United States Court of Appeals
for the Federal Circuit
______________________
CORE WIRELESS LICENSING S.A.R.L.,
Plaintiff-Appellee
v.
APPLE INC.,
Defendant-Appellant
______________________
2017-2102
______________________
Appeal from the United States District Court for the
Northern District of California in No. 5:15-cv-05008-NC,
Magistrate Judge Nathanael M. Cousins.
______________________
Decided: August 16, 2018
______________________
MARC AARON FENSTER, Russ August & Kabat, Los
Angeles, CA, argued for plaintiff-appellee. Also repre-
sented by ADAM S. HOFFMAN, REZA MIRZAIE, BENJAMIN T.
WANG.
JOSEPH J. MUELLER, Wilmer Cutler Pickering Hale
and Dorr LLP, Boston, MA, argued for defendant-
appellant. Also represented by RICHARD WELLS O’NEILL;
TOBIAS MOCK, Palo Alto, CA; MICHAEL WOLIN, Washing-
ton, DC.
______________________
2 CORE WIRELESS LICENSING v. APPLE INC.
Before REYNA, BRYSON, and HUGHES, Circuit Judges.
BRYSON, Circuit Judge.
This appeal arises from a patent infringement action
brought in the United States District Court for the North-
ern District of California. The plaintiff, Core Wireless
Licensing S.a.r.l., is the owner of U.S. Patent Nos.
6,477,151 (“the ’151 patent”) and 6,633,536 (“the ’536
patent”). Core Wireless has appealed the district court’s
judgment with respect to one claim from each patent.
Both patents concern technology for wireless commu-
nications in a digital network. Claim 14 of the ’151 patent
is directed to a mobile station, such as a mobile telephone,
that is configured to synchronize to a base station using
the same timing information for both the uplink and
downlink channels. Claim 19 of the ’536 patent is di-
rected to a receiver, such as a mobile telephone, that can
detect predetermined control messages where they are not
otherwise expected, such as on a user information chan-
nel.
Following trial, the jury found that the defendant,
Apple Inc., infringed both asserted claims, and that
neither claim was invalid. Following a concurrent bench
trial, the district court rejected Apple’s argument that the
’151 patent was unenforceable due to implied waiver. We
affirm in part, reverse in part, vacate in part, and re-
mand.
I
A
The ’151 patent describes an improvement in the way
mobile devices communicate with base stations. A single
base station may communicate with many mobile devices,
and steps must be taken to ensure that the transmissions
do not overlap and interfere. The patent describes a Time
Division Multiple Access (“TDMA”) scheme, in which a
CORE WIRELESS LICENSING v. APPLE INC. 3
particular mobile device is assigned specific time slots in
which to send or receive data. ’151 patent, col. 1, ll. 12–
17; id., col. 1, ll. 33–47; id., col. 3, ll. 36–38.
The assigned time slots are quite short, so it is im-
portant that the transmissions be sent and received at
precise times. Among other considerations, the device
needs to account for propagation delay—that is, the time
it takes for the transmission to travel between the mobile
device and the base station. In order to account for the
propagation delay, the mobile station will transmit the
data in advance of the time slot allotted to it. The period
of time that particular data must be sent in advance of
the time it should be received is referred to as the timing
advance value (“TAV”). Because the mobile device may be
moving closer to or farther from the base station during a
particular session, the TAV needs to be recalculated at
regular intervals. Id., col. 2, ll. 21–31.
The ’151 patent refers to a version of the General
Packet Radio Service (“GPRS”) standard that was, at the
time of the patent application, being considered by the
European Telecommunications Standards Institute
(“ETSI”). That standard provided that a mobile device
could transmit a “timing access burst” to the base station,
from which the base station could calculate and send back
a TAV for each channel in operation. Id., col. 2, ll. 39–52.
In this scheme, the base station sets up a channel with
the mobile device by generating a signal referred to as the
timing advance index (“TAI”). The TAI identifies when
the mobile station should transmit its timing access burst
and when the mobile station should expect to receive a
TAV in response. Id., col. 3, ll. 36–55.
In that version of the GPRS standard, transmissions
are organized into multi-frame structures. Each multi-
frame structure contains eight multi-frames. Each multi-
frame in turn includes 52 TDMA frames, which are fur-
4 CORE WIRELESS LICENSING v. APPLE INC.
ther subdivided into eight slots of equal duration. Id., col.
1, ll. 38–47; id., Fig. 1. Each multi-frame of 52 TDMA
frames contains 48 transmission frames and four addi-
tional “idle” frames. Therefore, each multi-frame struc-
ture contains 32 “idle” frames. Id., col. 2, line 53, to col. 3,
line 11; id., Fig. 5.
The TAIs and TAVs are transmitted in the idle
frames. Id., col. 3, ll. 36–55. The TAVs for a particular
mobile device are updated only once for each multi-frame
structure—that is, once every eight multi-frames. How-
ever, each TAV is transmitted four times in each multi-
frame structure in order to provide the mobile device with
multiple opportunities to receive and decode a particular
TAV. If the mobile device receives the TAV in one of the
earlier transmissions, it ignores the TAV transmissions in
subsequent idle frames of that multi-frame structure. Id.,
col. 3, ll. 22–35.
The ’151 patent discloses a purported improvement to
the GPRS standard: specifically, the invention is designed
“to increase the number of mobile stations which may use
the same time slot in an idle frame for transmitting and
receiving timing advance information” by “allocating a
single timing advance index to the uplink and downlink
channels of a mobile station,” so that both channels share
the same TAV. Id., col. 3, ll. 59–67; see also id., col. 7, ll.
5–10 (“[T]he timing access burst and the TAV are common
to all channels allocated to the [mobile station]. There is
no need to repeat the transmission of timing advance
information for all channels as the same timing advance
value can be used for all uplink transmissions (associated
with both uplink and downlink channels).”).
