United States Court of Appeals for the Federal Circuit
2006-1013, -1037
AUTOMOTIVE TECHNOLOGIES INTERNATIONAL, INC.,
Plaintiff/Counterclaim Defendant-
Appellant,
v.
BMW OF NORTH AMERICA, INC., CK ELECTRONICS, INCORPORATED,
CONTI TEMIC MICROELECTRONIC, GMBH,
and TEMIC AUTOMOTIVE OF NORTH AMERICA, INCORPORATED,
Defendants,
and
DAIMLERCHRYSLER CORPORATION, FORD MOTOR COMPANY,
HONDA MOTOR COMPANY LIMITED,
AMERICAN HONDA MOTOR COMPANY, INCORPORATED,
HYUNDAI MOTOR COMPANY, HYUNDAI MOTOR AMERICA,
MAZDA MOTOR OF AMERICA, INC., SAAB CARS USA, INC.,
SIEMENS AUTOMOTIVE CORPORATION, and TOYOTA MOTOR SALES USA, INC.,
Defendants/Counterclaimants-
Appellees,
and
GENERAL MOTORS CORPORATION,
Defendant/Counterclaimant-
Appellee,
and
VOLKSWAGEN OF AMERICA, INC.,
Defendant/Counterclaimant,
and
NISSAN NORTH AMERICA, INC.,
Defendant/Counterclaimant-
Cross Appellant,
and
CALSONIC KANSEI CORPORATION,
Counterclaimant Defendant-
Cross Appellant,
and
SIEMENS AG, TK ELECTRONICS, INCORPORATED,
and TRW AUTOMOTIVE U.S., LLC,
Counterclaimants Defendants-
Appellees,
and
DELPHI AUTOMOTIVE SYSTEMS,
Counterclaimant Defendant-
Appellee,
and
KIA MOTORS AMERICA, INCORPORATED,
and BOSCH AUTOMOTIVE MOTORS SYSTEM CORPORATION,
Counterclaimants Defendants.
Michael H. Baniak, McDonnell Boehnen Hulbert & Berghoff LLP, of Chicago,
Illinois, argued for plaintiff/counterclaim defendant-appellant. Of counsel on the brief
was Andrew Kochanowski, Sommers Schwartz, P.C., of Southfield, Michigan. Of
counsel was Michael D. Gannon.
Kenneth A. Gallo, Paul, Weiss, Rifkind, Wharton & Garrison LLP, of Washington,
DC, argued for defendants/counterclaimants-appellees, Daimlerchrysler Corporation, et
al., and counterclaimants defendants-appellees Siemens AG, et al. Of counsel on the
brief were Drew M. Wintringham III and Mark W. Rueh, Clifford Chance US LLP, of New
York, New York.
Charles W. Shifley, Banner & Witcoff, Ltd., of Chicago, Illinois, for counterclaimant
defendant-appellee, Delphi Automotive Systems, and defendant/counterclaimant-
appellee, General Motors Corporation. With him on the brief were Binal J. Patel and
Theodore L. Field.
John J. Feldhaus, Foley & Lardner, LLP, of Washington, DC, argued for
defendant/counterclaimant-cross appellant, Nissan North America, and counterclaimant
defendant-cross appellant, Calsonic Kansei Corporation. With him on the brief were
Pavan K. Agarwal and Mary M. Calkins.
Appealed from: United States District Court for the Eastern District of Michigan
Judge Robert H. Cleland
United States Court of Appeals for the Federal Circuit
2006-1013, -1037
AUTOMOTIVE TECHNOLOGIES INTERNATIONAL, INC.,
Plaintiff/Counterclaim Defendant-
Appellant,
v.
