Full opinion text
MEMORANDUM OPINION REGARDING CLAIMS CONSTRUCTION ROSEMARY M. COLLYER, District Judge. Papst Licensing GMBH & Co. (“Papst”) acquired two patents from inventor Michael Tasler and in this MDL has alleged that digital camera manufacturers that sell products in the United States have infringed its patents. Pursuant to Markman v. Westview Instruments, Inc., 517 U.S. 370, 116 S.Ct. 1384, 134 L.Ed.2d 577 (1996), the Court is required to construe the contested claims of the patents before a jury can determine whether the accused products infringe. I. FACTS Papst alleges that the Camera Manufacturers (also referred to as “CMs”) infringe two patents: U.S. Patent Nos. 6,470,399 (“'399 Patent”) and 6,895,449 (“'449 Patent”) (collectively the “Patents”). The Court held a claims construction hearing on September 22 through 24, 2008, with the benefit of extensive briefing and arguments by Papst and the Camera Manufacturers. For purposes of this MDL, Papst is treated as the plaintiff regardless of how any individual lawsuit originated in its home court. Papst is a German company, whose business is to acquire and enforce intellectual property rights. That is, it acquires patents on products or methods invented by others and then searches the world for products it might challenge for infringement. When faced with such a challenge, the allegedly infringing party chooses whether (1) to enter into a licensing agreement and pay royalties to Papst or (2) to take part in patent infringement litigation, either as a defendant in an infringement suit seeking damages filed by Papst or as a plaintiff in a suit seeking declaratory judgment of non-infringement against Papst. In this case, Papst acquired certain rights to the Patents from the inventor, Michael Tasler. Papst then sought to negotiate license agreements with manufacturers of digital cameras all over the world. When numerous manufacturers who sell digital cameras in the United States refused to enter licensing agreements with Papst, Papst and the manufacturers filed lawsuits against one another and this MDL ensued. The invention at issue is a “Flexible Interface for Communication Between a Host and an Analog I/O Device Connected to the Interface Regardless of the Type of the I/O Device.” '399 Patent, Title; '449 Patent, Title (lower case substituted). “In this title I/O means input/output device,” Tr. 1:6 (Papst), but the I/O device is repeatedly referred to as a “data transmit/receive device” in the Patents. See, e.g., '399 Patent, col. 13:1-2 & col. 3:43-44 (stating “regardless of the type of the data transmit/receive device attached”); '449 Patent, col. 11:63-64 & col. 4:6-7 (same). The invention was designed to provide fast data communication between an analog I/O device and a digital computer (“host device”) by converting the analog data to digital, formatting it, and transferring the data to the computer without the need for special software; this was accomplished by telling the computer that the invented interface device was an I/O device already known to the computer (and for which the computer already had drivers), regardless of what kind of data transmit/receive device was attached to the interface device. '399 Patent, Abstract; '449 Patent, Abstract. When the computer responded with a data request command, the interface device interpreted the command as a data transfer request and forwarded the digitized data originating from the analog data transmit/receive device. '399 Patent, col. 13:9-13. “It is the object of the present invention to provide an interface device for communication between a host device [computer] and a data transmit/receive device whose use is host device-independent and which delivers a high data transfer rate.” '449 Patent, col. 3:20-23 (emphasis added); see '399 Patent, col. 3:24-27 (“It is an object of the present invention to provide an interface device for communication between a host device and a data transmit/receive device whose use is host device-independent and which delivers a high data transfer rate”). The '399 Patent was issued on October 22, 2002, with an application date of March 3, 1998; the '449 Patent was issued on May 17, 2005, with an application date of August 15, 2002. As of March 1998, when Mr. Tasler applied for the '399 Patent, “interface devices themselves were known but they had certain problems.... [T]o get these prior art interface devices to talk to computers, they required these sophisticated drivers which were prone to malfunction and had poor data transfer rates.” Tr. 1:5 (Papst). Another problem with the prior art was that “if you startfed] installing specific drivers for each piece of hardware that you add[ed] to the computer, these drivers [could] start butting heads with each other ... [and][t]he computer crashe[d].” Id. 1:6 (Papst). Drivers “are the software programs that are used by the computer[] to communicate with the hardware that’s attached to the computer. So for each and every hardware device that you connect to a computer there has to be a driver that allows the computer to communicate with that hardware device. So when you attached] these prior art interface devices, we [had] drivers that caused problems.” Tr. 1:5 (Papst). However, all kinds of computers could “communicate with ... very common hardware devices such as hard disk drives” and printers. Id. 1:7 (Papst). “The present invention is based on the finding that both a high data transfer rate and host device-independent use can be achieved if a driver for an input/output device customary in a host device, normally present in most commercially available host devices, is utilized,” instead of special software. '399 Patent, col. 4:23-27; see also '449 Patent, col. 3:27-30 (same). [T]o make his invention flexible [Mr. Tasler sought] to simulate one of these customary devices [such as the hard disk drive already on the computer] and be able to communicate with the computer with the language that it already knew and to in fact configure the data to simulate files and file systems that the computers would expect to see, [making the communication between the device and the computer] faster and more reliable. He also saw that by not writing drivers, specific drivers for his own interface device and instead causing the computer to use the drivers that were supplied by the computer makers that he would achieve a more reliable invention, a more reliable data communication and in fact, the drivers for certain of these devices such as the disk drives were highly optimized for each operating system so they worked very well and transferred data at a very fast rate compared to the drivers for the known interface devices. Also he made it easier to hook one of these up. He put into the interface device the ability to respond to an inquiry from a computer and generate a response that would cause the computer to recognize it as a piece of hardware that [the computer] already knew about and then by doing that [the interface device] allowed the computer to install, recognize and install the interface device without any input from the person who is using the computer [because no special driver was needed]. Tr. 1:7-8 (Papst). To illustrate the nature of the invention at the claims construction hearing, Papst showed a “prototype board” (an integrated circuit board) and “matched up” the devices on the prototype board “that corresponded with some of the things that are shown” in Figure 2 of each Patent. Id. 