Full opinion text
LINN, Circuit Judge. Research In Motion, Ltd. (“RIM”) appeals from a judgment of the U.S. District Court for the Eastern District of Virginia (“district court”) entered in favor of NTP, Inc. (“NTP”) following a jury verdict that RIM’s BlackBerry™ system infringed NTP’s U.S. Patents Nos. 5,436,960 (“the ’960 patent”); 5,625,670 (“the ’670 patent”); 5,819,172 (“the T72 patent”); 6,067,451 (“the ’451 patent”); and 6,317,592 (“the ’592 patent”) (collectively, “the patents-in-suit”) and awarding damages to NTP in the amount of $53,704,322.69. NTP, Inc. v. Research in Motion, Ltd., No. 3:01CV767, 2003 WL 23325540 (E.D.Va. Aug.5, 2003) (“Final Judgment”). The court, in a final order also appealed by RIM, permanently enjoined any further infringement by RIM, but stayed the injunction pending this appeal. We conclude that the district court erred in construing the claim term “originating processor,” but did not err in construing any of the other claim terms on appeal.' We also conclude that the district court correctly found infringement under 35 U.S.C. § 271(a), correctly denied RIM’s motion for judgment as a matter of law (“JMOL”), and did not abuse its discretion in denying evidentiary motions. Thus, we affirm-in-part, vacate-in-part, and remand for further proceedings. I. BACKGROUND The technology at issue relates to systems for integrating existing electronic mail systems (“wireline” systems) with radio frequency (“RF”) wireless communication networks, to enable a mobile user to receive email over a wireless network. A. Overview of Electronic Mail Technology Traditional email systems operate in the following manner: To send an email, a user begins by composing a message in his or her email client. An “email client” is a user interface, such as Microsoft Outlook ™, Eudora ™, or Hotmail ™, that organizes and displays a user’s email messages and provides the user with a means of creating and sending email messages. The message begins with a specific destination address, ie., jdoe@* * *.com, that corresponds to the recipient’s user identification, “jdoe,” and his or her internet service provider (“ISP” or “host”), “ * * *.com.” See generally Andrew S. Tanenbaum, Computer Networks 592-611 (4th ed.2003). When the message is sent, it is transferred first from the sender’s machine to his or her ISP. Id. at 607. The sender’s host then uses a domain name server to identify the recipient’s ISP mail server and its associated internet protocol (“IP”) address. Id. A connection is then established by the sender’s host with the recipient’s ISP mail server, facilitating transfer of the message. Id. at 607-08. The message is next sorted by the recipient’s ISP mail server into the recipient’s particular “mailbox,” where it is stored until the recipient initiates a connection with the server and downloads the message off the server onto his or her personal machine. This configuration is commonly referred to as a “pull” system because emails cannot be distributed to the user’s machine without a connection being initiated by the user to “pull” the messages from the mail server. B. Problems With the Prior Art Systems As societal dependence on email and computers increased throughout the 1990s, so did the demand for mobile internet access. See generally Richard Duffy & Denis Gross, “World Without Wires,” 22 Communications Int’l 72 (June 1995) (describing “user demand” as “one of the most important driving factors behind the mobile data market”). The increased portability of computers via laptop machines exacerbated this demand. See id.; ’960 patent, col. 4,11. 19-39. Available methods of remote internet access were cumbersome and inefficient for the traveling businessperson, however, as the patents-in-suit explain: As personal computers are used more frequently by business travellers, the problem of electronic mail delivery becomes considerably more difficult. A business traveller carrying a portable PC has great difficulty in finding a telephone jack to connect the PC to fetch electronic mail from either a host computer or a gateway switch. Connections for a PC’s modem are difficult to find in airports .... Hotels and motels often have internal PABX’s that prevent calls from automatically being placed by the user’s PC to electronic mail gateway switches to receive information.... The inability to find an appropriate connection to connect the PC modem when travelling has contributed to the degradation of electronic mail reception when the recipient is travelling. ’960 patent, col. 3, 1. 60 — col. 4, 1. 12. RIM’s technical documentation for its BlaekBerry products echoes the undesirability of these constraints: Typically, mobile professionals use a laptop when traveling and dial-in to the corporate email server from a hotel room to manage an inbox full of email. The more adventurous use special software to send email notification to a pager or cell phone so they know what is in their inbox before spending the time and effort to dial-in. Focus groups and market research on mobile email revealed common complaints with dialing-in — the inconvenience of lugging a laptop around just for email; the trouble of finding a connection and dialing-out of the hotel; the difficulty of negotiating corporate dial-in security; and the cost of phone charges when dialing-in to the corporate server. Research in Motion Ltd., Technical White Paper BlaekBerry Enterprise Edition ™ 3 (2001) (‘‘White Paper”). C. The Patents-m-Suit Inventors Thomas J. Campana, Jr.; Michael P. Ponschke; and Gary F. Thelen (collectively “Campana”) developed an electronic mail system that was claimed in the ’960, ’670, ’172, ’451, and ’592 patents. The ’960 patent, filed on May 20, 1991, is the parent of a string of continuation applications. The most recent patent, the ’592 patent, filed December 6, 1999, is a continuation of the ’451 patent, filed September 28, 1998. The ’451 patent, in turn, is a continuation of the T72 patent, which itself originates from the ’670 patent, a direct continuation of the parent ’960 patent. As continuations of that single parent application, these patents contain the same written descriptions as the ’960 patent. NTP now owns these five patents-in-suit. Campana’s particular innovation was to integrate existing electronic mail systems with RF wireless communications networks. See ’960 patent, col. 18, 11. 32-39. In simplified terms, the Campana invention operates in the following manner: A message originating in an electronic mail system may be transmitted not only by wireline but also via RF, in which case it is received by the user and stored on his or her mobile RF receiver. The user can view the message on the RF receiver and, at some later point, connect the RF receiver to a fixed destination processor, ie., his or her personal desktop computer, and transfer the stored message. Id. at col. 18,11. 39-66. Intermediate transmission to the RF receiver is advantageous because it “eliminat[es] the requirement that the destination processor [be] turned on and carried with the user” to receive messages. Id. at col. 18,11. 44M6. Instead, a user can access his or her email stored on the RF receiver and “review ... its content without interaction with the destination processor,” id. at col. 18, 1. 67 — col. 19, 1. 1, while reserving the ability to transfer the stored messages automatically to the destination processor, id. at col. 19, 11. 