Claim 14, the only claim of the ’151 patent asserted at
trial, reads as follows:
14. A mobile station for use in a radio telephone
network, the radio telephone network comprising
CORE WIRELESS LICENSING v. APPLE INC. 5
a base station subsystem and a plurality of mobile
stations for communicating with the base station
subsystem and in which radio signal transmission
slots at a mobile station are synchronised to radio
signal reception slots at the base station subsys-
tem to account for a propagation delay between
the mobile station and the base station subsys-
tem, the reception slots corresponding to uplink
and/or downlink user data packet switched
transmission channels allocated dynamically by
the base station subsystem, the mobile station be-
ing configured to:
receive a timing advance value once, from
the base station subsystem to the mobile
station, and to;
advance transmission slots at the mobile
station for both the uplink and downlink
channels using the received timing[] ad-
vance value so that transmitted data is re-
ceived at the base station subsystem in
the allocated base station subsystem re-
ception slots.
In the course of the claim construction proceeding, the
parties disputed the meaning of the limitation to “receive
a timing advance value once.” Core Wireless’s proposed
construction of that limitation was to “receive a timing
advance value that is shared by both uplink and downlink
channels in the uplink direction.” Apple’s proposed
construction of that limitation was to “receive one timing
advance value for all uplink and downlink channels
allocated to the mobile station per each multiframe struc-
ture.” The magistrate judge who conducted claim con-
struction stated that “the remainder of the claim already
describes how the mobile station will use the TAV”—that
is, to advance transmission for both the uplink and down-
link channels. As such, he explained, “[i]n construing the
6 CORE WIRELESS LICENSING v. APPLE INC.
term at issue, the use of the received TAV is beside the
point.” The magistrate judge also stated that the word
“once” is “not enough to convey” the fact that the TAV
must be updated regularly, as described in the specifica-
tion. Therefore, the magistrate judge construed the
limitation to mean to “receive a timing advance value one
time for a multiframe structure.” Core Wireless Licensing
S.A.R.L. v. Apple Inc., No. 5:15-cv-05008-PSG, 2016 WL
3124614, at *8–9 (N.D. Cal. June 3, 2016) (“Claim Con-
struction Order”).
B
The ’536 patent discloses a different improvement in
the way mobile devices communicate with base stations.
As described in the patent, the base station and the
mobile device often need to transmit control messages in
addition to speech or user data. One possible implemen-
tation, known in the prior art, is to dedicate a separate
channel, or separate predetermined time slots on a single
channel, for control messages. ’536 patent, col. 1, ll. 12–
18; id., col. 2, ll. 33–49; id., col. 4, ll. 17–30. However,
dedicating a channel or transmission time to control
information is inefficient when there is no control infor-
mation to transmit. Id., col. 6, ll. 5–27. One method to
address this inefficiency, previously known in the art, is
to use the speech channel to transmit control messages by
briefly “stealing” a speech frame. Id., col. 6, l. 64, to col. 7,
l. 7.
This scheme, known as “frame stealing,” uses preex-
isting mechanisms for transmission error correction. As
described in the patent, existing mobile phones had
protections in place to mitigate the effect of frames that
were corrupted or not properly received by the mobile
device. Id., col. 3, ll. 45–51; col. 6, ll. 45–47. As a result,
transmissions often included error prevention and detec-
tion mechanisms, such as convolutional coding and cyclic
redundancy check bits, to assist the mobile receiver in
CORE WIRELESS LICENSING v. APPLE INC. 7
identifying transmission errors and, if the corruption was
minimal, to fix the error. Id., col. 2, ll. 15–19; id., col. 3, ll.
30–40; col. 7, ll. 35–40. Those mechanisms permitted the
receiving device to conclude that the frame was either in a
“good” or a “bad” state. Id., col. 2, ll. 19–32.
Most preexisting mobile devices had systems in place
to minimize the impact of bad speech frames for the user.
For example, if a receiver concluded that it had received a
bad speech frame, it could replace that frame with all or
part of the preceding good speech frame that it had re-
ceived. Because frames are very short, the substitution
would likely not be detected by the user. Id., col. 6, ll. 49–
54.
The ’536 patent claims a technique, which could be
implemented within preexisting mobile communications
systems, for stealing a frame on the user information
channel to transmit a control message when it is not
expected. Id., col. 6, ll. 31–37. To do so, a control message
that is one of a number of predetermined bit patterns is
sent over a stolen speech frame that is intentionally
marked as a “bad” frame. Id., col. 6, l. 64, to col. 7, l. 7;
id., col. 9, ll. 6–9. When the receiver detects a bad frame,
it determines whether that frame contains user infor-
mation with errors or a bit pattern corresponding to one of
the known control messages. Id., col. 9, ll. 6–9. If the
frame includes a known control message, the receiver acts
upon the message and repeats the preceding error-free
speech frame in place of the bad frame.
Claim 19, the only claim of the ’536 patent to be as-
serted at trial, recites the following:
19. A receiver for receiving information and mes-
sages in a digital telecommunications system, the
receiver comprising:
receiving means for receiving a signal via
a transmission channel in frames wherein
8 CORE WIRELESS LICENSING v. APPLE INC.
each frame has one of two states, the
states being a good state and a bad state;
a user information decoder operationally
coupled to the receiving means for gener-
ating decoded user information, and re-
placing means for replacing a bad frame at
least partly with a preceding good frame;
[and]
a message decoder operationally coupled
to the receiving means for decoding the
messages, wherein for each different mes-
sage, a corresponding unique bit pattern
has been defined, wherein the receiver is
adapted to detect a frame which contains
a message and that the detecting is based
only on identifying a bad frame which ad-
ditionally contains a bit pattern which de-
viates from a bit pattern corresponding to
a message at most by a predetermined
threshold value.
As relevant to this appeal, the parties disputed the
construction of two sets of claim terms. First, the parties
disagreed about the proper construction of the terms
“good state” and “bad state.” Core Wireless proposed that
“good state” should be construed to mean “a state of a
frame from which the receiver can conclude that the
frame should be treated as a normal good speech frame,”
and that “bad state” should be construed to mean “a state
of a frame from which the receiver can conclude that the
frame should not be treated as a normal good speech
frame.” Apple proposed that “good state” be defined to
mean “a frame state indicating that the frame was
transmitted error-free over an air interface,” and that
“bad state” be defined to mean “a frame state character-
ized by a flag indicating that the frame was not transmit-
CORE WIRELESS LICENSING v. APPLE INC. 9
ted error-free over an air interface.” Claim Construction
Order, 2016 WL 3124614, at *10.