1:11 (Papst); see also id 1:19-20 (Papst). “[T]he circuit board itself was designed by Mr. Tasler,” id. 1:13 (Papst), meaning that Mr. Tasler himself selected and arranged the configuration and connections between the parts on the circuit board. Id. 1:13-14 (Papst). Papst noted calibration relays on the right side of the board, suggesting the inputs, amplifiers, and sample and hold circuits in Figure 2, where the interface device would be connected to the data transmit/receive device. Id. 1:11 (Papst). The prototype board also had a digital signal processor, an EEPROM (electrically erasable programmable read only memory) chip for non-volatile memory, and volatile random access memory (RAM). Id. Volatile memory is no longer retained when the computer is turned off, while non-volatile memory remains. Tr. 3:138 (Papst). In addition, a small computer system interface (SCSI) chip was on the prototype board where the interface device would be connected to the computer, in order to “generate[ ] the signals that actually communicate with the computer.” Id. Under the '399 Patent, the interface device was designed to “receive analog data and convert it to digital data and put it in a form that [could] be transferred to the host computer.” Id. 1:21-22 (Papst). Digitizing analog data was insufficient by itself; the interface device was also designed to achieve “formatting it into a proper file, put[ting] it in a file system that the host computer [could] recognize,” because, otherwise, “the standard driver, disk driver for a computer would not be able to use that digital information.” Id. 1:22 (Papst). The '449 Patent does not “recite that the interface device has to receive analog data,” id. 1:21 (Papst), but “[w]ith respect to the [’]399 Patent, the Patent [0]ffice thought they were patenting an interface device that received analog data and processed it and provided it to a host computer. And that’s what the claims covered.” Id. 1:25 (Papst). The '399 and '449 Patents share the same drawings and much of the same specification. The '449 Patent is a “continuation or divisional” patent that covers other aspects of the invention and that “claims priority back to the 399 Patent.” Id. 1:27, 30 (Papst). The '449 Patent omits references to analog-to-digital conversion but “add[s] in the requirement that when it responds to the inquiry command [from the computer], [the interface device] identifies itself as a storage device.” Id. 1:29 (Papst). “[T]he interface device ... is configured by the processor and the memory. That certainly suggests some software.” Id. 1:30 (Papst). In addition, the '399 Patent references a “first command interpreter” and a “second command interpreter,” both of which are “configured.” Id. 1:31 (Papst). Thus, at the Markman hearing, Papst asserted that the Patents have aspects of both a hardware patent and a software patent. Id.) but see Papst’s Markman Br. at 2 (stating that the interface device, “in the context of [the] patents-in-suit, is a hardware device that serves as a bridge between a computer ... and a data device that acquires or transmits data”). The first Claim of each Patent contains most of the terms that need to be construed. Claim One of the '399 Patent states: What is claimed is: 1. An interface device for communication between a host device, which comprises drivers for input/output devices customary in a host device and a multipurpose interface, and a data transmit/receive device, the data transmit/receive device being arranged for providing analog data, comprising: a processor; a memory; a first connecting device for interfacing the host device with the interface device via the multi-purpose interface of the host device; and a second connecting device for interfacing the interface device with the data transmit/receive device, the second connecting device including a sampling circuit for sampling the analog data provided by the data transmit/receive device and an analog-to-digital converter for converting data sampled by the sampling circuit into digital data, wherein the interface device is configured by the processor and the memory to include a first command interpreter and a second command interpreter, wherein the first command interpreter is configured in such a way that the command interpreter, when receiving an inquiry from the host device as to a type of a device attached to the multi-purpose interface of the host device, sends a signal, regardless of the type of the data transmit/receive device attached to the second connecting device of the interface device, to the host device which signals to the host device that it is an input/output device customary in a host device, whereupon the host device communicates with the interface device by means of the driver for the input/output device customary in a host device, and wherein the second command interpreter is configured to interpret a data request command from the host device to the type of input/output device signaled by the first command interpreter as a data transfer command for initiating a transfer of the digital data to the host device. '399 Patent, col. 12:41-67 & col. 13:1-13. Claim One of the '449 Patent states: What is claimed is: 1. An interface device for communication between a host device, which comprises drivers for input/output devices customary in a host device and a multipurpose interface, and a data transmit/receive device comprising the following features: a processor; a memory; a first connecting device for interfacing the host device with the interface device via the multi-purpose interface of the host device; and a second connecting device for interfacing the interface device with the data transmit/receive device, wherein the interface device is configured by the processor and the memory in such a way that the interface device, when receiving an inquiry from the host device as to the type of a device attached to the multi-purpose interface of the host device, sends a signal, regardless of the type of the data transmit/receive device attached to the second connecting device of the interface device, to the host device which signals to the host device that it is a storage device customary in a host device, whereupon the host device communicates with the interface device by means of the driver for the storage device customary in a host device, and wherein the interface device is arranged for simulating a virtual file system to the host, the virtual file system including a directory structure. '449 Patent, col. 11:45-67 & col. 12:1-6. II. LEGAL STANDARDS A. Claims Construction Principles Generally The “claims” of a patent are those descriptions of the invention that are numbered and follow the introductory phrase, “[w]hat is claimed.” An understanding of a patented invention must start and end with the claims themselves which identify and distinguish the inventor’s invention. To determine whether a patent claim has been infringed, a court must undertake a two-step process. The court first construes or interprets each contested claim, or phrase or word within a claim, to determine its meaning and scope; only afterward are the claims compared to the accused device(s). O.I. Corp. v. Tekmar Co. Inc., 115 F.3d 1576, 1580 (Fed.Cir.1997). This litigation is at the first stage of this process. The interpretation of patent claims is exclusively a question of law. Markman, 517 U.S. 370, 116 S.Ct. 1384. In claims construction, a court must interpret the words of each contested