1-2. The patents-in-suit do not disclose a method for composing and sending messages from the RF receiver. D. The Accused System RIM is a Canadian corporation with its principal place of business in Waterloo, Ontario. RIM sells the accused BlackBerry system, which allows out-of-office users to continue to receive and send electronic mail, or “email” communications, using a small wireless device. The system utilizes the following components: (1) the BlackBerry handheld unit (also referred to as the “BlackBerry Pager”); (2) email redi-rector software (such as the BlackBerry Enterprise Server (“BES”), the Desktop Redirector, or the Internet Redirector); and (3) access to a nationwide wireless network (such as Mobitex, DataTAC, or GPRS). The BlackBerry system uses “push” email technology to route messages to the user’s handheld device without a user-initiated connection. There are multiple BlackBerry email “solutions” that interface with different levels of the user’s email system. In the Desktop solution, the BlackBerry email redirector software, the Desktop Redirector, is installed on the user’s personal computer. In the Corporate solution, different BlackBerry email redirector software, the BES program, is installed on the organizational user’s mail server, where it can function for the benefit of the multiple users of that server. Also at issue in this case is RIM’s Internet solution of the BlackBerry system. The Internet solution operates in a manner similar to the Corporate solution, but it executes a different email redirector software, Internet Redirector. In either version, the BlackBerry email redirector software merges seamlessly with the user’s existing email system. The operation of the email redirector software is transparent to the user’s desktop email client and the organizational user’s mail server. That is, the user’s email system does not recognize or incorporate the BlackBerry wireless system into its operation. No modification of the underlying email system is required to run RIM’s wireless email extension. When new mail is detected in the Desktop solution, the Desktop Redirector is notified and retrieves the message from the mail server. It then copies, encrypts, and routes the message to the BlackBerry “Relay” component of RIM’s wireless network, which is located in Canada. In the Corporate solution, the BES software performs this same function but intercepts the email before the message reaches the individual user’s personal computer. The individual user’s personal computer need not be turned on for the BES software to properly redirect the user’s emails. However, the user retains some control over message forwarding by using the BlackBerry “Desktop Manager.” This additional software permits the user to specify his or her email redirection preferences. In both systems, the message travels through the BlackBerry Relay, where it is translated and routed from the processors in the user’s email system to a partner wireless network. That partner network delivers the message to the user’s BlackBerry handheld, and the user is “notified virtually instantly” of new email messages. White Paper at 6. This process, accomplished without any command from the BlackBerry user, is an example of “push” email architecture. Id. There are significant advantages to “push” email architecture. Most importantly, the user is no longer required to initiate a connection with the mail server to determine if he or she has new email. As RIM’s technical literature explains, “[b]y having the desktop connect to the user, time spent dialing-up and connecting to the desktop (possibly to find that there is no new email) is eliminated as users ... are notified virtually instantly of important messages, enabling the user to respond immediately.” Id. RIM’s system also permits users to send email messages over the wireless network from their handhelds. This functionality is achieved through the integration of an RF transmitter and a processor in the BlackBerry handheld unit. The processor allows the user to manipulate, view, and respond to email on his or her BlackBerry handheld. Sending a message from the handheld requires the same steps as the process for receiving email, only in reverse. When the user composes a message on his or her handheld, it is sfent back to that user’s desktop machine over the partner and BlackBerry wireless networks. The BlackBerry email redirector software then retrieves the outgoing message from the user’s mail server and places it in the user’s desktop email software, where it is dispersed through normal channels. In this way, messages sent from the BlackBerry handheld are identical to messages sent from the user’s desktop email — they originate from the same address and also appear in the “sent mail” folder of the user’s email client. E. Procedural History On November 13, 2001, NTP filed suit against RIM in the U.S. District Court for the Eastern District of Virginia. NTP alleged that over forty system and method claims from its several patents-in-suit had been infringed by various configurations of the BlackBerry system (comprised of the numerous handheld units; the BES, the Desktop Redirector, and the ISP Redirector software; and the associated wireless networks). In an Order dated August 14, 2002, the district court construed thirty-one disputed claim terms. NTP, Inc. v. Research in Motion, Ltd., No. 3:01CV767 (E.D.Va. Aug.05, 2003) (“Claim Construction Order”). In that Order, the district court “construed the disputed terms according to their plain and ordinary meaning, as supported by the specification and prosecution history.” Id., slip op. at 3. The Order listed the claim terms in contention and their corresponding constructions without additional reasoning or analysis. See id., slip op. at 4-9. A series of summary judgment motions followed the court’s Markman decision. Setting forth several alternate theories, RIM asked for summary judgment of both non-infringement and invalidity. The issues raised in two of RIM’s summary judgment motions remain relevant on appeal: RIM argued (1) that the asserted claims, properly construed, did not read on the accused RIM systems, see NTP, Inc. v. Research in Motion, Ltd., No. 3:01CV767, 2003 WL 23325540 (E.D.Va. Aug.5, 2003) (nunc pro tunc Oct. 23, 2002) (“Non-infringement Order ”), and (2) that the physical location of the “Relay” component of the BlackBerry system put RIM’s allegedly infringing conduct outside the reach of 35 U.S.C. § 271, see NTP, Inc. v. Research in Motion, Ltd., No. 3:01CV767 (E.D.Va. Aug.5, 2003) (nunc pro tunc Oct. 23, 2002) (“Section 271 Order”). The district court denied all of RIM’s summary judgment motions. For its part, NTP asked the district court to grant partial summary judgment of infringement on four claims of the patents-in-suit. In its motion, NTP argued: (1) that the 800 and 900 series BlackBerry handheld units infringed claim 248 of the ’451 patent and claim 150 of the ’592 patent; (2) that the BES software infringed claim 653 of the ’592 patent; and (3) that the BlackBerry system, software, and handhelds infringed claim 15 of the ’960 patent. See NTP, Inc. v. Research in Motion, Ltd., No. 3:01CV767 (E.D.Va. Nov.4, 2002) (“Order Granting Summary Judgment of Infringement ”). RIM cross-moved for summary judgment of non-infringement, arguing that its products lacked certain limitations required by the asserted claims. Id., slip op. at 4. The district court agreed with NTP, holding that “no genuine issue of material fact” existed