Intrinsic evidence: ’410 Patent col.1 ll.6–13. Extrinsic
evidence: July 31, 2007 email forwarding a June 4, 2007 RIMA Update on Fire Code Issues
(Defs.’ Exh. 7).
Plaintiff replies that: (1) whether a Class A rating is required for an object is simply a
function of whether an entity with the right and authority to ask for such a rating asks for or
46
demands such a rating (Dkt. No. 109 at 14); and (2) Defendants’ industry experts and
participants have testified that there is no ambiguity as to whether an object requires the Class A
rating (id. at 14–15).
Plaintiff cites further extrinsic evidence to support its position: Webster’s Ninth New
Collegiate Dictionary (1987) (Pl.’s Exh. 49); Tokarski Depo. (Pl.’s Exh. 43); Oct. 7, 2014
Yarbrough IPR Decl. (Pl.’s Exh. 50).
Analysis
Defendants, in effect, claim that one of ordinary skill in the art would require an
exhaustive list of how Class A insulation material might be required to understand the claims.
The definiteness standard is not so exacting—such “absolute precision is unattainable.” See
Nautilus Inc. v. Biosig Instruments, Inc., 134 S. Ct. 2120, 2129 (2014). The fact that Class A
insulation material may be required in various ways and by various bodies does not render the
claim indefinite. The issue is whether one of ordinary skill in the art would understand what it
means for such material to be “required,” not whether one of ordinary skill in the art has
analyzed and memorized every conceivable hypothetical fact pattern that might yield a
requirement for Class A insulation materials.
The Asserted Patents list concrete examples of how Class A insulation materials may be
required, or not. See, e.g., ’410 Patent col.1 ll.5–13 (by application), col.3 ll.26–34 (by
application), col.3 ll.43–52 (by industry standard or code). These examples, as well as the plain
meaning of “require,” reasonably apprise one of ordinary skill in the art that Class A insulation
material is required when the application calls for a certain fire safety standard, whether by
standard, code, or design. Defendants’ argument is essentially that every conceivable way in
which a Class A rating may be required must be disclosed or the claims are indefinite. But the
47
patent laws are not so exacting. See, e.g., Rexnard Corp. v. Laitram Corp., 274 F.3d 1336, 1344
(Fed. Cir. 2001) (a patent “applicant is not required to describe in the specification every
conceivable and possible future embodiment of his invention”); SRI Int’l v. Matsushita Elec.
Corp of Am., 775 F.2d 1107, 1122 (Fed. Cir. 1985) (en banc) (“The law does not require the
impossible. Hence, it does not require that an applicant describe in his specification every
conceivable and possible future embodiment of his invention.”).
The extrinsic evidence further supports that one of ordinary skill in the art would
understand what it means to “require” Class A insulation materials. The word “require” itself has
a plain and readily accessible meaning. See, e.g., Webster’s Ninth New Collegiate Dictionary
1002 (1987) (Pl.’s Exh. 49 at 3) (defining “require” as “to claim or ask for by right and
authority” and “to call for as suitable or appropriate” and “to demand as necessary or essential”).
And the Court finds that those of skill in the art used and understood “require” and its variants
according to the plain and readily accessible meaning—in language substantially similar to the
terms Defendants’ now claim are indefinite. For example, the president of RIMA, a reflective
insulation industry group, sent an email to RIMA’s members explaining that changes to the
ASTM E84 mounting methods will mean that “many current products will not meet [the Class
A] requirement under the new mounting method.” June 4, 2007 RIMA Update on Fire Code
Issues (Pl.’s Exh. 42 at 3). 14 He stated “[m]any of [RIMA’s] members’ current products are sold
14
Defendants’ contend that the use of RIMA email in claim construction is improper for two
reasons: (1) it postdates the effective filing date and has little bearing on Mr. Orologio’s
subjective intent in using the “requiring” language, and (2) RIMA’s president’s understanding
fails to clarify the term to the public. (Dkt. No. 105 at 7.) The Court rejects Defendants’
objection to this evidence. The email evinces that those in the industry understood the
“requiring” language in June 2007. And Defendants’ have not presented any evidence, let alone
clear-and-convincing evidence, that those in the industry would not have understood the
language in early 2006. And the claim-construction exercise is meant to determine the meaning
of terms to one of ordinary skill in the art, not the subjective intent of the inventor. Markman v.
48
into applications where the product is exposed and therefore are required to meet a Class 1 Class
A” standard and “[a]ny Manufacturer or Distributor selling products into an application which
requires a Class 1 Class A product, and their product does not meet this requirement, could be
exposed to extensive liability in the event of a fire or claim.” Id. Similarly, in support of
Defendant Reflectix’s petitions for inter partes review of the Asserted Patents, Reflectix’s expert
explained the state of the art of reflective insulation materials as of the effective filing date using
the “requiring” language; for example, he stated that “Class A insulative materials can be used in
applications that require Class A in addition to applications that require Class B or Class C.”