BMW OF NORTH AMERICA, INC., CK ELECTRONICS, INCORPORATED,
CONTI TEMIC MICROELECTRONIC, GMBH,
and TEMIC AUTOMOTIVE OF NORTH AMERICA, INCORPORATED,
Defendants,
and
DAIMLERCHRYSLER CORPORATION, FORD MOTOR COMPANY,
HONDA MOTOR COMPANY LIMITED,
AMERICAN HONDA MOTOR COMPANY, INCORPORATED,
HYUNDAI MOTOR COMPANY, HYUNDAI MOTOR AMERICA,
MAZDA MOTOR OF AMERICA, INC., SAAB CARS USA, INC.,
SIEMENS AUTOMOTIVE CORPORATION, and TOYOTA MOTOR SALES USA, INC.,
Defendants/Counterclaimants-
Appellees,
and
GENERAL MOTORS CORPORATION,
Defendant/Counterclaimant-
Appellee,
and
VOLKSWAGEN OF AMERICA, INC.,
Defendant/Counterclaimant,
and
NISSAN NORTH AMERICA, INC.,
Defendant/Counterclaimant-
Cross Appellant,
and
CALSONIC KANSEI CORPORATION,
Counterclaimant Defendant-
Cross Appellant,
and
SIEMENS AG, TK ELECTRONICS, INCORPORATED,
and TRW AUTOMOTIVE U.S., LLC,
Counterclaimants Defendants-
Appellees,
and
DELPHI AUTOMOTIVE SYSTEMS,
Counterclaimant Defendant-
Appellee,
and
KIA MOTORS AMERICA, INCORPORATED,
and BOSCH AUTOMOTIVE MOTORS SYSTEM CORPORATION,
Counterclaimants Defendants.
____________________
DECIDED: September 6, 2007
____________________
2006-1013, -1037 2
Before LOURIE, RADER, and PROST, Circuit Judges.
LOURIE, Circuit Judge.
Automotive Technologies International, Inc. (“ATI”) appeals from the decision of
the United States District Court for the Eastern District of Michigan granting summary
judgment of invalidity of claims 1-44 of U.S. Patent 5,231,253 (the “’253 patent”) under
35 U.S.C. § 112, ¶ 1. ATI also appeals from the decision of the district court granting
summary judgment of noninfringement in favor of various defendants. Auto. Tech. Int’l
v. BMW of N. Am., Inc., No. 01-CV-71700-DT (E.D. Mich. July 21, 2005) (Invalidity
Order); Auto. Tech. Int’l v. BMW of N. Am., Inc., No. 01-CV-71700-DT (E.D. Mich. Jan.
26, 2005) (Noninfringement Order). Defendants Calsonic Kansei Corporation and
Nissan North America, Inc. cross-appeal from the decision of the district court denying
their motion for summary judgment of noninfringement. Auto. Tech. Int’l v. BMW of N.
Am., Inc., No. 01-CV-71700-DT (E.D. Mich. Oct. 27, 2004) (Denial of Noninfringement
Order). Because we conclude that the asserted claims of the ’253 patent are invalid for
lack of enablement, we affirm the decision of the district court granting summary
judgment of invalidity. Because of that conclusion, the infringement appeal and cross-
appeal are moot.
BACKGROUND
The technology at issue involves crash sensing devices for deployment in an
occupant protection apparatus, such as an airbag, during an impact or crash involving
the side of a vehicle. ATI is the assignee of the ’253 patent, entitled “Side Impact
Sensors.” The invention is directed to a velocity-type sensor placed in a position within
a vehicle in order to sense a side impact. A velocity-type sensor is a sensor that
2006-1013, -1037 3
triggers when a velocity change sensed in a crash exceeds a threshold value.
Representative claim 1 reads as follows:
A side impact crash sensor for a vehicle having front and rear wheels, said
sensor comprising:
(a) a housing;
(b) a mass within said housing movable relative to said housing in
response to accelerations of said housing;
(c) means responsive to the motion of said mass upon acceleration of
said housing in excess of a predetermined threshold value, for
initiating an occupant protection apparatus; and
(d) means for mounting said housing onto at least one of a side door of
the vehicle and a side of the vehicle between the centers of the front
and rear wheels, in such a position and a direction as to sense an
impact into the side of said vehicle.
’253 patent, col.10 ll.59-col.11 ll.1-5.
The prior art sensors used for sensing side impacts were crush sensors—
devices configured to trigger only when crushed or deformed, thereby closing a circuit.