as to infringement of the four claims. Id. at 26. Accordingly, the district court granted summary judgment, except as to the issue of infringement of claim 15 of the ’960 patent or claim 248 of the ’451 patent by the BlackBerry series 5810 handheld device. That issue was reserved for the jury. The case proceeded to trial on fourteen claims. The fourteen claims submitted to the jury were: claims 15 (with respect to the series 5810 handheld devices only), 32, and 34 of the ’960 patent; claim 8 of the ’670 patent; claim 199 of the ’172 patent; claims 28, 248 (with respect to the series 5810 handheld devices only), 309, 313, and 317 of the ’451 patent; and claims 40, 278, 287, and 654 of the ’592 patent. A verdict was rendered on November 21, 2002. On every issue presented, the jury found in favor of the plaintiff, NTP. The jury found direct, induced, and contributory infringement by RIM on all asserted claims of the patents-in-suit. The jury also found that the infringement was willful. It rejected every defense proposed by RIM. Adopting a reasonable royalty rate of 5.7%, the jury awarded damages to NTP in the amount of approximately $23 million. Following the jury verdict, RIM moved the court for JMOL or, in the alternative, for a new trial. The court denied these motions. NTP, Inc. v. Research in Motion, Ltd., No. 3:01CV767 (E.D.Va. May 23, 2003) (“JMOL Order”). On August 5, 2003, the district court entered final judgment in favor of NTP. The court awarded monetary damages totaling $53,704,322.69, with the following approximate division: (1) compensatory damages of $33 million; (2) attorneys’ fees of $4 million; (3) prejudgment interest of $2 million; and (4) enhanced damages of $14 million. Final Judgment, slip op. at 1. The court also entered a permanent injunction against RIM, enjoining it from further manufacture, use, importation, and/or sale of all accused BlackBerry systems, software, and handhelds. Id. at 2-3. The injunction has been stayed pending this appeal. RIM timely appealed from the district court’s final judgment and injunction. We have jurisdiction pursuant to 28 U.S.C. § 1295(a)(1). II. ANALYSIS A. Claim Construction In the district court, NTP ultimately asserted against RIM, and RIM was found to have infringed, sixteen system and method claims of five different patents owned by NTP. This includes both the claims resolved by the court in NTP’s favor on summary judgment and the claims submitted to the jury for a determination of infringement. These claims are: claims 15, 32, and 34 of the ’960 patent; claim 8 of the ’670 patent; claim 199 of the ’172 patent; claims 28, 248, 309, 313, and 317 of the ’451 patent; and claims 40, 150, 278, 287, 653, and 654 of the ’592 patent. All of these claims, with the exception of claim 150 of the ’592 patent, are dependent claims. The parental lineage of the adjudicated claims is indicated in the following table: On appeal, RIM challenges the judgment of infringement with respect to each of the asserted claims. RIM argues that the district court erred in construing the claim terms: (a) “electronic mail system” (appearing in the ’960, ’670, and ’172 patents); (b) “gateway switch” (appearing in the ’960 patent); and (c) “originating processor” and “originated information” (appearing in the ’960, ’670, and ’592 patents). Further, RIM argues that the district court erred in failing to impose general restrictions on certain asserted claims and in failing to construe certain terms relating to asserted claims; specifically: (d) a “dual pathways” limitation, requiring that at least one destination processor be accessible through both a wireline and an RF pathway (relating to asserted claims of the ’960 and ’670 patents); (e) a limitation requiring that the RF receiver and destination processor be “separate and distinct” entities (relating to asserted claims of the ’960, ’670, and ’592 patents, and to certain asserted claims of the ’451 patent); and (f) the term “processor outside any electronic mail system” (relating to the ’960 patent). We consider each, in turn. 1. Claim Construction Precedent Because NTP’s patents all derive from the same parent application and share many common terms, we must interpret the claims consistently across all asserted patents. See, e.g., Microsoft Corp. v. Multi-Tech Sys., Inc., 357 F.3d 1340, 1350 (Fed.Cir.2004) (holding that statements made in prosecution of one patent are relevant to the scope of all sibling patents); Laitram Corp. v. Morehouse Indus., Inc., 143 F.3d 1456, 1460 & n. 2 (Fed.Cir.1998) (noting that it was proper to consider the prosecution histories of two related re-examination patents originating from the same parent, to determine the meaning of a term used in both patents). We thus draw distinctions between the various patents only where necessary. Claim construction presents a question of law that this court reviews de novo. Cybor Corp. v. FAS Techs., Inc., 138 F.3d 1448, 1456 (Fed.Cir.1998) (en banc). We begin our claim construction analysis with the words of the claim. See Vitronics Corp. v. Conceptronic, Inc., 90 F.3d 1576, 1582 (Fed.Cir.1996). “In construing claims, the analytical focus must begin and remain centered on the language of the claims themselves, for it is that language that the patentee chose to use to ‘particularly point[] out and distinctly claim[] the subject matter which the patentee regards as his invention.’ 35 U.S.C. § 112, ¶2.” Interactive Gift Express, Inc. v. Compuserve, Inc., 256 F.3d 1323, 1331 (Fed.Cir.2001). In the absence of an express intent to impart a novel meaning to the claim terms, the words take on the full breadth of the ordinary and customary meanings attributed to them by those of ordinary skill in the art. See, e.g., Teleflex, Inc. v. Ficosa N. Am. Corp., 299 F.3d 1313, 1325 (Fed.Cir.2002). The ordinary and customary meaning of a claim term may be determined by reviewing a variety of sources. “Some of these sources include the claims themselves; dictionaries and treatises; and the written description, the drawings, and the prosecution history.” Ferguson Beauregard v. Mega Sys., LLC, 350 F.3d 1327, 1338 (Fed.Cir.2003) (internal citations omitted). Words often have different meanings to different people and in different contexts, accounting for the multiple ordinary meanings found in dictionaries. Id. Thus, the meaning of the words used in the claims must be discerned not merely from relevant dictionaries but from the context of the written description as examined through the viewing glass of a person skilled in the art. Id. Once the court has construed the claim limitations, the second step in the analysis is to compare the properly construed claims to the accused device. Cybor Corp., 138 F.3d at 1454. With these general principles in mind, we turn now to RIM’s specific challenges to the district court’s claim construction determinations. 