`___________________
`
`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`___________________
`
`HUAWEI DEVICE CO., LTD.,
`Petitioner,
`
`v.
`
`FUNDAMENTAL INNOVATION SYSTEMS INTERNATIONAL LLC,
`Patent Owner.
`___________________
`
`Case IPR2018-00487
`Patent No. 7,239,111
`___________________
`
`DECLARATION OF ROBERT BARANOWSKI IN SUPPORT OF
`PATENT OWNER PRELIMINARY RESPONSE
`
`Mail Stop “PATENT BOARD”
`Patent Trial and Appeal Board
`U.S. Patent and Trademark Office
`P.O. Box 1450
`Alexandria, VA 22313-1450
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`10497703
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`FISI Ex 2001-p 1
`Huawei v FISI
`IPR2018-00487
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`I.
`
`II.
`
`III.
`
`IV.
`
`V.
`
`Introduction ....................................................................................................................... 3
`
`Summary of Opinions ....................................................................................................... 6
`
`USB 2.0 ............................................................................................................................. 9
`
`USB Enumeration ........................................................................................................... 10
`
`SE1 Signaling.................................................................................................................. 21
`
`The USB Specification Teaches That The SE1 Condition Should Never
`A.
`Be Intentionally Generated on the USB.......................................................................... 22
`
`The USB Specification Teaches That The SE1 Condition Interrupts
`B.
`USB Communications .................................................................................................... 22
`
`The Prior Art References Cited By Petitioner Do Not Teach Generating
`C.
`An SE1 Condition On The USB Without Interrupting USB Communications
`Or To Enable Drawing Current Unrestricted .................................................................. 24
`
`The Expert Witness For Samsung, An Accused Infringer In District
`D.
`Court Litigation Involving The '111 Patent, Testified That SE1 Signaling
`Terminates USB Communication ................................................................................... 28
`
`Petitioner Provides No Competent Evidence Supporting Its Conclusion
`E.
`That A POSITA Would Believe SE1 Signaling Is A "Logical Choice" ......................... 30
`
`VI.
`
`The Petition's Dougherty/Shiga Combination (Ground 2) ............................................. 32
`
`Motorola’s J3 Connector Communicates Data According To J3
`A.
`Protocol (The Three-Wire Bus Protocol) ........................................................................ 36
`
`The Petition Ignores Theobald’s Teaching To Follow Communication
`B.
`Protocol ........................................................................................................................... 39
`
`C.
`
`The Petition’s Proposed Combination Does Not Follow USB Protocol ............ 41
`
`Petitioner's Arguments for Combining USB 2.0,Theobald, And Shiga
`D.
`Cannot Withstand Scrutiny ............................................................................................. 42
`
`VII. The Petition's Dougherty/Shiga Combination (Ground 2) ............................................. 44
`
`A.
`
`Dougherty's System Requires Enumeration ....................................................... 44
`
`The Primary Function of Dougherty's Docking Station Is Port
`1.
`Replication .......................................................................................................... 44
`
`2.
`
`Dougherty's System Requires Enumeration ........................................... 47
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`B.
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`C.
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`Petitioner's Proposed Modifications to Dougherty ............................................. 49
`
`A POSITA Would Not Have Made The Proposed Modifications ...................... 50
`
`Dougherty's laptop would not be able to send SE1 signaling
`1.
`pursuant to normal USB communication protocol ............................................. 50
`
`Petitioner's proposals do not properly account for
`2.
`unintentionally-generated SE1 signals ................................................................ 52
`
`Petitioner's modifications would disable the docking station's
`3.
`primary functionality .......................................................................................... 55
`
`There were other known methods to enable docking station
`4.
`charging that would not interfere with normal USB communications ............... 57
`
`Petitioner's proposed modifications do not work in Dougherty's
`5.
`non-operational scenario ..................................................................................... 60
`
`D.
`
`Petitioner's Rationale For Their Proposed Modifications Is Conclusory ........... 62
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`I.
`
`Introduction
`1. My name is Robert Baranowski. I have been asked by Fundamental
`
`Innovation Systems International LLC (“Patent Owner”) to explain certain issues
`
`related to the technologies involved in U.S. 7,239,111, the technologies described
`
`in the cited references, the knowledge of a person of ordinary skill in the art at the
`
`time of the invention, and other pertinent facts and opinions regarding IPR2018-
`
`00487. My qualifications are summarized below and are addressed more fully in
`
`my CV attached as Exhibit 2005.