The magistrate judge stated that “[n]either party’s
proposal is of much help.” Claim Construction Order,
2016 WL 3124614, at *11. According to the magistrate
judge, Core Wireless’s proposal was “circular” and only
defined the phrase in “terms of what ‘the receiver can
conclude.’” Id. In addition, the magistrate judge found,
Core Wireless’s proposal “makes no reference to the
inventor’s stated intent of relying on the preexisting
concept of a ‘bad frame.’” Id. As for Apple’s construction,
the magistrate judge found that it was “confusing and
unnecessarily limiting.” Id.
The magistrate judge chose a different approach.
Noting that the “specification uses the terms ‘good’ and
‘bad’ to refer to those concepts in the context of the under-
lying wireless protocol,” the magistrate judge reasoned
that a “bad” frame “is one that does not contain error-free
user information” and that “it is something about the
frame itself” that indicates the frame’s status as “good” or
“bad.” Id. As a result, the magistrate judge construed
“good state” as a “state flagging that the frame contains
error-free user information,” and “bad state” as a “state
flagging that the frame does not contain error-free user
information.” Id.
The second relevant disputed construction is that of
the claim term “bit pattern.” Core Wireless proposed that
the term be given its plain and ordinary meaning. Apple
proposed “a sequence of bits conveying a signaling mes-
sage; not a code word that delineates the message.” Id.
The magistrate judge agreed with Apple’s interpretation
of the prosecution history of the ’536 patent, in which the
patentee distinguished a prior art reference by noting
that “no separate code words are needed, and message
detection is based only on individual messages.” Id. at
*12. The magistrate judge therefore construed “bit pat-
10 CORE WIRELESS LICENSING v. APPLE INC.
tern” to mean a “sequence of bits conveying a signaling
message not delineated by a code word.” Id.
II
Apple raises three arguments on appeal regarding the
’151 patent: It challenges the jury’s finding of infringe-
ment, the jury’s finding of no invalidity, and the trial
judge’s finding of no unenforceability.
A
With regard to infringement, Apple argues that its
mobile devices do not satisfy the claim limitation “config-
ured to[] receive a timing advance value once,” which was
construed to require receiving a timing advance value one
time for a multi-frame structure. Apple contends that its
products are always configured to receive multiple TAVs
per multi-frame structure because the devices support
multiple modes of synchronization, including “initial” and
“on-demand” modes, each of which permits multiple TAV
updates per multi-frame structure.
Apple cites trial testimony that its devices are config-
ured to receive multiple TAVs per multi-frame structure.
That is because the base station may elect to use multiple
modes in combination, such as by using the “initial” or
“on-demand” modes in addition to the accused “continu-
ous” mode. The “continuous” mode is the method de-
scribed in the ’151 patent of transmitting a TAV four
times in a multi-frame structure in response to an access
burst from a mobile device.
Apple argues that its devices do not infringe even
when operating solely in the “continuous” mode because,
even though operating in that mode, its devices are still
configured to operate in multiple modes and to receive
multiple TAVs. Apple also contends that Core Wireless
presented no evidence that some base stations operate
using only the “continuous” mode. And Apple argues that
CORE WIRELESS LICENSING v. APPLE INC. 11
the “continuous” mode still requires that the base station
transmit four TAVs for each multi-frame structure.
Apple’s arguments are all premised on the proposition
that the claim is infringed only when a mobile device is
configured to receive one and only one TAV transmission
per multi-frame structure. That position, however, is
contrary to the plain language of the ’151 specification
and the asserted claim. The ’151 patent makes clear that
the prior art required a mobile device to receive a TAI and
TAV for each channel, thereby requiring separate TAIs
and TAVs for the uplink and the downlink channels. The
purpose of the invention, the specification explains, was to
allocate a single TAI and TAV to both channels. ’151
patent, col. 3, ll. 59–67. Thus, the invention permitted a
mobile device to operate both uplink and downlink chan-
nels when the device received a TAV only once per multi-
frame structure. See id., col. 3, ll. 30–31; id., col. 3, ll. 45–
55. Claim 14 therefore covers a mobile station configured
to receive a TAV once, and to use that single TAV for both
the uplink and downlink channels.
The ’151 specification makes clear that the disclosed
invention is intended to operate within the existing GPRS
proposal, in which a single TAV may be transmitted four
separate times within a multi-frame structure. Id., col. 3,
ll. 22–35. In the embodiment described in the specifica-
tion, each mobile station is allocated only a single TAI for
all channels, and the TAI identifies “the four idle frame
sequence in which the newly updated TAV” for the mobile
device will be transmitted. Id., col. 6, ll. 58–67. Apple’s
interpretation of the claim would exclude that embodi-
ment.
Apple’s argument that its accused devices are always
configured to operate in a variety of modes and to receive
more than one TAV per multi-frame structure misses the
mark. “[I]nfringement is not avoided merely because a
non-infringing mode of operation is possible.” z4 Techs.,
12 CORE WIRELESS LICENSING v. APPLE INC.
Inc. v. Microsoft Corp., 507 F.3d 1340, 1350 (Fed. Cir.
2007); see also VirnetX, Inc. v. Cisco Sys., Inc., 767 F.3d
1308, 1322 (Fed. Cir. 2014). To take a simple example, a
patent that claims an automobile configured to operate in
third gear would be infringed by an automobile that is
configured to operate in first, second, and third gears.
The automobile is at all times configured to operate in
any one of its possible gears, including the infringing one,
even if the automobile is never driven in the infringing
gear. Similarly, claim 14 is satisfied as long as Apple’s
devices are configured to operate in a mode that receives a
TAV only once per multi-frame structure and uses it for
all channels.
Substantial evidence supports the jury’s finding that
Apple’s devices are configured to receive a TAV once per
multi-frame structure. Core Wireless’s expert Dr. Rich-
ard Wesel testified that, based on Apple’s source code,
Apple’s devices are programmed to use only a single TAI,
to send only a single timing access burst, and to receive
only one TAV per multi-frame structure. Dr. Wesel
further testified that, although a base station may trans-
mit an encoded TAV multiple times per multi-frame
structure, Apple’s devices decode only the first TAV they
receive in a given multi-frame structure. He added that a
base station may choose to operate in any one of the
timing advance modes—continuous, initial, or on-
demand—and that the iPhone is configured to be able to
work with a base station regardless of which mode or
modes it is employing, including a continuous-only mode.