claim from the perspective of one skilled in the art at the time of invention, in light of the patent documents and the prosecution history. Phillips v. AWH Corp., 415 F.3d 1303, 1313 (Fed.Cir.2005). Words in the claims of a patent are given their ordinary and customary meaning, that is, the meaning that the term would have had to a person of ordinary skill in the pertinent art at the time of the invention. Id. at 1312-13. “[T]he ‘ordinary meaning’ of a claim term is its meaning to the ordinary artisan after reading the entire patent.” Id. at 1314. Although words are generally given their ordinary meaning, “a patentee may choose to be his own lexicographer and use terms in a manner other than their ordinary meaning, as long as the special definition of the term is clearly stated in the patent specification or file history.” Vitronics Corp. v. Conceptronic, Inc., 90 F.3d 1576, 1582 (Fed.Cir.1996). When a specification expressly defines terms or defines terms by implication, the specification will be held to limit the claims accordingly. Phillips, 415 F.Sd at 1321. Phillips discredited the approach of prior cases holding that claim terms were to be given the broadest possible ordinary meaning and that the specification should only be consulted for a clear disavowal of such meaning. Id. at 1319-21. The Phillips court reasoned that this approach resulted in unduly expansive claim construction and improperly restricted the role of the specification in claim construction. Id. (disavowing Texas Digital Systems, Inc. v. Telegenix, Inc., 308 F.3d 1193 (Fed.Cir.2002) and cases following its approach). Claim construction should be undertaken independent of any consideration of how the claims may or may not be read on the accused product. SRI Int’l v. Matsushita Elec. Corp. of Am., 775 F.2d 1107, 1118 (Fed.Cir.1985). “[C]laims are not construed to ‘cover’ or ‘not to cover’ the accused device. That procedure would make infringement a matter of judicial whim.” Id.; see also Wilson Sporting Goods Co. v. Hillerich & Bradsby Co., 442 F.3d 1322, 1326-27 (Fed.Cir.2006) (the court should not prejudge the infringement analysis by construing claims with an aim to include or exclude a particular product, but knowledge of the accused product is helpful to provide context and focus). In construing a claim, a court starts with the intrinsic evidence of its meaning — the claims, the specification, and the prosecution history. Vitronics, 90 F.3d at 1582; see Pitney Bowes Inc. v. Hewlett-Packard Co., 182 F.3d 1298, 1305 (Fed.Cir.1999) (the starting point for claim interpretation must be the claims themselves). The “prosecution history” of a patent is the complete public record of the proceeding before the U.S. Patent and Trademark Office (“PTO”). Phillips, 415 F.3d at 1317. The public record includes the original application and any claim amendments and explanations made by the applicant. Vitronics, 90 F.3d at 1582. For example, a patent applicant may limit claims during prosecution by modifying claim language to overcome examiner rejection, by distinguishing a reference, or by disavowing claim coverage. Omega Eng’g Inc. v. Raytek Corp., 334 F.3d 1314, 1323-25 (Fed.Cir.2003). The specification of a patent “must include a written description of the invention or discovery and of the manner and process of making and using the same, and is required to be in such full, clear, concise, and exact terms as to enable any person skilled in the art or science ... to make and use the same.” PTO Rules § 1.71(a). “The specification must set forth the precise invention ... in such a manner as to distinguish it from other inventions and from what is old.” Id. § 1.71(b). The specification is the “single best guide to the meaning of a disputed term.” Vitronics, 90 F.3d at 1582. The Federal Circuit has recognized a fine line between reading a claim in light of the specification and reading a limitation into a claim from the specification. Phillips, 415 F.3d at 1323. The former is appropriate and necessary; the latter constitutes error. Id. For example, a discussion in a specification of a particular embodiment of an invention does not normally confine the invention to that particular embodiment. Id. (citing Nazomi Comm., Inc. v. Arm Holdings, PLC, 403 F.3d 1364, 1369 (Fed.Cir.2005)). “To avoid importing limitations from the specification into the claims, it is important to keep in mind that the purposes of the specification are to teach and enable those of skill in the art to make and use the invention and to provide a best mode for doing so.” Id. at 1323. Usually the specification clearly states whether it is setting out specific examples of the invention or whether the patentee intends the embodiments in the specification to be coextensive with the claims. Id. A court does not improperly read a limitation into a claim where the claim contains the term and the court looks to the specification for a definition of the term, even if that definition is set forth in a preferred embodiment. Curtiss-Wright Flow Control Corp. v. Velan, Inc., 438 F.3d 1374, 1378-80 (Fed.Cir.2006) (claim limited by the term “adjustable” and specification defined term). Courts may not redraft claims to make them operable or to sustain their validity. Chef America, Inc. v. Lamb-Weston, Inc., 358 F.3d 1371, 1374 (Fed.Cir.2004). However, “[w]hen claims are amenable to more than one construction, they should when reasonably possible be interpreted so as to preserve their validity.” Modine Mfg. Co. v. U.S. Int’l Trade Comm’n, 75 F.3d 1545, 1557 (Fed.Cir.1996). B. Use of Expert Testimony Expert testimony regarding the construction of claim terms is outside the claims, the specification, and the prosecution history and is, therefore, extrinsic to those vital sources of information. If the intrinsic information from those sources is unambiguous or sufficient for claims construction, a court should not rely on extrinsic evidence, such as expert testimony, to determine the meaning of the claims. Boss Control, Inc. v. Bombardier, Inc., 410 F.3d 1372, 1377 (Fed.Cir.2005); Bell & Howell Doc. Mgmt. v. Altek Sys., 132 F.3d 701, 706 (Fed.Cir.1997). That is, extrinsic evidence may not be “used to vary claim terms from how they are defined, even implicitly, in the specification or file history.” Vitronics, 90 F.3d at 1584-85. However, extrinsic evidence may be considered for the purpose of: (1) providing background on the technology; (2) explaining how an invention works; (3) ensuring that the court’s understanding of the technical aspects comports with that of a person skilled in the art; and/or (4) establishing that a particular term in the patent or prior art has a particular meaning in the relevant field. Phillips, 415 F.3d at 1318. Whether to admit extrinsic expert testimony lies in a court’s discretion. Inpro II Licensing, S.A.R.L. v. T-Mobile USA Inc., 450 F.3d 1350, 1357 (Fed.Cir.2006); Serio-US Indus., Inc. v. Plastic Recovery Tech. Corp., 459 F.3d 1311, 1319 (Fed.Cir.2006). If admitted, expert testimony must be considered in the context of the patent and the file history. Phillips, 415 F.3d at 1319. In this case, the Court held a tutorial hearing on September 3, 2008, prior to the Markman hearing. At the tutorial, the Court heard and admitted evidence from experts falling under the first three categories identified in Phillips. Papst also sought to admit expert evidence for the purpose of the claims construction hearing. Papst submitted