’253 patent, col.3 ll.29-33. Such sensors, however, are deficient in that they will not
trigger during a crash in which a side door is not hit directly but the impact is severe
enough such that the occupant would need the protection of an airbag. Id. Velocity-
type sensors, on the other hand, can be adjusted to a desired sensitivity to detect a side
impact and deploy an airbag, even though the side door is not directly hit. Id. at ll.37-
42. According to ATI, conventional wisdom was that velocity-type sensors, which had
been successfully used for sensing impacts to the front of a vehicle, would activate too
slowly to deploy an airbag during a side impact crash. The inventors of the ’253 patent
discovered that velocity-type sensors when properly designed could successfully and
timely operate to deploy an airbag in a side collision. An example of a velocity type
sensor according to the invention is illustrated below:
2006-1013, -1037 4
When installed on a vehicle, the sensor faces the outside of the side door in the
direction of the arrow B. ’253 patent, col.6 ll.15-17. When the sensor is subjected to a
crash pulse of sufficient magnitude and duration, the flapper 11 moves toward the
second contact 18. Id. at ll.18-25. The first contact 17 engages with the second contact
18 and closes an electrical circuit to initiate deployment of an airbag. Id. Because side
impact sensors require greater insensitivity for short, impulsive velocity changes, the
specification discloses that an inertially damped sensor is the most suitable type of
sensor for properly sensing side crashes. Id. at col.3 ll.63-68, col.8 ll.49-51. The
specification states, however, that other sensors that are simpler and easier to
manufacture, can be used to effectively sense a side impact. Such sensors include
spring-mass sensors and viscously-damped sensors. Id. at ll.52-62.
The specification also states that an electronic sensor assembly can be used to
sense side impacts. ’253 patent, col.10 ll.1-15. The following figure, Figure 11, depicts
such an electronic sensor assembly:
2006-1013, -1037 5
The accompanying text states that Figure 11 is a “conceptional view of an electronic
sensor assembly 201 built according to the teachings of this invention. This sensor
contains a sensing mass 202 which moves relative to housing 203 in response to the
acceleration of housing 203 which accompanies a side impact crash.” Id. at ll.3-8. The
specification further states that the motion of the sensing mass “can be sensed by a
variety of technologies using, for example, optics, resistance change, capacitance
change or magnetic reluctance change.” Id. at ll.9-11. The enablement of this
electronic side impact sensor is at issue in this appeal.
In May 2001, ATI filed a complaint against numerous defendants in the
automotive industry, alleging infringement of the ’253 patent. In September 2003, the
district court conducted a Markman hearing, and, in March 2004, the court issued an
order construing the relevant claims. Auto. Tech. Int’l v. BMW of N. Am., Inc., No. 01-
CV-71700-DT (E.D. Mich. Mar. 31, 2004) (Claim Construction Order). Relevant to this
appeal, the court construed the phrase, “means responsive to the motion of said mass
upon acceleration of said housing in excess of a predetermined threshold value, for
initiating an occupant protection apparatus.” The parties agreed, and the court found,
that the limitation was in means-plus-function format and that the stated function is
initiating an occupant protection apparatus. The parties disagreed as to the structure
corresponding to the claimed function. ATI contended that the corresponding structure
2006-1013, -1037 6
included not only mechanical switch assemblies, but also electronic switch assemblies,
as identified in the specification. The defendants countered that the only clearly linked
structure identified in the specification is a mechanical switch assembly.
The district court agreed with ATI that the specification contains structure
corresponding to the claimed function in the form of mechanical and electronic means.
The court noted that the specification includes several descriptions of mechanical
switches as preferred embodiments that would perform the intended function of initiating
an occupant protection apparatus. The court also observed that Figure 11 and its
accompanying textual description in column 10, lines 3-14, describe, albeit in vague
detail, an alternative structure for initiating the occupant protection apparatus in the form
of an electronic switch. The court concluded:
Corresponding structure includes mechanical switches with two contacts
that engage in response to a force of sufficient magnitude and duration,
and their equivalents. The specification identifies such mechanical
switches in Figures 1 and 2 at column 6, lines 7-32; Figure 5 at column 8,
lines 53-60; Figure 6 at column 8, lines 61-66; and Figures 8 and 9, lines
30-60.