Apple’s expert did not disagree, testifying that Apple’s
devices must “be ready for all three, so of course it has to
be ready for just one.”
Accordingly, we affirm the jury’s finding of infringe-
ment of claim 14 of the ’151 patent.
CORE WIRELESS LICENSING v. APPLE INC. 13
B
With regard to the issue of validity, Apple argues that
the GPRS proposal considered by ETSI in 1997 renders
claim 14 of the ’151 patent invalid. At trial, Apple’s
expert testified that the 1997 GPRS paper disclosed
everything required by claim 14, except for the limitation
requiring that a mobile device be configured to receive
only one TAV per multi-frame structure. To show invalid-
ity regarding that limitation, Apple presented two theo-
ries. 1 First, Apple argued that the patent was anticipated
by the “multi-slot” functionality described in the 1997
paper, which stated that a mobile device will perform the
timing advance procedure on only one data channel, “even
if involved in the multislot operation (either uplink or
downlink transfers).” Second, Apple’s expert testified
that configuring a mobile device to receive a TAV once per
multi-frame structure, rather than more than once, would
have been obvious because it would require only a “minor
variation” in the disclosed procedures, which would have
had “a predictable outcome.”
As to the first theory regarding “multi-slot” function-
ality, Core Wireless introduced evidence that the 1997
1 It appears that a claim scope dispute went unre-
solved during the course of trial, which resulted in the
experts presenting competing theories of claim construc-
tion to the jury. Because of that dispute, Apple presented
a theory of anticipation based on Core Wireless’s applica-
tion of the claim scope, and a theory of obviousness based
on what it characterizes as the “proper application of the
claim.” This court has made clear that “[w]hen the par-
ties present a fundamental dispute regarding the scope of
a claim term, it is the court’s duty to resolve it.” O2 Micro
Int’l Ltd. v. Beyond Innovation Tech. Co., 521 F.3d 1351,
1362 (Fed. Cir. 2008). Neither party raised this issue on
appeal, however, so we do not address it further.
14 CORE WIRELESS LICENSING v. APPLE INC.
paper discussed assigning a TAV for the uplink channel
and assigning a TAV for the downlink channel, and
explained that “different mechanisms are introduced for
uplink and downlink packet transfer.” In addition, Dr.
Wesel testified that the 1997 paper “instructs the mobile
[device] to use a different timing advance value for the
uplink than it’s using for the downlink,” and deals with
the two channels individually. Finally, although Apple’s
expert testified that multislot operations occur only when
both the uplink and downlink channels are active, he
agreed with Core Wireless on cross-examination that the
proposed standard refers to “either uplink or downlink,”
not both, and does not use the term “bi-directional.”
As to Apple’s theory that configuring a mobile device
to receive a TAV once per multi-frame structure would
have been obvious, Apple’s presentation was brief, con-
sisting primarily of two questions and answers on direct
examination. Asked if he had an opinion on whether the
claim would have been obvious, Apple’s expert testified in
the affirmative, because “prior to the ’151, there were
procedures to send it four times, there were procedures to
send it on demand, variably. So sending it once is a minor
variation in all of those possibilities.” Then, asked
whether the results of that modification would have been
expected or unexpected, Apple’s expert testified that “[i]t’s
very expected to know what happens for sending it once
versus twice. It’s a predictable outcome.”
Dr. Wesel presented a contrary view. He testified
that “it’s important to understand [regarding the 1997
GPRS proposal document] that the frame of mind of the
engineers at the time was focussed on just setting up . . . a
channel and transmit[ting] a packet.” He added that
“[t]hey were thinking of [the uplink and the downlink
channels] separately” and, to the extent the 1997 docu-
ment describes uplink and downlink communication
happening simultaneously, “it instructs the mobile to use
a different timing advance value for the uplink than it’s
CORE WIRELESS LICENSING v. APPLE INC. 15
using for the downlink.” Accordingly, Dr. Wesel conclud-
ed, the 1997 GPRS paper would not have rendered claim
14 obvious.
The issue of validity under both theories came down
to a disagreement between the experts. Because the jury
could reasonably credit the testimony of Core Wireless’s
expert over that of Apple’s expert, the jury’s finding of no
invalidity as to claim 14 of the ’151 patent must be af-
firmed.
C
Finally, Apple appeals the trial court’s ruling that the
’151 patent is not unenforceable. Apple asserted a theory
of implied waiver, on which the trial court held a short
supplemental bench trial. At that proceeding, Dr. Mi-
chael Walker testified on behalf of Apple and was cross-
examined by Core Wireless.
Apple’s theory of unenforceability is based on actions
taken by Nokia, the original assignee of the ’151 patent,
during its participation with ETSI, the standards-setting
organization referenced in the ’151 patent.
In 1997 and 1998, ETSI was developing technical pro-
posals to address the problem of propagation delay in
GPRS networks. On November 4, 1997, Jarkko Oksala,
the named inventor of the ’151 patent and a Nokia em-
ployee, prepared an invention report for Nokia that
described an invention that “enables the optimal usage of
the network resources in the air interface of the GPRS
system” where “[o]nly one Timing Advance Index (TAI) is
allocated to the [mobile device] having bi-directional
pa[c]ket data transfer active.” The invention report
stated that this functionality “is not yet stated in the
GPRS specifications.” In a section of the report address-
ing the “Value of the Invention,” the question “Are com-
petitors likely to want to use the invention?” was
answered “Yes,” with the explanation that “[i]t will be
16 CORE WIRELESS LICENSING v. APPLE INC.
added to [the GPRS] specification.” The invention report
also attached a draft ETSI Change Request form that
proposed to modify the standard to use a single TAI value
for both data transfer directions.
Nokia submitted that proposal to ETSI, and the pro-
posal was considered by an ETSI working group, in which
Nokia participated, at a meeting held between November
10 and 14, 1997. The working group initially recommend-
ed implementing the proposal as part of the GPRS stand-
ard. Contemporaneously, on November 11, 1997, Nokia
filed a Finnish patent application based on Mr. Oksala’s
invention, to which the ’151 patent claims priority.