2. Disputed Terms a. “Electronic Mail System” The term “electronic mail system” appears in all of the asserted claims of the ’960, ’670, and 172 patents. For simplicity, we will use claim 1 of the ’960 patent (from which disputed claim 15 is dependent) as an exemplar. Claim 1 of the ’960 patent reads as follows: 1. A system for transmitting originated information from one of a plurality of originating processors in an electronic mail system to at least one of a plurality of destination processors in the electronic mail system comprising: at least one gateway switch in the electronic mail system, one of the at least one gateway switch receiving the originated information and storing the originated information prior to transmission of the originated information to the at least one of the plurality of destination processors; a RF information transmission network for transmitting the originated information to at least one RF receiver which transfers the originated information to the at least one of the plurality of destination processors; at least one interface switch, one of the at least one interface switch connecting at least one of the at least one gateway switch to the RF information transmission network and transmitting the originated information received from the gateway switch to the RF information transmission network; and wherein the originated information is transmitted to the one interface switch by the one gateway switch in response to an address of the one interface switch added to the originated information at the one of the plurality of originating processors or by the electronic mail system and the originated information is transmitted from the one interface switch to the RF information transmission network with an address of the at least one of the plurality of destination processors to receive the originated information added at the originating processor, or by either the electronic mail system or the one interface switch; and the electronic mail system transmits other originated information from one of the plurality of originating processors in the electronic mail system to at least one of the plurality of destination processors in the electronic mail system through a wireline without transmission using the RF information transmission network. ’960 patent, col. 49, 11. 2-45 (emphases added). The district court construed “electronic mail system” as: A type of communication system which includes a plurality of processors running electronic mail programming wherein the processors and the electronic mail programming are configured to permit communication by way of electronic mail messages among recognized users of the electronic mail system. The various constituent processors in the electronic mail system typically function as both “originating processors” and “destination proeessors.[”] Claim Construction Order, slip op. at 4. RIM argues there are two ordinary meanings of “electronic mail system”: a broad definition that encompasses “communicating word processors, PCs, telex, facsimile, videotex, voicemail and radio paging systems (beepers)” and a narrow definition that defines the term in the context of “pull” technology. Asserting that Campana endorsed the pull technology definition during prosecution, RIM argues that “electronic mail system” includes a pull technology requirement. RIM also argues that during prosecution Campana characterized an “electronic mail system” as a wireline system to distinguish over the Zabarsky reference. Thus, RIM argues that “electronic mail system” requires a processor interconnected with other processors to serve the common purpose of providing electronic mail services to end users through pull technology while utilizing wireline, point-to-point connections. NTP responds that the district court’s claim construction of “electronic mail system” is correct and is consistent with the written description. NTP contends that RIM’s proposed construction of “electronic mail system” as requiring pull technology contravenes the plain language of the claim and is inconsistent with Campana’s disclosure. Further, NTP argues that RIM never raised its pull technology claim construction at the Markman hearing, but in fact argued the opposite. Finally, NTP argues that RIM’s requirement that “electronic mail system” be limited to a wireline only system simply cites the prior art description of those terms, and not Campa-na’s use of the term as including wireless connections. At the outset, we note that NTP correctly points out that RIM did not argue its pull technology construction before the district court, instead arguing that an electronic mail system is limited to a wire-line only system. See J.A. at 2821-22 (arguing that “electronic mail system” should be construed as “a system of single processors or groups of processors linked by a wire line system, such as the PSTN [ (“Public Switch Telephone Network”) ], that provides a system for transmitting information between at least two computers”). We have previously held that presenting proposed claim constructions which alter claim scope for the first time on appeal invokes the doctrine of waiver as to the new claim constructions. See CCS Fitness, Inc. v. Brunswick Corp., 288 F.3d 1359, 1370 (Fed.Cir.2002) (“[A] waiver may occur if a party raises a new issue on appeal, as by, e.g., presenting a new question of claim scope .... ” (internal quotation marks omitted)); Interactive Gift Express, 256 F.3d at 1346 (“As it relates to claim construction, the doctrine [of waiver] has been applied to preclude a party from adopting a new claim construction position on appeal.”). For the first time on appeal, RIM is attempting to add a pull technology limitation to the claim that it did not raise before the district court. Because RIM failed to raise before the district court the argument that the claim should be limited to pull technology, the argument was waived, and we decline to address it on the merits. The district court’s claim construction, which includes various architectures of single processors and groups of processors, is correct. The claims themselves recite that an “electronic mail system” includes various configurations of originating processors and destination processors that communicate via wireline connections or over an RF transmission network. See, e.g., ’960 patent, claim 1. Moreover, the written description recognizes that electronic mail systems may have various processor architectures. See, e.g., id. at col. 1, 1. 60 — col. 2, 1. 22; id. at col. 2, 11. 13-17 (“It should be understood that the illustrated architecture of the single and associated groups of processors is only representative of the state of the art with numerous variations being utilized.”); see also ’670 patent, col. 1, 1. 64 — col. 2, 1. 25; T72 patent, col. 1, 1. 65 — col. 2, 1. 25. RIM’s premise that the “electronic mail system” is limited to a wireline only system is flawed. The plain language of the claim 1 preamble recites that the claimed system transmits originated information “from one of a plurality of originating processors in an electronic mail system to at least one of a plurality of destination processors in the electronic mail system.” ’960 patent, claim 1. Thus, all of the originating and destination processors are recited in the claims as being contained in the “electronic mail system.” This language, however, is not helpful in determining whether the “electronic mail system” may include wireless connections. Accordingly, we turn to the written description. The written description expressly indicates that the “electronic mail system” in the patent claims may include wireless connections. Campana described prior art “[e]leetronic mail services” as “basically a wire line-to-wire line, point-to-point type of communications” system. Id. at col. 1, 11. 52-54 (emphasis added). The use of the term “basically” suggests that an electronic mail system may include other types of connections, including wireless connections. Moreover, Campana provided an example of one prior .art electronic mail system in commercial use, stating “FIG. 1 illustrates a block diagram of a typical electronic mail system in commercial use such as by AT & T Corporation.” Id at col. 1,11. 