Corresponding structure also includes an electronic switch or assembly as
described in Figure 11 at column 10, lines 3-14 of the patent specification
and its equivalents. The electronic switch or assembly contains a sensing
mass that moves relative to the housing in response to the acceleration of
the housing caused by a side impact crash.
Claim Construction Order, slip op. at 6.
The district court also construed the phrase “means for mounting said housing
onto at least one of a side door of a vehicle and a side of the vehicle between the
centers of the front and rear wheels.” Id., slip op. at 22. The parties disputed the
construction of the “onto at least one of a side door of a vehicle and a side of the vehicle
between the centers of the front and rear wheels.” Id. at 24. The court construed that
2006-1013, -1037 7
phrase to require that the housing be capable of being mounted at both locations, not
that the housing must be located at both locations at the same time. Id. at 29. The
court also construed the phrase “side of the vehicle” to mean “the side perimeter
structure of the vehicle and not the top or bottom of the vehicle.” Id. at 31.
After the district court issued its claim construction order, several defendants,
including Siemens Automotive Corps., Ford Motor Co., and Hyundai Motor Co., filed a
motion for partial summary judgment of noninfringement, arguing that their accused
sensors did not infringe because they are mounted on the floor of the vehicles, not on
the “side of the vehicle.” The district court granted the motion, concluding that, pursuant
to its claim construction, sensors mounted in locations other than the “side perimeter
structure” of the vehicle could not infringe. Infringement Order, slip op. at 11. Because
the accused products include sensors mounted on the floor of the vehicles and not on
the “side perimeter structure,” the court found that there could be no literal infringement.
Id. The court also found that there could be no infringement under the doctrine of
equivalents because allowing floor sensors to be equivalent to side sensors would
vitiate the “side of the vehicle” limitation. Id. at 14.
Defendants Calsonic and Nissan filed a separate motion for summary judgment
of noninfringement alleging that their accused sensors are located on the structure
between the front and rear doors of a vehicle, but are not “capable of being mounted”
on a “side door” without modifying the sensor. The district court denied their motion for
summary judgment, concluding that there was still a triable issue of material fact as to
whether the accused sensors were capable of being mounted into a side door. Denial
of Noninfringement Order, slip op. at 13.
2006-1013, -1037 8
After the district court issued its claim construction order, various defendants
including Honda Motor Co., DaimlerChrysler Co., Ford Motor Co., Hyundai Motor Co.,
Mazda Motor Co., and Saab Cars Sales USA, Inc., filed a motion for summary judgment
that claims 1-44 are invalid for failing to comply with the written description requirement
under 35 U.S.C. § 112, ¶ 1. Delphi Corporation also filed a motion for summary
judgment that the claims that cover an electronic side impact sensor are invalid for lack
of enablement. The court addressed and granted both motions in its Invalidity Order.
The district court first granted defendants’ motion for summary judgment of
invalidity for failing to satisfy the written description requirement. The defendants
argued that the asserted claims failed to satisfy the written description requirement
because the claim limitation “means for mounting” the housing at a location “between
the centers of the front and rear wheels” is not adequately described in the specification.
Defendants also asserted that the claims failed to satisfy the written description
requirement because they include side impact sensors mounted at locations other than
the side door, and the specification clearly states that the side impact sensor must be
placed on the side door to be effective.
The district court next granted Delphi’s motion for summary judgment of invalidity
for lack of enablement. Delphi argued that the claims of the ’253 patent that cover an
electronic sensor were invalid for failing to teach those skilled in the art how to make
and use the full scope of the claimed invention without undue experimentation. The
court noted that the corresponding structure for the “means responsive” claim limitation
included both mechanical means and electronic means and therefore the full scope of
the claims included both types of sensors. The court determined, however, that the
2006-1013, -1037 9
specification failed to enable electronic sensors for sensing side impacts. The court
reasoned that the specification failed to provide sufficient details to teach a person of
ordinary skill in the art how to make and use an electronic sensor. The court observed
that not only did ATI’s representative admit that the specification failed to disclose
structure for the general references to sensing technology, but that Figure 11, the only
depiction of an electronic sensor in the ’253 patent, was not meant to represent any
specific design of an electronic sensor. Moreover, the court determined that the text
describing Figure 11 was “vague” and that the specification “fails to disclose reasonable
basic enabling structure to show how one skilled in the art would use existing electronic
sensing technologies to achieve the desired novel characteristics of an electronic
acceleration sensor.” Invalidity Order, slip op. at 58.