At a January 1998 ETSI committee meeting, Nokia’s
proposal was rejected and replaced by a competing pro-
posal submitted by Ericsson. Ericsson’s proposal was
similar to Nokia’s, except that it merely permitted a
mobile device to use a single TAV for bi-directional trans-
fer, rather than requiring it. Four years later, in July
2002, Nokia disclosed the Finnish patent application, as
well as the associated U.S. patent application, to ETSI.
Apple argues that Nokia had an obligation to disclose
its Finnish patent application to ETSI when Nokia ad-
vanced its proposed revision of the GPRS standard and
that, in breaching that obligation, Nokia waived its right
to enforce the ’151 patent. A participant in a standards-
setting organization may waive its right to assert in-
fringement claims against products that practice the
standard. Hynix Semiconductor Inc. v. Rambus Inc., 645
F.3d 1336, 1347–48 (Fed. Cir. 2011); see also Qualcomm
Inc. v. Broadcom Corp., 548 F.3d 1004, 1020–24 (Fed. Cir.
2008). Implied waiver occurs when the patentee’s “con-
duct was so inconsistent with an intent to enforce its
rights as to induce a reasonable belief that such right has
been relinquished.” Hynix, 645 F.3d at 1348 (quoting
Qualcomm, 548 F.3d at 1020). The court in Hynix made
clear that “[s]uch conduct can be shown where (1) the
CORE WIRELESS LICENSING v. APPLE INC. 17
patentee had a duty of disclosure to the standard setting
organization, and (2) the patentee breached that duty.”
Id. (citing Qualcomm, 548 F.3d at 1011–12).
ETSI had an intellectual property rights policy in ef-
fect in 1997. Section 4.1 of the policy stated that each
ETSI member “shall use its reasonable endeavours to
timely inform ETSI of essential IPRs [intellectual proper-
ty rights] it becomes aware of.” The policy continued: “In
particular, a member submitting a technical proposal for
a standard shall, on a bona fide basis, draw the attention
of ETSI to any of that member’s IPR which might be
essential if that proposal is adopted.” The policy defined
“essential” to mean “it is not possible on technical (but not
commercial) grounds, taking into account normal tech-
nical practice and the state of the art generally available
at the time of standardization, to make, sell, lease, other-
wise dispose of, repair, use or operate equipment or
methods which comply with a standard without infringing
that IPR.” The policy further specified that “IPRs” in-
clude “any intellectual property right conferred by statute
law including applications therefor other than trade-
marks. For the avoidance of doubt rights relating to get-
up, confidential information, trade secrets or the like are
excluded from the definition of IPR.”
The only witness to testify in the supplemental equi-
table defenses trial was Apple’s witness Dr. Walker, who
is a former chairman of the board of ETSI and was offered
as an expert on the ETSI intellectual property rights
policy. Dr. Walker testified that Nokia was subject to a
disclosure obligation, even though its proposal was not
accepted, “as long as there was a possibility of [the pro-
posal] becoming essential.” He testified that the policy’s
definition of IPR, in his understanding, applied to both
patents and patent applications. He noted that the excep-
tion for confidential information referred to “things like
get-up, design of equipment, appearance, [and] marketing
attributes,” but that the confidentiality proviso did not
18 CORE WIRELESS LICENSING v. APPLE INC.
exempt unpublished patent applications from the disclo-
sure obligation. The importance of the IPR disclosure
requirement, he explained, was to inform the deci-
sionmaking of the members of the standards-setting
organization, which could affect what technical solution
they chose to adopt. Therefore, Dr. Walker testified, “the
moment you submit a contribution which you believe
might be essential to the standard, then you should
disclose the IPR.” Given his understanding of ETSI’s
policy, Dr. Walker concluded that Nokia should have
disclosed its patent application when it submitted its
proposal because “it has the potential to be essential,”
which was acknowledged by Nokia’s employees in the
invention report.
On cross-examination, Core Wireless first had Dr.
Walker confirm that the word “timely” is not defined in
the ETSI policy. Core Wireless further questioned Dr.
Walker regarding the confidentiality of Finnish patent
applications. Dr. Walker testified that the Finnish “pa-
tent authority would keep [such applications] confiden-
tial” for 18 months, but “the owner of the IPR wouldn’t,
not if it submitted it as a proposal.” On redirect examina-
tion, Dr. Walker elaborated that an IPR does not have to
actually be essential to fall under the disclosure obliga-
tion, “[s]o long as it might become essential, that’s all
that’s required.”
The district court issued a brief order containing its
findings of fact and conclusions of law regarding Apple’s
equitable defenses. After reciting the facts and the rele-
vant legal standard, the district court addressed implied
waiver in a single paragraph. The court stated that
Nokia did not have a duty to disclose the Finnish applica-
tion for two reasons: “(1) Nokia’s proposal was rejected;
and (2) the patent claims were not finalized until 2002.
Nokia disclosed the patent in 2002, shortly after it could
point to the contours of its IPR with specificity because
the claims were allowed.” Core Wireless Licensing
CORE WIRELESS LICENSING v. APPLE INC. 19
S.A.R.L. v. Apple Inc., No. 5:15-cv-05008-NC, 2016 WL
8231156, at *2 (N.D. Cal. Dec. 22, 2016). In addition, the
district court stated that “Apple presented no evidence
that any ETSI member or other entity interpreted Nokia’s
failure to disclose the patent in 1998 as evidence that
Nokia relinquished its patent rights.” Id.
None of those stated reasons supports the district
court’s conclusion. The district court’s finding that Nokia
did not have a duty to disclose its patent application
because its proposal was rejected is unsupported by the
evidence. ETSI’s intellectual property rights policy states
that the disclosure requirement attaches to a member
“submitting a technical proposal” if that party has intel-
lectual property that “might” be essential “if that proposal
is adopted.” The district court’s interpretation of the
policy would undermine the very purpose of disclosure,
which Dr. Walker testified was to permit the standards-
setting decisionmakers to make an informed choice about
whether to adopt a particular proposal. Dr. Walker’s
unrebutted testimony made it clear that an ETSI mem-
ber’s duty to disclose a patent application on particular
technology attaches at the time of the proposal and is not
contingent on ETSI ultimately deciding to include that
technology in an ETSI standard.