60-62. In this prior art electronic mail system, “groups of processors ... may be distributed at locations which are linked by the [PSTN], The individual processors may be portable computers with a modem which are linked to the [PSTN] through wired or RF communications as indicated by a dotted line.” Id. at col. 1,1. 66 — col. 2, 1. 4 (emphasis added). Figure 1 depicts various processors that are all connected to the PSTN via either wired or wireless links. The prior art electronic mail system depicted in Figure 1 is incorporated into Figure 8, which Campana describes as a “block diagram of an electronic mail system in accordance with the present invention.” Id. at col. 22, 11. 60-61. Accordingly, because RIM’s argument that the term “electronic mail system” cannot include wireless connections contradicts the text and figures of the written description, it must be rejected. Our review of the prosecution history reveals no disclaimers or disavowals limiting an “electronic mail system” to a wire-line only system. RIM cobbles together statements from the prosecution history that refer to an electronic mail system as having wireline connections. While it is true that Campana often focused on wire-line connections in describing electronic mail systems, this focus is understandable given his acknowledgment that electronic mail systems are “basically a wire line-to-wire line, point-to-point type of communications” system. Id. at col. 1, 11. 52-54. Contrary to RIM’s assertions, however, Campana did not accept a narrow definition of “electronic mail system” or disclaim subject matter, so as to limit the term “electronic mail system” to a wireline only system. Instead, Campana expressly stated that information sent between the originating and destination processors located in “an electronic mail system” in his invention could be accomplished either through the RF transmission network or a wireline. See Amendment Pursuant to 37 C.F.R. § 1.116, at 19-20 (Nov. 7, 1994). Because we discern no error, we affirm the district court’s claim construction of “electronic mail system.” b. “Gateway Switch” The term “gateway switch” appears only in the asserted claims 15, 32, and 34 of the ’960 patent. As before the district court, RIM bases its construction of the terra on its argument that Campa-na’s “electronic mail system” implemented a “pull” email architecture. RIM contends that “a gateway switch is the mechanism for maintaining the mailboxes needed to implement the pull technology.” The district court construed the term differently, as “[a] processor in an electronic mail system which connects other processors in that system and has additional functions for supporting other conventional aspects of the electronic mail system such as receiving, storing, routing, and/or forwarding electronic mail messages.” Claim Construction Order, slip op. at 6. As we have previously rejected RIM’s argument that “pull” email architecture is required, see Section II.A.2.a, supra (construing “electronic mail system”), we are similarly compelled to reject its suggestion that “gateway switches” must enable this technology. In short, we agree with the district court’s claim construction of “gateway switch.” c. “Originating Processor” and “Originated Information” The parties dispute the construction of the term “originating processor” recited in the claims of the ’960, ’670, and ’592 patents and “originated information” recited in the claims of the ’960, ’670, ’592, and ’451 patents. Claim 1 of the ’960 patent, from which claim 15 ultimately depends, again is exemplary and states in pertinent part: 1. A system for transmitting originated information from one of a plurality of originating processors in an electronic mail system to at least one of a plurality of destination processors in the electronic mail system comprising: at least one gateway switch in the electronic mail system, one of the at least one gateway switch receiving the originated information and storing the originated information prior to transmission of the originated information to the at least one of the plurality of destination processors; a RF information transmission network for transmitting the originated information to at least one RF receiver which transfers the originated information to the at least one of the plurality of destination processors; at least one interface switch, one of the at least one interface switch connecting at least one of the at least one gateway switch to the RF information transmission network and transmitting the originated information received from the gateway switch to the RF information transmission network; and wherein the originated information is transmitted to the one interface switch by the one gateway switch in response to an address of the one interface switch added to the originated information at the one of the plurality of originating processors or by the electronic mail system and the originated information is transmitted from the one interface switch to the RF information transmission network with an address of the at least one of the plurality of destination processors to receive the originated information added at the originating processor, or by either the electronic mail system or the one interface switch .... ’960 patent, col. 49, 11. 2-38 (emphases added). The district court construed “originating processor” as “[a]ny one of the constituent processors in an electronic mail system that prepares data for transmission through the system.” Claim Construction Order, slip op. at 5. The court construed “originated information” as “[t]he message text of an electronic mail message.” Id., slip op. at 6 (noting an exception for the term as used in a patent which is not disputed on appeal). RIM argues that “originating processor” is correctly construed to mean a processor that initiates or starts the transmission of data through the system, thereby excluding any of the “constituent processors” in the system which subsequently handle the data. It argues that “originated information” is the electronic mail message generated by an “originating processor.” RIM argues that its constructions are supported by dictionary definitions of the term “originating” and “originate” which impose an “initiating” requirement on the claims. RIM argues that the ’960 patent specification supports this construction, because it describes an “originating processor” as a processor at which an electronic mail message is composed by a person or inputted by a machine. NTP responds that this dispute centers on whether an “originating processor” can include gateway switches. Before the district court, NTP urged that “originating processor” be construed to include not only “that processor upon which the sender types the message,” but also “all of the constituent processors in an electronic mail system that run electronic mail programming to format and initiate transmission of electronic mail messages.” NTP’s Claim Construction Mem. at 37. NTP argues that RIM’s proposed construction is erroneous because it ignores language in the written description specifying that a gateway switch can originate information, and thus would exclude embodiments in the written description. NTP argues that a construction which limited “originating processor” to