Yarbrough IPR Decl. at 2–3, 7–8 (Pl.’s Exh. 50 at 2–3, 4–5). And Defendant Reflectix’s
president testified that he was not aware of anyone ever being confused as to “whether Class A
materials were required or not” for an installation of reflective insulation. Tokarski Depo. 132:9–
15 (Pl.’s Exh. 43 at 10). One of ordinary skill in the art understands with reasonable certainty
whether Class A material is required in an application.
Further, and as an independent ground to refuse Defendants’ motion to declare claims
indefinite, the Court determines that the “requiring” language, in all its variants, is a non-limiting
statement of intended use. See Boehringer Ingelheim Vetmedica, Inc. v. Schering-Plough Corp.,
320 F.3d 1339, 1345 (Fed. Cir. 2003) (“An intended use or purpose usually will not limit the
scope of the claim because such statements usually do no more than define a context in which
the invention operates.”); In re Stencel, 828 F.2d 751, 754 (Fed. Cir. 1987) (noting that a nonlimiting statement of intended use may appear in the preamble or in the body of the claim). Here,
the context in which the invention operates is an application “requiring” a Class A rating. In
essence, the “requiring” claim language states the result of execution of the steps of the claimed
Westview Instruments, Inc., 52 F.3d 967, 985 (Fed. Cir. 1995) (en banc), aff’d 517 U.S. 370
(1996).
49
method or assembly of the components of the claimed object—the execution or assembly results
in an insulated object suitable for Class A applications. But such claim language is not limiting.
See, e.g., Tex. Instruments Inc. v. U.S. Int'l Trade Comm’n, 988 F.2d 1165, 1172 (Fed. Cir. 1993)
(claim language held not limiting because it “merely describe[s] the result of arranging the
components of the claims in the manner recited in the claims”); Minton v. Nat’l Ass’n of Sec.
Dealers, Inc., 336 F.3d 1373, 1381 (Fed. Cir. 2003) (claim language held not limiting because “it
simply expresses the intended result of a process step positively recited”). The “requiring”
language adds nothing to the substance of the claims and cannot be the grounds to render a claim
indefinite.
Accordingly, the Court holds that the Requiring Terms are not indefinite, are readily
accessible to the jury, and need not be construed.
G.
“said object is selected from an article to be packaged, a vehicle and a
residential, commercial, or industrial building or establishment”
Disputed Terms
Plaintiff’s Proposed
Construction
“said object is selected from an
article to be packaged, a
vehicle and a residential,
No construction necessary.
commercial or industrial
building or establishment”
Defendants’ Proposed
Construction
Indefinite.
(’410 Patent, claim 2)
The Parties’ Positions
Plaintiff submits that this term is not indefinite because it further specifies the specific
application (object) that requires the use of Class A insulation” as described in the Asserted
Patents and as understood in the industry. (Dkt. No. 99 at 30.)
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In addition to the claims themselves, Plaintiff cites the following intrinsic and extrinsic
evidence to support its position: Intrinsic evidence: ’410 Patent col.1 ll.5–13. Extrinsic
evidence: July 31, 2007 email forwarding a June 4, 2007 RIMA update (Defs.’ Exh. 7).
Defendants respond that: (1) the “object” of this term is the object that requires Class A
insulation; (2) neither the claim nor the intrinsic record clarify who or what requires the Class A
insulation for the object so the term is indefinite; and (3) Defendants are unaware of any relevant
code that mandates Class A insulation for “an article to be packaged” or “a vehicle,” so the claim
allows than an object can require Class A insulation when such insulation is not required by
code. (See Dkt. No. 105 at 8.)
Analysis
For the reasons stated above, the Court holds that the “requiring” language of this term
does not render the term, or any claim, indefinite.
The Court also rejects Defendants’ argument that the term is indefinite because
“Defendants are unaware of any relevant code that mandates a vehicle of an article to be
packaged to have Class A insulation material.” 15 (Dkt. No. 105 at 8.) As explained above, a
person of ordinary skill in the art need not know of every situation in which an object may
require Class A insulation material to understand what it means to require Class A insulation
material. And the patents need not list every such situation. See, e.g., Rexnard Corp., 274 F.3d at
1344 (stating a patent “applicant is not required to describe in the specification every conceivable
and possible future embodiment of his invention”); SRI Int’l, 775 F.2d at 1122 (“The law does
not require the impossible. Hence, it does not require that an applicant describe in his
specification every conceivable and possible future embodiment of his invention.”).
15
Defendants did not provide any evidence in support of this statement.
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The Court holds that this term is not indefinite, is comprised of readily understood words,
and does not need to be construed.
V.
.
CONCLUSION
The Court adopts the above constructions set forth in this opinion for the disputed terms
of the Asserted Patents. The parties are ordered that they may not refer, directly or indirectly, to
each other’s claim construction positions in the presence of the jury. Likewise, the parties are
ordered to refrain from mentioning any portion of this opinion, other than the actual definitions
adopted by the Court, in the presence of the jury. It is further recommended that the Defendants’
Motion for Partial Summary Judgment Based on Indefiniteness be DENIED. Any reference to
claim construction proceedings is limited to informing the jury of the definitions adopted by the
Court.
SIGNED this 3rd day of January, 2012.
SIGNED this 2nd day of April, 2015.
____________________________________
ROY S. PAYNE
UNITED STATES MAGISTRATE JUDGE
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