with its opening brief the declaration of an expert, C. Douglass Locke, Ph.D. See Papst’s Markman Br., Ex. C. Because the intrinsic evidence — the claims, the specification, and the prosecution history — provide the full record necessary for claims construction, the Court did not admit expert testimony at the Mark-man hearing. To the extent that Papst relies on the Locke Declaration for the definition of the claims in the Patents, see Papst’s Markman Br. at 21-24, the Court will disregard the Declaration. III. ANALYSIS The Camera Manufacturers have asked the Court to construe a series of terms from the Patents. Papst approached the Markman briefing with a less specific (and less helpful) analysis that combined terms and concepts directed more to the accused cameras than to the invention itself. The task is made more difficult because the invention was never, as far as the record reveals, actually manufactured or used as contemplated by the inventor. The Court directed argument at the hearing to follow the order of terms identified by the Camera Manufacturers in Exhibit R to their opening Markman Brief [Dkt. # 188] and thereafter to address a few additional terms proposed for construction by Papst (some of the latter are no longer at issue). Thus, the Court construes the following terms from the Patents: A. “interface device” B. “host device” C. “data transmit/receive device” D. “for communication between [the host device and the data transmit/receive device]” E. “multi-purpose interface” F. “interfacing” G. “a first connecting device for interfacing the host device with the interface device via the multi-purpose interface of the host device” H. “second connecting device for interfacing the interface device with the data transmit/receive device” I. “first command interpreter” and “sends a signal regardless of the type of data” J. “second command interpreter” K. “wherein the interface device is configured by the processor and memory to include a first command interpreter and a second command interpreter” L. “inquiry” and “inquiring” M. “the driver” N. “an inpui/output [storage] device customary in a host device” O. “the driver for the input/output [storage] device customary in a host device” P. “the usual driver for the inpuVoutput [storage] device” Q. “whereupon the host device communicates with the interface device by means of the driver for the input/output [storage] device customary in a host device” R. “the digital data” S. buffer terms — “a buffer to buffer data to be transferred between the data transmiVreceive device and the host device” and “a data buffer for permitting independence in terms of time of the data transmiVreceive device attachable to the second connecting device from the host device” T. “virtual files” U. “simulating a virtual file system” V. “specific driver for the multi-purpose interface” W. “digital signal processor” X. “memory” Y. “root directory” and “processor” Z. Claim Two of the '399 Patent A. “interface device” The Camera Manufacturers propose that the term “interface device” be construed to mean “a stand-alone device that a user can readily physically connect to and disconnect from a host device and a data transmiVreceive device and that directs communication between these devices when they are connected.” Tr. l:104(CMs). They assert that the invented “interface device” is for communicating between a host device and a data transmiVreceive device, i.e., the invention is neither the host nor the data transmiVreceive device, but rather a separate device that enables active communication between the other two. Papst retorts that “interface device” should be construed to mean the structure defined in the body of the Claims and that nothing in the Claims requires the interface device to be separate from the data transmiVreceive device. Claim One of the Patents contains a preamble that limits the Claim. Claim One of the Patents states: What is claimed is: 1. An interface device for communication between a host device, which comprises drivers for input/output devices customary in a host device and a multipurpose interface, and a data transmit/receive device, the data transmit/receive device being arranged for providing analog data, comprising: a processor; a memory; a first connecting device ...; and a second connecting device.... '399 Patent, col. 12:41-53 (emphasis added); '449 Patent, col. ll:45-57(same). The preamble to Claim One is the portion in italics above. Papst asserts that the term “interface device” as set forth in the preamble does not limit the Claim and thus the term should not be construed by the Court. Specifically, Papst contends that the preamble uses the words “[a]n interface device ... comprising,” thereby indicating that the invention is defined in the body of the Claim, i.e., “a processor; a memory; a first connecting device ...; and a second connecting device.... ” '399 Patent, col. 12:48-54; '449 Patent, col. 11:51-57. Papst further argues that to construe the term “interface device” in the preamble would be to improperly import limitations from the specification into the Claim. See Phillips, 415 F.3d at 1323. The preamble to Claim One serves as a claim limitation for three reasons. First, “[i]f the claim preamble, when read in the context of the entire claim, recites limitations of the claim, or if the claim preamble is necessary to give life, meaning, and vitality to the claim, then the claim preamble should be construed as if in the balance of the claim.” Pitney Bowes, 182 F.3d at 1305 (internal quotation omitted). In these Patents, the preamble is limiting because it describes structures that comprise the invention and the relationships among those structures: “An interface device for communication between a host device ... and a data transmit receive device.” See '399 Patent, col. 12:42-45; '449 Patent, col. 11:46-49. Second, where a preamble provides an antecedent basis for terms found in the body of the claims, it acts as a “necessary component of the claimed invention” and serves as a claim limitation. Bicon, Inc. v. Straumann Co., 441 F.3d 945, 952-53 (Fed.Cir.2006). Here, the body of the Patents repeatedly refers back to the structures first identified in the preamble by using the word “the” and thus incorporates the terms by reference. See, e.g., '399 Patent, col. 12:50-52 (“a first connecting device for interfacing the host device with the interface device....”); '449 Patent, col. 11:53-55 (same). Third, where a preamble is used during prosecution of the patent to distinguish prior art, the preamble may serve as a claim limitation. In re Cruciferous Sprout Litig., 301 F.3d 1343, 1347 (Fed.Cir.2002). In the prosecution history for the '399 Patent, Mr. Tasler distinguished prior art (the McNeill patent, U.S. Patent No. 5,499,378) by amending the preamble to state “... and a data transmit/receive device, the data transmit/receive device being arranged for providing analog data ....” CMs’ Markman Br., Ex. C (“'399 File History”) at 4-7 (underlined in original to show additional phrase). The preamble, as amended to distinguish prior art, serves as a claim limitation. In sum, because the preamble describes the structure of the invention and gives meaning to Claim One, it must be interpreted as a claim limitation. Accordingly, the term “interface device” as used in the preamble should be construed. The body of Claim One of the Patents indicates that the “interface device” is a standalone device. The '399 