The district court also considered the factors set forth in In re Wands, 858 F.2d
731 (Fed. Cir. 1988), and concluded that they weighed in favor of a finding that undue
experimentation would have been necessary to make or use an electronic side impact
sensor based upon the disclosure. Relying on testimony from Delphi’s expert and ATI’s
expert, the court found that the factors of quantity of experimentation necessary, the
amount of direction or guidance presented in the specification, and the absence of a
working example favored a finding of lack of enablement.
The district court finally considered and rejected ATI’s argument that the claims
are enabled because one embodiment or mode of practicing the invention, viz., a
mechanical means, is enabled. The court noted that ATI “vigorously advocated” for and
obtained a broad claim construction that both mechanical and electrical sensors be
included within the scope of the claims. Invalidity Order, slip op. at 66. Because the
2006-1013, -1037 10
specification does not enable both the mechanical and electronic side impact sensors,
the court concluded that the full scope of the claims was not enabled and that the claims
are invalid for lack of enablement.
DISCUSSION
We review a district court’s grant of summary judgment de novo, reapplying the
standard applicable at the district court. See Rodime PLC v. Seagate Tech., Inc., 174
F.3d 1294, 1301 (Fed. Cir. 1999). Summary judgment is appropriate “if the pleadings,
depositions, answers to interrogatories, and admissions on file, together with the
affidavits, if any, show that there is no genuine issue as to any material fact and that the
moving party is entitled to judgment as a matter of law.” Fed. R. Civ. P. 56(c). In
addition, in deciding a motion for summary judgment, “[t]he evidence of the nonmovant
is to be believed, and all justifiable inferences are to be drawn in his favor.” Anderson v.
Liberty Lobby, Inc., 477 U.S. 242, 255 (1986). Whether the subject matter of a patent
claim satisfies the enablement requirement under 35 U.S.C. § 112, ¶ 1 is a question of
law, reviewed de novo, based on underlying facts, reviewed for clear error. AK Steel
Corp. v. Sollac & Ugine, 344 F.3d 1234, 1238-39 (Fed. Cir. 2003). Because a patent is
presumed to be valid, the evidentiary burden to show facts supporting a conclusion of
invalidity is one of clear and convincing evidence. Id.
On appeal, ATI argues that because one embodiment of the invention is enabled,
viz., a mechanical side impact sensor, the enablement requirement is satisfied. 1
According to ATI, there is a dichotomy in our case law—some of our cases hold that the
enablement requirement is satisfied when one mode of practicing the invention is
1
Because we decide invalidity on the enablement ground, we only include
the parties’ arguments pertaining to enablement.
2006-1013, -1037 11
enabled, while others hold that every embodiment of the invention must be enabled in
order for the enablement requirement to be met. According to ATI, the district court
chose to follow the wrong line of cases. ATI further argues that, in any event, the
specification does enable an electronic side impact sensor assembly. According to ATI,
the specification discusses specific structure for an electronic side impact sensor and
depicts such a structure in Figure 11. ATI contends that Delphi’s expert never
addressed whether making an electronic side impact sensor based on the disclosure
would require undue experimentation. ATI also contends that electronic sensors, albeit
for sensing frontal impacts, were widely known at the time of filing and therefore there
was no need for the specification to describe them in detail.
Delphi and General Motors (hereinafter collectively “Delphi”) respond that it is
well established that the specification must enable the full scope of the claims as
construed by the court, and the full scope of the claims includes mechanical side impact
sensors and electronic side impact sensors. According to Delphi, providing an enabling
disclosure of only mechanical side impact sensors is insufficient to satisfy the
enablement requirement because the full scope of the claims is not enabled. Delphi
further responds that the short recitation of an electronic sensor in the specification
does not in fact enable an electronic side impact sensor because it does not teach one
skilled in the art how to make and use such a sensor without undue experimentation.