As for the district court’s second ground for decision,
there was no testimony at trial that ETSI’s intellectual
property rights policy exempted patent applications that
had not yet matured into issued patents. Rather, Dr.
Walker’s unrebutted trial testimony made clear that the
ETSI policy included patent applications, which are, by
their nature, not yet final.
As for the court’s determination that there was no ev-
idence that the ETSI members understood Nokia to have
intended to waive its patent rights, there is no require-
ment under the implied waiver doctrine that a third party
must interpret the patentee’s conduct as constituting a
20 CORE WIRELESS LICENSING v. APPLE INC.
waiver of its rights to enforce the patent; such analysis is
more relevant to equitable estoppel. See Hynix, 645 F.3d
at 1348 (equitable estoppel requires a duty of disclosure, a
breach of that duty, and misleading conduct that “led the
alleged infringer to reasonably infer that the patentee
does not intend to enforce its patent against the alleged
infringer” (quoting A.C. Aukerman Co. v. R.L. Chaides
Constr. Co., 960 F.2d 1020, 1028 (Fed. Cir. 1992) (en
banc), abrogated on other grounds by SCA Hygiene Prods.
Aktiebolag v. First Quality Baby Prods., LLC, 137 S. Ct.
954 (2017)).
Core Wireless presents a number of additional argu-
ments to bolster the district court’s “no unenforceability”
finding. The district court did not adopt any of those
arguments, and we do not find any of them persuasive.
First, Core Wireless argues that ETSI’s intellectual
property rights policy was limited to intellectual property
that is or might be essential, and that Apple presented no
evidence that the proposal ever was or might be stand-
ards-essential. However, that contention is undercut by,
among other things, the testimony of Mr. Oksala, who
explained the difference between his proposal and Erics-
son’s by pointing out that Ericsson’s proposal is different
only because it made his idea “optional.” Moreover, there
is no ground for dispute that Nokia’s proposal, if adopted,
would have made its patent standards-essential.
Second, Core Wireless argues that the ETSI intellec-
tual property rights policy did not require the disclosure
of patent applications. That argument, however, is clear-
ly contrary to the evidence, as the policy by its terms
encompassed applications, and Dr. Walker’s unrebutted
testimony confirmed that interpretation of the policy.
Third, Core Wireless argues that the Finnish patent
application was confidential under Finnish law and
therefore fell within an exception to ETSI’s intellectual
property rights policy. That argument, too, is contrary to
CORE WIRELESS LICENSING v. APPLE INC. 21
the record. Dr. Walker explained that, although under
Finnish law the Finnish patent authority treats a patent
application as confidential, ETSI’s policy applied to un-
published patent applications without regard to whether
they were confidential. Core Wireless points to nothing in
Finnish law that would entitle it to ignore the require-
ments of the ETSI policy simply because Finnish patent
authorities were required to treat patent applications as
confidential. Core Wireless’s proposed reading of ETSI’s
policy is unsupported by any evidence at trial.
Finally, Core Wireless argues that the disclosure in
2002 was timely. Dr. Walker testified, however, that a
disclosure under the ETSI policy was required to be made
no later than the date the standard was adopted, which in
this case was June 1998. Again, Core Wireless’s reading
of the policy, which would define a timely disclosure as
one occurring as late as four years after the adoption of
the standard, is unsupported in the record. As Dr. Walk-
er’s testimony made clear, Core Wireless had a duty to
disclose its IPR no later than June 1998; its later disclo-
sure was clearly untimely and not sufficient to cure the
earlier breach of its duty.
Nonetheless, we remand rather than reverse. It is
possible to interpret the district court’s ruling as being
based on the conclusion that, because Nokia’s proposal
was not adopted, no inequitable consequence flowed from
Nokia’s failure to disclose its patent application. Equita-
ble defenses seek to prevent a party from unfairly benefit-
ing from its wrongful actions, and in some circumstances
courts have held that an equitable defense will not be
recognized if the offending party did not gain a benefit
from its wrongdoing. See Therasense, Inc. v. Becton,
Dickinson & Co., 649 F.3d 1276, 1292 (Fed. Cir. 2011) (en
banc). Implied waiver is an equitable doctrine, and an
equitable doctrine “hinges on basic fairness.” Id.; see also
Gasser Chair Co. v. Infanti Chair Mfg. Corp., 60 F.3d 770,
776 (Fed. Cir. 1995) (discussing prejudice and egregious
22 CORE WIRELESS LICENSING v. APPLE INC.
conduct as factors in showing the equitable defenses of
laches and equitable estoppel). As the Supreme Court
has acknowledged, “the remedy imposed by a court of
equity should be commensurate with the violation.”
Columbus Bd. of Educ. v. Penick, 443 U.S. 449, 465
(1979).
Because implied waiver, like the doctrine of inequita-
ble conduct discussed in Therasense, may render an entire
patent unenforceable, the doctrine “should only be applied
in instances where the patentee’s misconduct resulted in
[an] unfair benefit.” 649 F.3d at 1292; see also id.
(“[E]nforcement of an otherwise valid patent does not
injure the public merely because of misconduct, lurking
somewhere in [the past], that was immaterial to the
patent’s [enforcement].”). Therasense, however, recog-
nized an exception to the materiality requirement for
“cases of affirmative egregious misconduct.” Id. In the
analogous case of implied waiver, which like inequitable
conduct involves the breach of a disclosure duty, the same
equitable considerations require either a showing of
prejudice or egregious misconduct sufficient to justify the
sanction of unenforceability of the patent at issue.
Here, it may be that, despite breaching its duty to dis-
close its application, Nokia (and Core Wireless, its succes-
sor-in-interest) did not obtain any unjust advantage,
because Nokia’s proposal was not adopted. On the other
hand, given the similarities between Nokia’s and Erics-
son’s proposals, and given that Nokia participated in at
least some of the discussions in the ETSI working groups,
it is also possible that the standard that was adopted,
which made Nokia’s proposal “optional,” has still provided
Nokia (and Core Wireless) with an undeserved competi-
tive advantage.