Patent describes the communication (via the interface device) between a host device and a data transmit/receive device as involving a first command interpreter that, when asked by the computer “as to a type of a device attached to the multi-purpose interface of the host device [computer], sends a signal, regardless of the type of the data transmit/receive device attached to the second connecting device of the interface device ... that it is an input/output device customary in a host device.” '399 Patent, col. 12:66-67 & col. 13:1-5. The '449 Patent is similar: the interface device is configured by the processor and the memory in such a way that the interface device, when receiving an inquiry from the host device as to the type of a device attached to the multipurpose interface of the host device, sends a signal, regardless of the type of the data transmit/receive device attached to the second connecting device of the interface device, to the host device which signals to the host device that it is a storage device customary in a host device.... '449 Patent, col. 11:59-67. In both Patents, the language “regardless of the type of the data transmit/receive device attached” strongly indicates that various kinds of data transmit/receive devices could be attached and that, therefore, the interface device was neither a permanent part of the data transmit/receive device nor of the host deviee/computer. Similar language is repeated throughout both Patents. See, e.g., '399 Patent, Title, Abstract & col. 3:43^14 (“regardless” language); '449 Patent, Title, Abstract & col. 4:6-7 (same); see also '399 Patent, col. 3:24-27 (“It is an object of the present invention to provide an interface device for communication between a host device and a data transmit/receive device whose use is host device-independent....”); '449 Patent, col. 3:20-23 (“It is the object of the present invention to provide an interface device for communication between a host device and a data transmit/receive device whose use is host device-independent ....”) (emphasis added). That the data transmit/receive device must be a separate device from the invention is not mere happenstance but an integral aspect of what was invented. Whatever uncertainty on this point may exist after studying the Claims is eliminated upon a review of the specification. The specification always describes three separate devices: the computer, the data transmit/receive device (an I/O device), and the interface device. See, e.g., '399 Patent, Title, Abstract, col. 1:1-14, col. 3:25-28, col. 5:30-32, col. 5:47-63, Figs. 1-2 and accompanying text; '449 Patent, Title, Abstract, col. 1:1-17, col. 3:21-23, col. 4:35-36, col. 4:40-63, Figs. 1-2 and accompanying text; see also '399 Patent, col. 5:56-60 (describing Figure 1 as showing that the “second connecting device can be attached by means of an output line 16 to a data transmit/receive device which is to receive data from the host device or from which data is to be read, ie. acquired, and transferred to the host device.”); '449 Patent, col. 4:55-59 (same). As explicitly explained in the specification, one of the problems with prior art, when attached “to a device whose data is to be acquired,” was that “it is often very difficult to implement such interfaces for portable systems and they offer few possibilities for adaptation with the result that such systems offer little flexibility.” '399 Patent, col. 1:21-22 & 31-34 (emphases added); '449 Patent, col. 1:22-23 & 32-35 (same). And yet portability and flexibility were critical because “[t]he devices from which data is to be acquired cover the entire electrical engineering spectrum.” '399 Patent, col. 1:34-35; '449 Patent, col. 1:35-36. “[A]n interface may be put to totally different uses. It is therefore desirable that an interface be sufficiently flexible to permit attachment of very different electrical or electronic systems to a host device by means of the interface.” '399 Patent, col. 1:56-59 (emphasis added); '449 Patent, col. 1:57-60 (same). The invention was designed to answer these shortcomings of prior art and to provide a “flexible interface” that would allow communication between a computer and “an analog I/O device ... regardless of the type of the I/O device.” '399 Patent, Title; '449 Patent, Title. The specification touts the “enormous” benefit of allowing communication between a computer and many different types of data transmit/receive devices: In the interface device according to the present invention an enormous advantage is to be gained, as apparent in the embodiment described in the following, in separating the actual hardware required to attach the interface device 10 to the data transmit/receive device from the communication unit ... as this allows a plurality of dissimilar device types to be operated in parallel in identical manner. '399 Patent, col. 8:23-31 (emphases added); '449 Patent, col. 7:23-31 (same). It is well-settled that “[w]hen a patent thus describes the features of the ‘present invention’ as a whole, this description limits the scope of the invention.” Verizon Servs. Corp. v. Vonage Holdings Corp., 503 F.3d 1295, 1308 (Fed.Cir.2007). The description in the specification, therefore, necessarily limits the scope of the '399 and '449 Patents when it refers to the enormous advantage of “the present invention,” to allow a plurality of dissimilar input/output devices to be accessed. The specification also explains that the interface device provides a “universal solution” without regard to the types of data transmit/receive devices from which data may be acquired. '399 Patent, col. 12:37-40 (“The interface device 10 thus provides a universal solution which can cover the entire spectrum of possible data transmit/receive devices.”); '449 Patent, col. 11:41-44 (same). Examples of transmit/receive devices that can be connected to a computer via the interface device include a “diagnostic radiology system in a medical engineering environment” and a “multimeter.” '399 Patent, col. 1:34-54; '449 Patent, col. 1:35-55. The specification also notes the advantage to users of the interface device that they can obtain data from almost any data transmit/receive device with little prior knowledge: By creating and editing a configuration file, normally a text file which is simple to understand with little prior knowledge, users of the interface device 10 are able to perform essentially identical operator actions for almost any data transmit/receive devices which can be attached to the second connecting device via the line 16, thus eliminating a source of error arising from users having to know many different command codes for different applications. '399 Patent, col. 7:37-45; '449 Patent, col. 6:37-45; see also '399 Patent, col. 1:34^16 (explaining that the interface device could be used to simplify the data read/acquisition work of field technicians); '449 Patent, col. 1:35-47 (same). As one learns from studying the Patents, the purpose of the invention was to allow fast communication between dissimilar data transmit/receive devices and computers, without the need for special software drivers. Thus, the invention cannot properly be limited to an interface device that is incapable of allowing a plurality of dissimilar transmit/receive devices to be connected or that cannot be flexible and portable to allow a plurality of dissimilar transmit/receive devices to be attached. This conclusion is further buttressed by the identical