Delphi further responds that the specification expressly states that side impact sensing
is a new field and hence ATI could not rely on the knowledge of one of ordinary skill in
the art to supply the missing details. Moreover, Delphi asserts that the district court
correctly found that the Wands factors, viz., the quantity of experimentation, the lack of
2006-1013, -1037 12
direction or guidance presented, and the nature of the prior art, favor a conclusion of
invalidity for lack of enablement.
We agree with Delphi that the district court correctly granted summary judgment
that the asserted claims are invalid for lack of enablement. 2 The enablement
requirement is set forth in 35 U.S.C. § 112, ¶ 1 and provides in pertinent part that the
specification shall describe “the manner and process of making and using [the
invention], in such full, clear, concise, and exact terms as to enable any person skilled in
the art to which it pertains, or with which it is most nearly connected, to make and use
2
In Delphi’s motion for summary judgment, it asserted that claims 1-28 and
30-44 were invalid for lack of enablement. In the Invalidity Order, the district stated that
Delphi had argued that claims 1-7, 11-14, 16, 18, 20, 22-25, 27, and 30-36 were invalid
for lack of enablement. In the judgment order, the court stated that for the reasons
stated in the Invalidity Order, claims 1-44 are declared invalid, without specifying which
claims were invalid on which grounds. Thus, it is not entirely clear from these facts
which claims the court invalidated on the ground of lack of enablement. In the motion
for summary judgment of invalidity for failure to satisfy the written description
requirement, defendants did assert that claims 1-44 were invalid on that ground. In the
Invalidity Order, the court did not specify which claims were at issue under the written
description motion, but it did grant defendants’ motion for summary judgment of
invalidity for failure to satisfy the written description requirement, stating that the “’253
patent is invalid.” Thus, it appears that all asserted claims 1-44 were invalidated for
failure to fulfill the written description requirement.
From the motions and the district court’s Invalidity Order, it would also seem that
those same claims, except claim 29, were invalidated on the enablement ground,
although that is less than clear. ATI, however, stated during oral argument that
affirming on either the enablement ground or the written description ground would
invalidate the same asserted claims. That is consistent with statements in ATI’s
opening and reply brief, which use the same term, “asserted claims,” when addressing
both the enablement and written description issues. Thus, we consider the same claims
to be at issue under the written description and enablement grounds.
Because we conclude that the claims are invalid for lack of enablement, we do
not discuss whether the claims are invalid on the alternative ground, for failing to satisfy
the written description requirement. In any event, even if different claims were said at
times to be implicated on different grounds, we conclude that all asserted claims 1-44
are invalid for lack of enablement because they all recite a sensor, and the full scope of
the claims includes mechanical and electronic sensors, the latter of which has not been
enabled.
2006-1013, -1037 13
the [invention].” We have stated that the “enablement requirement is satisfied when one
skilled in the art, after reading the specification, could practice the claimed invention
without undue experimentation.” AK Steel, 344 F.3d at 1244; see also Wands, 858 F.2d
at 736-37.
The district court construed the relevant phrase “means responsive to the motion
of said mass” to include both mechanical side impact sensors and electronic side
impact sensors for performing the function of initiating an occupant protection
apparatus. The parties do not dispute that construction; nor do they dispute that the
specification enables mechanical side impact sensors. Under the district court’s
construction, however, that full scope must be enabled, and the district court was
correct that the specification did not enable the full scope of the invention because it did
not enable electronic side impact sensors.
Considering first the specification, although two full columns and five figures of
the ’253 patent detail mechanical side impact sensors, only one short paragraph and
one figure relate to an electronic sensor. Importantly, that paragraph and figure do little
more than provide an overview of an electronic sensor without providing any details of
how the electronic sensor operates. Figure 11 shows a very general view of an
electronic side impact sensor. See supra. That figure only shows a boxed housing and
a sensing mass. In contrast, Figure 1 shows a mechanical sensor in much more detail,
making it clear from the figure how the sensor operates. The specification even states
that Figure 11 is a “conceptional view” of an electronic sensor. This is supported by the
statement of one of the inventors that Figure 11 “is not meant to represent any specific
design or sensor or anything, just a concept.” Figure 11 represents a concept of an
2006-1013, -1037 14
electronic sensor, not a figure providing details that would show one skilled in the art
how to make or use an electronic side impact sensor.