only processors upon which senders actually type the electronic mail message is not required by RIM’s dictionary definitions. As we shall explain, we conclude that the district court erred in its claim construction of the term “originating processor.” The term “originating processor” is properly construed as “a processor in an electronic mail system that initiates the transmission of a message into the system.” We do not hold that the “originating processor” is always the processor on which text of the email message was created. As a practical matter this will probably be the case. However, there could be a situation where someone composes an email message on one processor, then perhaps transfers the message from the creating processor to the “originating processor” that initiates the message into the electronic mail system; e.g., by copying onto a disk. Further, we conclude that the district court did not err in construing “originated information” as “[t]he message text of an electronic mail message.” RIM focuses its argument on the term “originating processor.” Indeed, RIM presents no independent argument that “originated information” means anything other than the text of an electronic mail message to be transmitted in the electronic mail system. We see no reason to disturb the district court’s claim construction of the term “originating information.” We begin with the language of the claims. See PSC Computer Prods., Inc. v. Foxconn Int’l, 355 F.3d 1353, 1359 (Fed.Cir.2004). Claim 1 of the ’960 patent recites: 1. A system for transmitting originated information from one of a plurality of originating processors in an electronic mail system to at least one of a plurality of destination processors in the electronic mail system comprising: ... at least one gateway switch in the electronic mail system ... at least one interface switch .... ’960 patent, col. 49, 11. 2-19 (emphases added). Construing “originating processor” to mean the processor that is the origin of the email message text comports with the goal of the system — to move “originated information” from the processor where the email message text originated to the processor(s) where it is intended to be received. Moreover, that construction is consistent with the overall context of the claim language. Claim 1 of the ’960 patent contains a number of limitations relating to devices that process data, including, inter alia: “a plurality of originating processors,” “at least one gateway switch,” and “at least one interface switch.” See ’960 patent, col. 49, 11. 2-25. Nothing in the claim suggests that “a plurality of originating processors” defines a genus which includes the claimed “gateway switch” or “interface switch” as a species. Instead, these limitations are used as three separate, independent limitations to describe the various constituent components in an electronic mail system that prepares and transmits electronic mail messages. There is no antecedent basis in the claim language to signify that “at least one gateway switch” conceptually is contained within “a plurality of originating processors.” See Innova/Pure Water, Inc. v. Safari Water Filtration Sys., 381 F.3d 1111, 1119 (Fed.Cir.2004) (“While not an absolute rule, all claim terms are presumed to have meaning in a claim.”). In addition, as claim 1 above recites, the “originated information” originates from the “originating processor.” ’960 patent, col. 49,11. 2-3. Thus, the plain language of the claims indicates that “originating processor” is not referring to every component that initiates data. Rather the “originating processor” is, more precisely, the processor that is the source of the “originated information” — the text of the electronic mail message. Also, the claim language shows how a gateway switch is not included within the larger term “originating processor,” but is rather a separate component from an “originating processor.” That is because the “originated information” is transmitted from an “originating processor” to a gateway switch. Indeed, the “originating processor” and the gateway switch initiate different types of data. “Originated information” — the electronic mail message— originates with the “originating processor.” By contrast, the gateway switch is never described as being the origin of the “originated information.” Rather, it merely “receives” the “originated information” from the “originating processor.” See, e.g., id. at col. 49, 11. 8-9; ’611 patent, col. 19, 11. 60-68, col. 47,11. 52-54. A gateway switch may sometimes add or initiate address information such as an address of an interface switch to the “originated information” that it receives from the “originating processor.” See, e.g., ’960 patent, col. 49, 11. 26-37. However, a gateway switch is not the origin of the “originated information” itself. According to the language of the claims, gateway switches are components that receive “originated information” from an “originating processor” and then sometimes append additional data to the information received from an “originating processor.” The written description is consistent with this interpretation and reveals that two different types of information are “originated” and transmitted within the claimed invention. First, there is “originated information.” As the district court correctly held, “originated information” refers to the text of the electronic mail message being transmitted. One could analogize this to the contents of a physical letter one mails to a recipient via the postal system. Second, in the claimed invention there is also what one might call address information or destination information. This refers to an identifier of the intermediate components and/or the destination processor(s) to which the electronic message text should be delivered. See, e.g., ’960 patent, col. 24, 11. 31-46 (discussing “address of the interface switch” and “identification number of the RF receiver”). Address information originated from a gateway switch or interface switch is never described as itself the “originated information” or the “other originated information.” Rather, it is described as separate information which is added to the “originated information” which came from an originating processor. See, e.g., id. at col. 21, 11. 54-56 (text notes that the address of the interface switch can be added “to the information originating from the originating processor”); id. at col. 22, 11. 24-26 (text notes that the destination address can be “added to the information from the originating processor”); id. at col. 26, 11. 39^41 (text notes adding information to the “information from the originating processor”); id. at col. 49, 11. 27-29 (claims describe “adding” address information to “originated information”); id. at col. 50, 11. 7-10 (text describes movement of both “originated information” and identification number in the RF transmission network); id. at col. 54, 11. 