The district court did not make findings regarding
whether Nokia or Core Wireless inequitably benefited
from Nokia’s failure to disclose, or whether Nokia’s con-
CORE WIRELESS LICENSING v. APPLE INC. 23
duct was sufficiently egregious to justify finding implied
waiver without regard to any benefit that Nokia or Core
Wireless may have obtained as a result of that miscon-
duct. Those issues must be addressed in the first instance
by the district court on remand, as the task of applying an
equitable defense is committed to the district court’s
discretion. See Meredith v. Winter Haven, 320 U.S. 228,
235 (1943) (“An appeal to the equity jurisdiction conferred
on federal district courts is an appeal to the sound discre-
tion which guides the determinations of courts of equi-
ty.”); Qualcomm, 548 F.3d at 1019; A.C. Aukerman, 960
F.2d at 1028. We therefore vacate the district court’s
finding of no unenforceability and remand for further
proceedings consistent with this opinion.
III
Apple raises two challenges to the jury’s finding that
Apple infringed claim 19 of the ’536 patent. Because we
find that Core Wireless’s theory of infringement is inade-
quate to support a judgment of infringement of that claim,
we reverse. 2
A
Claim 19 of the ’536 patent recites a receiver that has
“receiving means for receiving a signal via a transmission
channel in frames wherein each frame has one of two
states, the states being a good state and a bad state.” As
construed, “good state” and “bad state” refer to a state
flagging that the frame contains, or does not contain,
error-free user information.
2 Because we reverse the judgment of infringement,
we need not address Apple’s additional argument that the
district court erred in precluding certain testimony from
Apple’s witnesses.
24 CORE WIRELESS LICENSING v. APPLE INC.
To prove infringement of the ’536 patent, Core Wire-
less accused Apple’s implementation of the Robust Adap-
tive Multi-Rate Traffic Synchronized Control Channel
(“RATSCCH”) protocol, which is part of the Global System
for Mobile Communications (“GSM”) standard. The GSM
standard describes eight receive types (“RX_TYPE”),
which allow a mobile device’s “RX DTX handler to deter-
mine in a simple way how the received frame is to be
handled.” These eight types are described in the standard
as follows:
Core Wireless’s expert Dr. Wesel testified that the RX
DTX handler in Apple’s devices treats those eight
RX_TYPE identifiers in one of two ways. Four of the
RX_TYPE identifiers—“SPEECH_GOOD,” “SID_FIRST,”
“SID_UPDATE,” and “ONSET”—are all “flagged” by
Apple’s device as having error-free user information, and
are “going to be used as if they contain error-free” user
data. It is these frames that produce the sound for the
user of the mobile device. The other four identifiers—
“SPEECH_DEGRADED,” “SPEECH_BAD,” “SID_BAD,”
and “NO_DATA”—are substituted and muted by Apple’s
devices because “the iPhone treats it as a frame that does
not contain error-free user information.” Because Apple
does not want its devices “to take any chances,” all frames
flagged with any of those four RX_TYPE identifiers are
CORE WIRELESS LICENSING v. APPLE INC. 25
treated as if they do not contain error-free user infor-
mation. From this evidence, Core Wireless concludes that
Apple’s devices receive frames that have “one of two
states, the states being a good state and a bad state.”
Apple’s non-infringement position is based on the
“SPEECH_DEGRADED” RX_TYPE identifier. As ex-
plained in the GSM standard, that identifier means that
the speech frame “may be corrupted.” Apple contends
that this identifier represents a third state—neither
“good” nor “bad”—and that the Apple devices cannot
infringe. During Apple’s cross-examination of Dr. Wesel,
he admitted that the SPEECH_DEGRADED identifier
does not indicate that the frame is definitely corrupted or
definitely not corrupted. Dr. Wesel was asked, “this is a
third type of state, it’s neither good nor bad. It may be
bad; it may not be bad. And the standard tells us exactly
that; right?” He responded: “Well, yes. But we’re not
accusing this table. We’re accusing the Apple devices, and
in the Apple devices, speech degraded is flagged as a bad
state. The phone does not treat it as error-free user
information. It’s going to substitute it and mute it.”
Core Wireless’s theory of infringement—that Apple’s
devices treat a SPEECH_DEGRADED identifier as a bad
state—is legally insufficient to satisfy claim 19. The
magistrate judge who conducted the claim construction
rejected Core Wireless’s proposed construction of “good
state” and “bad state” as referring to states of a frame
“from which the receiver can conclude that the frame
should be treated.” Claim Construction Order, 2016 WL
3124614, at *10. Rather, the magistrate judge held that
the patent relies on preexisting systems to define “good”
and “bad” states. Id. at *11; see ’536 patent, col. 2, ll. 19–
24; id., col. 6, ll. 31–37; id., col. 7, ll. 41–57. A “good” and
“bad” state is not defined by how the mobile device treats
the frame; instead, those states “may be distinguished
26 CORE WIRELESS LICENSING v. APPLE INC.
from one another by means of an implicit or explicit
information element in the frame.” Id., col. 2, ll. 21–23.
All of the testimony that Core Wireless cites on appeal
addresses how the iPhone treats a frame labeled
SPEECH_DEGRADED, and not what the label itself
indicates. From the very beginning of Dr. Wesel’s presen-
tation, he emphasized that “we’re going to look at the
RX_TYPEs and look at how the iPhones treat them, and
we’re going to discover that four of the RX_TYPEs are
treated as frames that contain error-free user information
. . . and four of those RX_TYPEs are going to be identify-
ing frames that are not used as if they had error-free user
information.”
Later, identifying good frames, Dr. Wesel explained
that “those frames are—they contain error-free user
information, at least, they have been flagged that way by
the phone, because they’re going to be used as if they
contain error-free.” As to the SPEECH_DEGRADED
identifier, he stated that “even though in the RX_TYPE
slide that we looked at earlier, it says the speech may
contain errors, the iPhone treats it as a frame that does
not contain error-free user information, it’s not going to
take any chances.”
Responding directly to Apple’s non-infringement theo-
ry, Dr. Wesel testified that SPEECH_DEGRADED is not
“in between” a good and bad state “because the iPhone
has flagged it as not containing error-free user infor-
mation,” and therefore it is treated the same way as
SPEECH_BAD and other “bad” RX_TYPE identifiers.