Moreover, the textual description of Figure 11, which is the only description of an
electronic sensor in the patent, provides little detail concerning how the electronic
sensor is built or operated. The specification states the following:
FIG. 11 is a conceptional view of an electronic sensor assembly 201
built according to the teachings of this invention. This sensor contains a
sensing mass 202 which moves relative to housing 203 in response to the
acceleration of housing 203 which accompanies a side impact crash. The
motion of the sensing mass 202 can be sensed by a variety of
technologies using, for example, optics, resistance change, capacitance
change or magnetic reluctance change. Output from the sensing circuitry
can be further processed to achieve a variety of sensor response
characteristics as desired by the sensor designer.
’253 patent, col.10 ll.3-14. That general description, however, fails to provide a
structure or description of how a person having ordinary skill in the art would make or
use an electronic side impact sensor. Indeed, inventor Breed admitted that the
specification fails to disclose structure for any of the technologies mentioned.
Noticeably absent is any discussion of the circuitry involved in the electronic side impact
sensor that would provide more detail on how the sensor operates. The mere boxed
figure of the electronic sensor and the few lines of description fail to apprise one of
ordinary skill how to make and use the electronic sensor.
ATI argues that despite this limited disclosure, the knowledge of one skilled in the
art was sufficient to supply the missing information. We do not agree. In Genentech,
Inc. v. Novo Nordisk A/S, 108 F.3d 1361, 1366 (Fed. Cir. 1997), we stated: “It is the
specification, not the knowledge of one skilled in the art, that must supply the novel
aspects of an invention in order to constitute adequate enablement.” Although the
2006-1013, -1037 15
knowledge of one skilled in the art is indeed relevant, the novel aspect of an invention
must be enabled in the patent. The novel aspect of this invention is using a velocity-
type sensor for side impact sensing. During prosecution, ATI stated that prior to its
invention, “it was assumed that [conventional] inertial sensors would actuate too slowly
to deploy an air bag in a side impact situation” and also that it “was unexpected that
frontal impact sensors, properly designed, would work in sensing side impacts.” ATI
further stated that the “essential concept of the invention” is to use “an inertial or
acceleration sensor on a motor vehicle for sensing side impacts.” Thus, according to
ATI, using inertial or acceleration sensors to sense side impacts represented a
“breakthrough” in side impact crash sensing. Given that the novel aspect of the
invention is side impact sensors, it is insufficient to merely state that known
technologies can be used to create an electronic sensor. As we stated in Genentech,
the rule that a specification need not disclose what is well known in the art is “merely a
rule of supplementation, not a substitute for a basic enabling disclosure.” 108 F.3d at
1366. We further stated that the “omission of minor details does not cause a
specification to fail to meet the enablement requirement. However, when there is no
disclosure of any specific starting material or of any of the conditions under which a
process can be carried out, undue experimentation is required.” Id.
Moreover, the specification states that: “Side impact sensing is a new field. The
only prior art in the literature utilizes a crush sensing switch as a discriminating sensor
to detect a side crash.” ’253 patent, col.8 ll. 45-47. In fact, ATI stated that at the time it
filed the application for the ’253 patent, it did not know of any electronic sensors used to
sense side impact crashes. Given that side impact sensing was a new field and that
2006-1013, -1037 16
there were no electronic sensors in existence that would detect side impact crashes, it
was especially important for the specification to discuss how an electronic sensor would
operate to detect side impacts and to provide details of its construction. As was the
case in Genentech, the specification provides “only a starting point, a direction for
further research” on using electronic sensors for sensing side impact crashes; it does
not provide guidance to a person of ordinary skill in the art on how to make or use an
electronic side impact sensor. 108 F.3d at 1366. The specification fails to provide
“reasonable detail” sufficient to enable use of electronic side impact sensors. Id.
The inadequacy of the description of an electronic side impact sensor is
highlighted by comparison with the extensive disclosure of how to make and use a
mechanical side impact sensor, consisting of two full columns. If such a disclosure is
needed to enable making and using a mechanical side impact sensor, why is not a
similar disclosure needed to enable making and using an electronic side impact sensor,
which is an essential aspect of the invention?