Figures that accompany each Patent. Figure 1 of each Patent “shows a general block diagram of the interface device according to the present invention,” see '399 Patent, col. 5:38-39; '449 Patent, col. 4:41^12, and the Figure indicates that the data transmit/receive device is off the sheet, out of sight, not part of the Figure, and not part of the invention. '399 Patent, Sheet 1 (“to data transmit/receive device”; lower case substituted); '449 Patent, Sheet 1 (same). Figure 2 of each Patent, which depicts a preferred embodiment of the invention, also indicates that the data transmit/receive device and the host device/ computer are separate and apart from the invention. '399 Patent, Sheet 2; '449 Patent, Sheet 2. The specification and Figures further indicate that the interface device is separate from the host computer and the transmit/receive device because it is designed to plug into an electrical outlet. See '399 Patent col. 9:65-66 (“The complete interface device 10 is supplied with power by an external AC/DC converter 1800....”); '449 Patent, col. 8:65-66 (same); see also '399 Patent, Sheet 2; '449 Patent, Sheet 2. The prosecution history of the '399 Patent also supports the conclusion that the interface device is a stand-alone device. Mr. Tasler amended Claim One to add the phrase, “wherein the first command interpreter is configured in such a way that the command interpreter, when receiving an inquiry from the host device as to [the] a type of a device attached to the multipurpose interface of the host device.” '399 File History at 7 (underlined in original to show additional phrase; brackets in original to show deleted word). The change from “the device” to “a device” is a change to more general language, indicating that the interface device was intended to be attached to, and detached from, various types of input/output devices. Mr. Tasler also explained to the PTO that “it is clear that the data transmit/receive device to be connected to the second connecting device of the subject interface provides analog data.” Id. at 5 (emphasis added). The statement that the data transmit/receive device is “to be connected” similarly indicates that the inventor did not intend the interface device to be permanently affixed to a single data transmit/receive device, as it is “to be connected” to various data transmit/receive devices. Papst argues that interpreting “interface device” to mean a stand-alone device would “improperly import[ ] the limitations from the specification] to the claims. The claims don’t say stand alone, they don’t say physically connect, or readily connect or disconnect....” Tr. 1:84 (Papst). The Court disagrees. The interface device, as discussed further below, “sends a signal, regardless of the type of the data transmit/receive device attached to the second connecting device of the interface device.” '399 Patent, col. 13:1-5; '449 Patent, col. 11:63-65. Claim One contemplates and intends that a variety of transmit/receive devices may be connected to the interface device, which is also connected to the computer. To fulfill claim One, the “interface device” must, therefore, be a “stand-alone device.” B. “host device” Claim One of both Patents claims “[a]n interface device for communication between a host device, which comprises drivers for input/output devices customary in a host device and a multi-purpose interface, and a data transmiVreceive device .... ” '399 Patent, col. 12:42-45 (emphasis added); '449 Patent, col. 11:46-49 (same). The Camera Manufacturers propose that “host device” be construed to mean “a general purpose computer that connects to and controls the operation of peripherals,” CMs’ Markman Br. at 9, while Papst proposes “a general purpose computer to which hardware devices may be attached, such as Personal Computers (“PCs”) and other host computer systems as described in the patent written description, including drivers for inpuVoutput devices customary in a host device and a multi-purpose interface.” Papst’s Revised Appendix of Claim Constructions [Dkt. # 244, Ex. C] (“Papst’s App.”) at 2. Papst also objects to the phrase “controls the operation of peripherals” in the Camera Manufacturers’ proposed definition. Neither Figure One nor Figure Two of the Patents shows a “host device;” the Figures only indicate where one would be connected to the invention. The Patent Claims refer solely to a “host device,” but the specification clarifies the nature of the intended host device. See '399 Patent, col. 1:9-11 (“The present invention relates to the transfer of data and in particular to interface devices for communication between a computer or host device and a data transmiVreceive device ... ”) (emphasis added); '449 Patent, col. 1:13-15 (same). Thus, the “host device” is a computer, and the Court uses the terms interchangeably hereafter. The specification identifies “common host devices which can be, for example, IBM PCs, IBM-compatible PCs, Commodore PCs, Apple computers or even workstations.” '399 Patent, col. 4:31-33; '449 Patent, col. 3:34-36. The specification further requires the host device to have “a driver for an inpuVoutput device customary in a host device,” such as, “drivers for hard disks, for graphics devices or for printer devices,” of which the hard disk driver is the preferred embodiment. '399 Patent, col. 4:25-30, 34-36; '449 Patent, col. 3:29-34, 38-40. The Patents tout the advantage of attaching “host devices or computer systems” by means of the invention to a “device whose data is to be acquired.” '399 Patent, col. 1:20-22; '449 Patent col. 1:21-23. Thus, the inventor intended his “host device” to include most computers — PCs, Apples, workstations— as long as they had a driver for a customary inpuVoutput device and a multi-purpose interface. As the Camera Manufacturers suggest, there is little substantive difference between their construction of “host device” and that offered by Papst, although they argue that their definition is more clear and concise. It may be that the development of computers since the application for the '399 Patent makes it somewhat more complicated: the inventor specified customary drivers and a “multi-purpose interface” that had to be present in his “host device,” intimating that not all computers of that time necessarily had such devices inside their chassis. See '399 Patent, col. 4:27-30 (“Drivers for input/output devices customary in a host device which are found in practically all host devices are, for example, drivers for hard disks, for graphics devices or for printer devices.”); '449 Patent, col. 3:31-34 (same); see also '399 Patent, col. 5:9-12 (“As support for hard disks is implemented as standard in all commercially available host systems, the simulation of a hard disk, for example, can provide host device-independent use.”); '449 Patent, col. 4:14-17 (same). Now all computers come so equipped. Nonetheless, construing the Claims as of the relevant time period, the Court concludes that the Camera Manufacturers’ proposal omits two critical aspects of the host device, without which the invention cannot operate: customary drivers and a multi-purpose interface. As to the Camera Manufacturers’ proposal that “host device” be defined as a computer that “controls the operation of peripherals,” the Court finds that this aspect of a host device is critical to the ability of a host device to communicate through the invented interface device. That is, the host device must have internal