49-51 (text notes identification number “added to the originated information”). This address information can be analogized to the address contained on the outside of an envelope that one mails with the post office, as well as information added by the post office, such as a barcode, which may direct the envelope through the myriad routes in the postal system. Thus, just as one physically mails a letter with two types of information — the text of the actual letter itself within the envelope and the address information on the outside of the envelope — the claimed invention “originates” two types of information. From the written description, one skilled in the art would understand an “originating processor” to refer to a processor where “originated information”— the electronic mail message text — is introduced into the electronic mail system. In some cases, this “originating processor” is the point at which some or all of the second type of information, the address information, is added. In other cases, after the “originating processor” sends the “originated information” to a gateway switch, the gateway switch then “originates” and appends additional address information onto the “originated information.” A user typing at the originating processor does need to provide at least some address destination information — -for example, that the email message is intended for “John Doe.” See, e.g., id. at col. 24, 11. 29-30. However, the user need not know precisely through which switches the email message needs to travel within the system to get to John Doe (or even whether John Doe’s destination processor is a wireless or wireline processor). In the “most user friendly form” of the invention, the user need only indicate the intended recipient, and the proper address information can be added to the text of the electronic mail message either by the originating processor itself or by later components in the electronic mail system, such as gateway switches and/or interface switches. See, e.g., id. at col. 24, 11. 25-30. This is analogous to how, in the postal system, one need only indicate a destination address, and the postal system sometimes adds bar-code information to envelopes which help indicate through which routes within the postal network the letter needs to travel to get to the proper destination. The term “originating processor” does not encompass every constituent processor that initiates data into the system. “Originating processor” refers more precisely to the processor that initiates the electronic message text into the system. It is correct to conclude that other components besides an “originating processor” “originate” information. For example, components such as the gateway switches originate some of the address information to get the electronic message from the “originating processor” to the proper destination processor(s). However, there is nothing in the written description to suggest that one skilled in the art would blur the distinction between a component such as a gateway switch that sometimes “originates” address information, and an “originating processor,” which is a separately labeled and separately claimed component than a gateway switch or an interface switch. Referring specifically to the written description, Figure 1 of the ’960 patent discloses a prior art electronic mail system in which the “originating processor” is depicted as the processor which originates the email message, which is separate and distinct from other constituent components such as gateway switches: The specification states that Figure 1 shows that “[c]ommunications between an originating processor A-N, which may be any of the processors tvithin the groups of associated processors # 1-# S or processor # N and a destination processor A-N are completed through the public switch telephone network 12 to one or more gateivay switches ... 14.” ’960 patent, col. 2,11. 23-28 (emphasis added). This passage explains that the electronic mail message originates from the “originating processor” and then moves “to” an associated gateway switch. Thus, the “originating processor” is not a generic term referring to all data-generating constituent processors in a system, but more precisely refers to a processor that is separate from the gateway switches. Moreover, the written description repeatedly refers to the “originating processor” where the electronic mail message text is generated. See, e.g., id. at col. 3,11. 12-21 (“Finally, the message or message text must be entered which is the information that is inputted by the person or machine which is originating the message at the originating processor A-N. Upon completion of the message text, the user ... enters a series of commands or keystrokes on the originating processor to transmit the message to the gateway switch .... ” (emphasis added)); id. at col. 19,11. 29-30 (explaining how, in the claimed invention the “originating processor” might be associated with “an icon driven display” and a computer “mouse” for the user). There is no corresponding discussion of the electronic mail message text being generated with, or the use of “an icon driven display” with, a gateway or interface switch. Components other than an “originating processor” can initiate data. The written description describes how, for example, “the identification of the RF receiver 119 and the address of the interface switch may be implemented by the originating processor A-N of one of the computing systems # 1-# N, a gateway switch 14 or an interface switch 304 .Id. at col. 24, 11. 42-46. This shows that three different components can initiate address information: (1) an “originating processor” A-N; (2) a gateway switch 14; or (3) an interface switch 304. However, simply because the “originating processor” is but one of three separate, differently named and labeled components that can serve as the initiator of address information, does not mean that the term “originating processor” covers all of these different components. If “originating processor” referred to all three components, then the specification would simply read “the identification of the RF receiver 119 may be implemented by an originating processor.” The specification makes clear that it may take several processors in Campana’s claimed invention to successfully initiate an electronic mail message. As Campana teaches in his written description, to initiate an electronic mail message, the message text must be entered, then the addresses of various interface switches and the receiving destination processor must be entered and appended to the message. See id. at col. 19, 11. 26-39. The written description also teaches that entering the addresses of the interface switches, RF receivers, and destination processors may be accomplished by various components, including the originating processor or a gateway switch. See id. at col. 21, 11. 54-56, 65-66 (noting that the address of the receiving interface switch may be added by the originating processor or a gateway switch); id. at col. 22, 11. 10-15, 24-26 (noting that the address of the destination processor may be added by “the originating processor by an operator or a machine using the originating processor” or the gateway switch). However, the mere fact that a constituent component may tack on destination address information to the “originated information” coming from the “originating processor” does not turn that constituent processor into an “originating processor.” Gateway switches are separate components from the “originating processor” that can also add address information after receiving the message text from the “originating processor.” This is why Campana asserts that the invention is “user friendly” because only a “minimum amount of information ... must be provided to initiate the transmission of electronic mail from an originating processor to at least one destination processor.” Id. at col. 19,11. 