In determining that undue experimentation would have been required to make
and use an electronic side impact sensor, the district court properly relied on testimony
from Delphi’s expert. Delphi’s expert discussed at length how a “great deal of
experimentation” would have been necessary to make an electronic side impact sensor
after reading the specification of the ’253 patent. He identified and discussed two
distinct problems in developing an electronic side impact sensor: how to sense the
motion of the mass in order to properly output a stream of data, and how to
appropriately process the data. Moreover, Breed stated that based on his experience,
electronic sensors for detecting side impact crashes could not be obtained commercially
2006-1013, -1037 17
in 1990 and would have had to be developed. Inventor Breed admitted that he had
never built an electronic sensor for side impact. The testimony from Delphi’s expert and
the inventor’s own testimony provide additional support for the conclusion of a lack of
enablement.
ATI argues that its expert, Dr. Dix, testified that one skilled in the art would know
how to adapt then-existing technology to create an electronic side impact sensor and
that his testimony creates a genuine issue of material fact. Dix’s declaration states that
electronic sensors were commercially available before the filing of the ’253 patent and
that, based on engineering texts in 1989, one would have known how to select a
commercial accelerometer, how to use analog circuits, and how to program and
interface a microprocessor to process the signal using the existing prior art. Dix’s
testimony, however, fails to discuss what types of tests would need to have been
conducted to adapt existing electronic sensors for side impact sensing and does not
provide any detail on how to adapt the existing technology. The testimony concludes
that no undue experimentation was required to make an electronic side impact sensor,
but, having failed to provide any detail regarding why no experimentation was
necessary, the declaration does not create a genuine issue of material fact as to
enablement.
We also reject ATI’s argument that because the specification enables one mode
of practicing the invention, viz., mechanical side impact sensors, the enablement
requirement is satisfied. We addressed and rejected a similar argument made in Liebel-
Flarsheim Co. v. Medrad, Inc., 481 F.3d 1371 (Fed. Cir. 2007). In that case, the
invention was a front-loading fluid injector system with a replaceable syringe capable of
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withstanding high pressure for delivering a contrast agent to a patient. Id. at 1373. We
construed the asserted claims, as urged by the patentee, to include an injector with and
without a pressure jacket. Although the specification clearly enabled an injector with a
pressure jacket, we concluded that it did not enable an injector without such a jacket
and that the claims were invalid for lack of enablement. Id. at 1379. We stated that
there “must be ‘reasonable enablement of the scope of the range’ which, in this case,
includes both injector systems with and without a pressure jacket.” Id. at 1380 (internal
citation omitted).
Similarly, in this case, the claim construction of the relevant claim limitation
resulted in the scope of the claims including both mechanical and electronic side impact
sensors. Disclosure of only mechanical side impact sensors does not permit one skilled
in the art to make and use the invention as broadly as it was claimed, which includes
electronic side impact sensors. Electronic side impact sensors are not just another
known species of a genus consisting of sensors, but are a distinctly different sensor
compared with the well-enabled mechanical side impact sensor that is fully discussed in
the specification. Thus, in order to fulfill the enablement requirement, the specification
must enable the full scope of the claims that includes both electronic and mechanical
side impact sensors, which the specification fails to do.
We stated in Liebel: “The irony of this situation is that Liebel successfully pressed
to have its claims include a jacketless system, but, having won that battle, it then had to
show that such a claim was fully enabled, a challenge it could not meet.” Id. at 1380.
ATI sought to have the scope of the claims of the ’253 patent include both mechanical
2006-1013, -1037 19
and electronic side impact sensors. It succeeded, but then was unable to demonstrate
that the claim was fully enabled. Claims must be enabled to correspond to their scope.
Because we affirm the judgment that the claims are invalid, we need not reach
ATI’s appeal or Calsonic and Nissan’s cross-appeal relating to infringement. See Sandt
Tech., Ltd. v. Resco Metal Plastics Corp., 264 F.3d 1344, 1356 (Fed. Cir. 2001).
CONCLUSION
Because the district court correctly granted summary judgment that the ’253
patent is invalid for lack of enablement, we affirm.
AFFIRMED
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