drivers, ie., software, to instruct hardware how to operate. As Papst acknowledged, drivers “are the software programs that are used by the computer[] to communicate with the hardware that’s attached to the computer. So for each and every hardware device that you connect to a computer there has to be a driver that allows the computer to communicate with that hardware device.” Tr. 1:5 (Papst). The specification explains that such drivers can instruct a hard drive (the preferred embodiment) that is internal to the computer, or such drivers can instruct a printer that is external to the computer. In all instances, the driver instructs the how and when of hardware operation and thus directs it. Further discussion of the element of “control” is found below in the construction of the term “driver.” The Court construes “host device” in the Claims of the Patents to mean “a general purpose computer that connects to and directs the operation of peripherals, including drivers for input/output devices customary in a host device and a multipurpose interface.” C. “data transmit/receive device” and “the data transmit/receive device being arranged for providing analog data” Mr. Tasler did not invent a data transmit/receive device, and Papst objects to any construction of the term. Tr. 1:136 (Papst) (“So our first position, of course, is that we shouldn’t be defining this as part of the claimed invention.”). While Papst asserts that the term “data transmit/receive device” is not a claim limitation, Papst concedes that the term may be construed “for context” as “a device that receives input and provides data to the interface device.” Papst’s App. at 2. The Court agrees that it should not define the nature of a data transmit/receive device. What is at issue, however, is the communication capability between the invented interface device and a data transmit/reeeive device, which is very much part of construing the Claims, and the Court construes “data transmit/reeeive device” in this context. The parties disagree as to whether the “data transmit/reeeive device” mentioned in the Patents must be capable of performing two-way communication. Papst cites to the specification, to wit, “The present invention relates to the transfer of data and in particular to interfaces for communication between a computer or host device and a data transmii/receive device from which data is to be acquired or with which two-way communication is to take place.” '399 Patent, col. 1:9-13 (emphasis added); '449 Patent, col. 1:13-17 (same). The Camera Manufacturers propose to construe the term as “a device that transmits data to and receives data from the host device when connected to the host device by the interface device.” CMs’ Markman Br. at 10 (emphasis added). The Court turns to the claim language in the first instance and then to the specification for elucidation. Phillips, 415 F.3d at 1315 (the specification is the “single best guide to the meaning of a disputed term” and “[u]sually it is dispositive”). The preamble to Claim One of the Patents states, “[a]n interface device for communication between a host device ... and a data transmit/reeeive device.... ” '399 Patent, col. 12:42-45 (emphasis added); '449 Patent, col. 11:47-49 (same). “Communieation between” suggests bi-lateral interchanges. Figures 1 and 2 that accompany both Patents show bidirectional arrows connecting the invention to the data transmit/receive device. Figure 1 “shows a general block diagram of the interface device according to the present invention ” and Figure 2 shows a “detailed block diagram of an interface device according to a preferred embodiment of the present invention.” '399 Patent, col. 5:38-42; '449 Patent, col. 4:41-44 (emphases added); see '399 col. 9:29-30 (“In the preferred embodiment of the interface device 10 shown in FIG. 2 ....”); '449, col. 8:29-30 (same); but see '399 col. 9:15-16 (“Figure 2 shows a detailed block diagram of an interface device, according to the present invention”) (emphasis added); '449, col. 8:15-16 (same). Again, the description of features of “the present invention” limits the scope of the invention. Verizon, 503 F.3d at 1308. In explaining the invention, Mr. Tasler specified that “[t]he digital signal processor 13 and the memory means 14 are also attached to a second connecting device 15 by means of bidirectional communication lines (shown for all lines by means of two directional arrows).” '399 Patent, col. 5:49-56; '449 Patent, col. 4:51-55 (same except “bidirectional” is spelled “bi-directional”). In other words, communication goes in both directions. Additionally, in providing background to the invention, the specification states that “[t]he devices from which data is to be acquired cover the entire electrical engineering spectrum” and constitute “very different electrical or electronic systems.” '399 Patent, col. 1:34-35, 56-59; '449 Patent, col. 1:36-37, 57-60; see also '399 Patent, col. 12:37-40 (the specification concludes, “[t]he interface device thus provides a universal solution which can cover the entire spectrum of possible data transmit/reeeive devices.”); '449 Patent, col. 11:41-44 (same). Even more pointed language in the specification describes Figure 1 as showing: The second connecting device can be attached by means of an output line 16 to a data transmit/reeeive device which is to receive data from the host device or from which data is to be read, i.e. acquired, and transferred to the host device. The data transmit/reeeive device itself can also communicate actively with the host device via the first and second connecting device.... '399 Patent, col. 5:56-62; '449 Patent, col. 4:55-61. This language supports the conclusion that, as its name implies, the data transmit/reeeive device is to “receive data from the host device,” or it is the site “from which data is to be read” and it “can also communicate actively with the host device.” Id. The specification also notes an “important advantage of the interface device of the present invention” is the “extremely high data transfer rates by using, for data interchange, the host deviceown [sic] BIOS routines.” '399 Patent, col. 8:43-46; '449 Patent, col. 7:43^47 (emphasis added). In every instance, the Claims, Figures, and specification refer to data transmit/reeeive devices and not to “data transmit devices” or “data transmit or receive devices.” In fact, the name of the interface device itself emphasizes that both data transfer and receipt are important attributes of the data transfer/receive device: the invention is a “flexible interface for communication between a host and an analog I/O device,” ie., the data transmit/reeeive device is an input and output device. '399 Patent, Title; '449 Patent, Title. While the data transmit/reeeive device does not engage in two-way communication at all times, the Claims and specification require it to have the capability of two-way communication. The Court thus construes the term “data transmit/reeeive device” to mean “a device that is capable of transmitting data to and receiving data from the host device when connected to the host device by the interface device.” D. “for communication between [the host device and the data transmit/receive device]” Papst proposes that “for communication between” the computer and the data transmit/reeeive device should be construed to include one-way or two-way communication, or both. Papst’s App. at 2. The Camera Manufacturers propose that the phrase “for