Summarizing his infringement position, Dr. Wesel testi-
fied that he concluded that each of the eight RX_TYPE
identifiers is either good or bad “both based on what the
RX_TYPE tells us about the frame, and on how the iPh-
one uses that.” None of Dr. Wesel’s confidential testimony
regarding Apple’s source code rectifies that flaw, because
CORE WIRELESS LICENSING v. APPLE INC. 27
it addresses only how Apple’s devices treat each
RX_TYPE identifier, and not what the label itself indi-
cates.
Finally, on redirect examination, Dr. Wesel summa-
rized his opinion that “the phone is going to treat the
frame as if it does not contain error-free user infor-
mation,” and explained that for SPEECH_DEGRADED
frames, the phone “has to decide, is it going to treat it as
an error-free user information frame or not? And the
phone—these phones, using this standard, have decided
to be cautious . . . [and say] [w]e’re going to flag this frame
as a frame that does not contain error-free user infor-
mation.”
This testimony does not satisfy the claim as con-
strued, which requires “receiving means” for receiving a
signal in frames wherein each frame has one of two
states, either a “state flagging that the frame contains
error-free user information” or a “state flagging that the
frame does not contain error-free user information.” The
standard, as Dr. Wesel admitted, recognizes at least three
states, which cannot be squared with the patent’s re-
quirement that each frame have one of only two states.
The fact that Apple’s devices subsequently take one of two
actions with these frames is insufficient to infringe. The
judgment of infringement therefore must be reversed.
B
In challenging the judgment of infringement of claim
19 of the ’536 patent, Apple also argues that no reasona-
ble jury could have found that Apple’s products met the
limitation that recites a “bit pattern.”
The accused bit pattern is a RATSCCH frame in the
GSM standard. As described in the standard, a
RATSCCH frame has a defined structure consisting of 456
bits. The RATSCCH message, which is the control mes-
28 CORE WIRELESS LICENSING v. APPLE INC.
sage, consists of 35 bits that are encoded for transmission
into a 212-bit message. A RATSCCH message is always
preceded by a pre-defined 212-bit identification marker.
Finally, there is a 16-bit data field before the identifica-
tion marker, and a 16-bit data field in between the identi-
fication marker and the encoded message. The
RATSCCH message can be visualized as follows:
Apple argues that the RATSCCH message does not
satisfy the “bit pattern” limitation. The magistrate judge
who issued the claim construction noted that the prosecu-
tion history of the ’536 patent explained that “no separate
code words are needed, and message detection is based
only on individual messages.” He therefore construed “bit
pattern” to mean a “sequence of bits conveying a signaling
message not delineated by a code word.” Claim Construc-
tion Order, 2016 WL 3124614, at *12. Apple argues that
the RATSCCH identification marker is a “code word” that
“delineates” the RATSCCH message. In support of that
theory, Apple’s expert testified that the RATSCCH mark-
er is “a code word that tells us exactly where the position
is,” and because “[i]t’s a fixed length message . . . the
specification tells us where the message starts after the
marker is found so we know exactly where it begins and
exactly where it ends as soon as we find that RATSCCH
marker.”
At trial, Core Wireless’s expert Dr. Wesel sought to
draw a distinction between “identifying the frame as a
particular kind of frame” and “delineating the message.”
Specifically, Dr. Wesel explained that the RATSCCH
marker “identifies the frame as a RATSCCH frame” but
does not delineate the message because the marker does
CORE WIRELESS LICENSING v. APPLE INC. 29
not signal where the RATSCCH message starts, where it
ends, or how long it might be. Core Wireless further
argues that the identification marker cannot “delineate”
the message because the receiver must decode the encod-
ed 212-bit message to conclude whether a message was
included in the frame. In its brief, Core Wireless argues,
without citation, that “the RATSCCH marker is simply
the first breadcrumb in a trail that sometimes leads to a
message and sometimes leads to corrupted data.”
The parties do not disagree about the GSM standard
or how the accused devices operate. Rather, the parties’
dispute focuses primarily on the scope of the claim and
the meaning of the term “delineate.” The ’536 patent does
not use that term, but the magistrate judge adopted it
from the prosecution history. During prosecution, the
patentee addressed a prior art reference in which “the
beginning and end of a message are explicitly indicated by
separate code words.” Amendment filed in Patent Appli-
cation No. 09/254,890 (June 28, 2002) (Amendment); see
Claim Construction Order, 2016 WL 3124614, at *12 &
n.98. That operation, the patentee argued, is “fundamen-
tally different from the claimed invention” because “no
separate code words are needed, and message detection is
based only on individual messages, not on separate code
words that delineate the message.” Amendment at 8; see
Claim Construction Order, 2016 WL 3124614, at *12 &
n.99 (emphasis added).
The use of the RATSCCH identification marker,
which is not part of the accused message, is fatal to Core
Wireless’s theory of infringement. Every encoded 212-bit
RATSCCH message is preceded by 16 coded mode indica-
tion bits and a 212-bit RATSCCH identification marker.
Dr. Wesel’s analysis of Apple’s source code confirmed that
the accused devices use the RATSCCH identification
marker to determine that the frame is a bad frame and to
look for an encoded RATSCCH message. Core Wireless’s
concession that the RATSCCH identification marker is a
30 CORE WIRELESS LICENSING v. APPLE INC.
“breadcrumb” to aid in identifying the RATSCCH mes-
sage is at odds with the claimed invention, which requires
detecting a message “based only on [the] individual mes-
sages.”
Core Wireless’s position that the RATSCCH identifi-
cation marker does not “delineate” the RATSCCH mes-
sage because it does not indicate where the message
begins or ends is unpersuasive. As the experts for both
parties agreed, RATSCCH frames are of a fixed length,
and the RATSCCH message appears at a predetermined
position relative to the RATSCCH marker that precedes
it. A mobile device knows that a RATSCCH message will
follow after a RATSCCH marker. Based on the standard,
the device knows precisely how long the RATSCCH mes-
sage is and when it will start and stop relative to the
RATSCCH marker. For this additional reason, the judg-
ment of infringement of claim 19 of the ’536 patent cannot
be upheld.
Each party shall bear its own costs for this appeal.
AFFIRMED IN PART, REVERSED IN PART,
VACATED IN PART, AND REMANDED