20-25. The written description further describes how either the “originating processor,” “gateway switch,” or “interface switch” can be used to add information needed to transmit the electronic mail message, such as addressing data. See id. at col. 22, 11. 24-26 (“The address of the destination processor may also be added to the information originated by the originating processor by the gateway switch.”). Figure 11 .of the ’960 patent visually demonstrates various steps by which the “originating processor,” “gateway switch 14,” and “interface switch 304” could operate together to add address information to the text of the electronic mail message, i.e., the “originated information”: See ’960 patent, col. 28, 11. 10-13 (“Fig[ure] 11 summarizes electronic mail message entry methods for messages (information) originating from originating processors within an electronic mail system.” (emphasis added)). The arrows show the flow of the “originated information” from the “originating processor,” the' first processor in the system where the information is originated, to a gateway switch 14, and then to an interface switch 304. Campana describes the flow of data in the various entry methods. For example, in “entry method 1” the “originating processor” itself adds the appropriate destination address data. Id. at col. 28,11. 13-17. When the “originated information” then reaches a gateway switch 14, the gateway switch takes no action, because all of the address data necessary at that point has already been added by the “originating processor.” By contrast, in “entry method 3,” a gateway switch, after receiving the “originated information” from the “originating processor,” adds the wireless destination address. Id. at col. 28, 11. 24-29. Although under the various methods enumerated in Figure 11 either the “originating processor,” “gateway switch,” or “interface switch” may add address information to the electronic mail message, the gateway and interface switches do not initiate the message text of an electronic mail message and, thus, are not “originating processors.” This shows how the “originating processor” merely refers to the first (initiating) processor of the “originated information.” A gateway switch is not an “originating processor.” While the gateway switch serves as an initiator of address information, as in entry methods 3, 4, and 5, a gateway switch only does this after it gets the “originated information” from the “originating processor.” “Originating processor” is not an umbrella term referring to all of the processors that add data into the system, but rather would be understood to one skilled in the art to be the first processor, or the initial source of the “originated information” or email message text. All three different components in Figure 11, an “originating processor,” a “gateway switch,” and an “interface switch,” are initiating address information. “Originating processor” refers to one of these components — the first processor, and not all three. Thus, the “originating processor” is the sole processor that initiates the transmission of the electronic mail message text into the electronic mail system and is separate from the gateway or interface switches. d. “Dual Pathways’’ RIM argues that claim 8 of the 1670 patent and claims 15, 32, and 34 of the ’960 patent, when properly construed, require “ ‘dual pathways’ ... whereby at least one of the destination processors in the system must be reachable through two independent pathways, one through the email system, and the other through the RF system.” Appellant’s Br. at 20. We begin our analysis with the words of the claims. Vitronics, 90 F.3d at 1582. We refer again to claim 1 of the ’960 patent, from which claim 15 ultimately depends, which is illustrative and states in pertinent part: 1. A system for transmitting originated information from one of a plurality of originating processors in an electronic mail system to at least one of a plurality of destination processors in the electronic mail system comprising: ... a RF information transmission network for transmitting the originated information to at least one RF receiver which transfers the originated information to the at least one of the plurality of destination processors; ... the electronic mail system transmits other originated information from one of the plurality of originating processors in the electronic mail system to at least one of the plurality of destination processors in the electronic mail system through a wireline without transmission using the RF information transmission network. ’960 patent, col. 49, 11. 2-45 (emphases added). In considering RIM’s proposed “dual pathways” limitation, we begin by noting that the preamble of claim 1 of the ’960 patent limits the claim. Under our precedent, a preamble generally limits the claimed invention if it “recites essential structure or steps, or if it is necessary to give life, meaning, and vitality to the claim.” Catalina Mktg. Inti, Inc. v. Coolsavings.com, Inc., 289 F.3d 801, 808 (Fed.Cir.2002) (internal quotation marks omitted). Thus, if the preamble helps to determine the scope of the patent claim, then it is construed as part of the claimed invention. Bell Communications Research, Inc. v. Vitalink Communications Corp., 55 F.3d 615, 620 (Fed.Cir.1995) (“[W]hen the claim drafter chooses to use both the preamble and the body to define the subject matter of the claimed invention, the invention so defined, and not some other, is the one the patent protects.”). “When limitations in the body of the claim rely upon and derive antecedent basis from the preamble, then the preamble may act as, a necessary componentfof the claimed invention.” Eaton Corp. v. Rockwell Int’l Corp., 823 F.3d 1332, 1339 (Fed.Cir.2003); see also C.R. Bard, Inc. v. M3 Sys., Inc., 157 F.3d 1340, 1350 (Fed.Cir.1998) (“[A] preamble usually does not limit the scope of the claim unless the preamble provides antecedents for ensuing claim terms and limits the claim accordingly.”). Because these limitations of claim 1 of the ’960 patent derive their antecedent basis from the claim 1 preamble and are necessary to provide context for the claim limitations, the use of these limitations in the preamble limits the claim. Eaton, 323 F.3d at 1339; Catalina Mktg., 289 F.3d at 808. The limitations of claim 1 “at least one of a plurality of destination processors” and “electronic mail system” are first recited in the preamble. ’960 patent, col. 49, 11. 2-45 (claim 1). The antecedent basis of the disputed claim limitation “to the at least one of the plurality of destination processors,” id. at col. 49, 11. 17-18 (emphasis added) (claim 1), is the destination processor recited in the preamble. RIM’s assertion that claim 1 of the ’960 patent requires that “[t]he same destination processor must therefore simultaneously be ‘in an electronic mail system’ and reachable through an ‘RF information transmission network’ ” is well-supported. RIM correctly argues that the claim language “a RF information transmission network for transmitting ... originated information to the at least one of the plurality of destination processors,” which employs the definite article “the,” refers to the antecedent “at least one of a plurality of destination processors in the electronic mail system.” ’960 patent, claim 1 (emphasis added). RIM also correctly argues that, based on this antecedent relationship, a destination processor accessible by RF transmission must also be “in an electronic mail system.” See generally Warner-Lambert Co. v. Apotex Corp., 316 F.3d 1348, 1356 (Fed.C