communication between” means “for transmitting of information bidirectionally and actively between the two devices.” CMs’ PowerPoint Slides [Dkt. # 267] (“CMs’ Slides”) at 55. As more fully explained above, the preamble to Claim One states, “[a]n interface device for communication between a host device ... and a data transmit/reeeive device.... ” '399 Patent, col. 12:42-45 (emphasis added); '449 Patent, col. 11:47-49 (same). “Communication between” implies bilateral interchanges. The specification describes active communication and data interchange between the host device and the data transmit/reeeive device via the interface device. See '399 Patent, col. 5:56-62 (“The data transmit/reeeive device itself can also communicate actively with the host device via the first and second connecting device.... ”); '449 Patent, col. 4:55-61 (same); '399 Patent, col. 8:43-46 (an “important advantage of the interface device of the present invention” is the “extremely high data transfer rates by using, for data interchange, the host device-own [sic] BIOS routines.”); '449 Patent, col. 7:43-47 (same). Accordingly, the Court accepts, with slight modification, the construction proposed by the Camera Manufacturers, finding it consistent with the construction of the term “data transmit/receive device” to require bidirectional communication. “For communication between” the computer and the data transmit/receive device means “for transmitting of information bidirectionally between the two devices.” E. “multi-purpose interface” The Camera Manufacturers propose that “multi-purpose interface” be construed to mean “a communication interface designed for use with multiple devices having different functions from each other.” CMs’ Slides at 62. Papst proposes that it means “a computer interface which supports more than one type of device.” Papst’s App. at 2. Papst conceded at the Markman hearing that the definition proposed by the Camera Manufacturers is satisfactory, as long as it provides that multiple devices are connected one at a time. Tr. 1:156-57 (Papst) (“COURT: Your problem is temporal, not otherwise. You don’t have any problem with multiple devices having different functions from each other as long as they’re plugged in one at a time? PAPST: Right, Your Hon- or.”). The Patents do not answer this point, and the Court declines to add an unspoken limitation. With the parties’ essential agreement, the Court thus construes “multi-purpose interface” to mean “a communication interface designed for use with multiple devices that can have different functions from each other.” F. “interfacing” The Patents state, “a first connecting device for interfacing the host device with the interface device via the multipurpose interface of the host device; and a second connecting device for interfacing the interface device with the data transmit/receive device.... ” '399 Patent, col. 12:51-55; '449 Patent, col. 11:54-58. Papst suggests that “interfacing” refers to “establishing communication with the computer,” i.e., electronic data communication and not physical connection. Papst’s App. at 3; see also Tr. 1:158-59 (Papst). The Camera Manufacturers insist that “interfacing” means “physically connecting.” CMs’ Slides at 69. Papst proposes the better construction. “Interfacing” means establishing communication or enabling communication between two devices. Figure 2, the preferred embodiment of the invention, shows a 10MB/s SCSI interface chip. See '399 Patent, Sheet 2; '449 Patent, Sheet 2. The chip does the work of interfacing with the host computer, while the 50-pin connector to which it is attached does the job of connecting. The Camera Manufacturers object to Papst’s proposed construction by pointing out that “interfacing” is what the first and second connecting devices do, while communicating is what the command inter-prefers do. The Court does not disagree. But the Court does not interpret “interfacing” as communicating. “Interfacing” means making communication possible, “[interfacing isn’t really about the physical connections, it’s about establishing the communication and in getting information across the boundary.” Tr. 1:166 (Papst). Interfacing “is getting the right electrical signals in the right order with the right voltages with the right timing.” Tr. 2:13 (Papst). Accordingly, the Court construes “interfacing” as used in the Patent Claims as meaning “establishing communication with.” G. “a first connecting device for interfacing the host device with the interface device via the multi-purpose interface of the host device” The parties part ways dramatically on the construction of the term “the first connecting device” in the phrase “a first connecting device for interfacing the host device with the interface device via the multi-purpose interface of the host device.” See '399 Patent, col. 12:51-53; '449 Patent, col. 11:53-55. The Camera Manufacturers propose that the “first connecting device” is “a physical plug or socket for permitting a user to readily attach and detach the interface device with the host device.” CMs’ Slides at 77. Papst does not construe the term “connecting device” as an object, but jumps instead to the interfacing function of the first connecting device and proposes that the first connecting device be construed to mean “the circuit device used to couple the interface device to the multi-purpose interface of a computer.” Papst’s App. at 3 (emphasis added). Papst asserts that “the first connecting device needs to be interpreted along with the entire paragraph ... and it’s the connecting device for interfacing with the multi-purpose interface.” Tr. 2:12 (Papst). Papst then goes on to describe its interpretation of “interfacing:” [Interfacing] means adhering to the protocols for the electrical signals and the formatting of the data as it goes out [and] when it’s being transmitted from one device to another. And that’s how you achieve interfacing in the context of this claim. So while the software is generating the information that gets sent, the connecting device is what actually, ... that’s where the information gets turned into a signal and in the case of a SCSI [small computer system interface] interface gets put on a wire.... [Tjhat’s what is meant by interfacing and this is getting the right electrical signals in the right order with the right voltages with the right timing. Id. at 12-13 (Papst). The Claims, Figure 2, and the specification do not support Papst’s definition as it would apply to “first connecting device.” The Claims explain that the first connecting device is used “for interfacing,” for establishing communication as defined above. That function does not describe the physical nature of the first connecting device itself. Taken into a different context, Papst’s proposed construction would confuse a wall socket that accepts the plug from a lamp with the function that, once a plug is entered into a wall socket, the wall socket allows alternating current to reach the lamp and light its bulb. Despite this function, no one could confuse the wall socket itself with the current that flows after a plug is inserted. The specification illustrates the physical nature of the first connecting device. The spécification describes the first connecting device as containing various devices which require a physical, wired connection: In the preferred embodiment of the interface device 10 shown in FIG. 2, the first connecting device 12 of FIG. 1 contains the following compon