`
`2.
`
`I am currently the President of Left Coast Engineering in Escondido,
`
`California, an engineering service company. My position includes consulting work
`
`on a variety of power electronics and wireless communications devices. Because
`
`most of the products my company works on are portable, we work with battery
`
`chargers almost every day.
`
`3.
`
`I received a Bachelor of Electrical Engineering Degree from
`
`Villanova University in 1990, and a Master of Science in Electrical Engineering
`
`Degree from Villanova University in 1991.
`
`4.
`
`For the past 26 years, I have been involved in the design and
`
`development
`
`of
`
`electronic
`
`devices,
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`and
`
`especially
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`digital wireless
`
`telecommunications devices. My work has involved the design of integrated
`
`circuits that involve power management, battery charging and USB interface for
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`telecommunications devices. While at Motorola from March 1992 to November
`
`1997, I worked on several telecommunications products that were battery powered
`
`and contained internal battery chargers and accessory connectors that brought
`
`external power into the device (sometimes referred to as J3). After Motorola, I
`
`worked for Sony Electronics from December 1997 to September 1999, also
`
`designing telecommunication devices that were battery powered. During the time I
`
`was working for Motorola and Sony, USB was starting to be looked at as a
`
`possible power source for the internal chargers for telecommunication devices. I
`
`was intimately involved in this field during the time of the U.S. 7,239,111.
`
`5.
`
`After graduating from Villanova I worked for two cellular handset
`
`manufacturers over the course of 8 years before founding the engineering product
`
`design company. For the handset manufacturers I performed product design work
`
`on various aspects of the cellular handsets, including power supplies, power
`
`distribution, battery chargers, battery monitoring, and applying a variety of
`
`techniques to reduce battery consumption, decrease battery charge times, and
`
`integrate into smaller and smaller spaces available in the cellular handsets.
`
`6.
`
`As part of my design work for these handset manufacturers, I was
`
`awarded several patents. Throughout my career, I have been the sole or co-
`
`inventor on 18 United States patents related to battery chargers, power regulator
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`circuits, wireless tracking systems, and other electronics-related devices and
`
`systems. I am also listed as an inventor on a large number of applications. The
`
`
`
`patents are listed below:
`
`
`1
`2
`3
`4
`5
`
`6
`7
`
`8
`
`9
`
`10
`11
`
`12
`
`13
`
`14
`
`15
`
`16
`17
`18
`
`
`6,813,608
`
`6,411,062
`
`6,370,401
`
`6,157,173
`
`Patent No. Title
`9,701,995
`Test cartridge for use in rapid analysis of biological samples
`9,701,994
`System for rapid analysis of biological samples
`9,023,640
`Device for rapid detection of infectious agents
`8,223,073
`Apparatus and method for a directional finder
`7,564,357 Wireless tracking system and method with optical tag
`removal detection
`7,486,648 Wireless extension of local area networks
`7,443,297 Wireless tracking system and method with optical tag
`removal detection
`7,336,182 Wireless tracking system and method with optical tag
`removal detection
`System and method for enhancing user experience in a
`wide-area facility having a distributed, bounded
`environment
`Interoperable am/fm headset wireless telephone device
`6,658,267
`6,473,630 Method and apparatus for powering a wireless headset used
`with a personal electronic device
`Quick release battery and clip for portable device and
`method of implementing same
`Storage case and method for a wireless headset with a
`microphone suspended between earpieces of the headset
`Circuit and method for sharing current between a portable
`device and a battery charger
`Battery dropout correction for battery monitoring in mobile
`unit
`Battery charger with power dissipation control
`Voltage and current mode power regulator
`Adaptive radio receiver controller method and apparatus
`
`6,046,574
`
`5,703,470
`5,613,229
`5,428,820
`
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`7.
`
`I have been asked by Fundamental Innovation Systems International
`
`LLC to explain the technologies involved in U.S. 7,239,111 and the cited exhibits.
`
`8.
`
`For the purpose of this declaration, I apply the same skill level as
`
`proposed in the Petition, although I reserve the right to explain why this level is too
`
`high. I met the qualifications of a person having ordinary skill in the art (proposed
`
`in the Petition) at the time of the ’111 patent filing date. I am being compensated
`
`for my work on this case at a fixed, hourly rate, plus reimbursement for expenses.
`
`My compensation does not depend on the outcome of this case or any issue in it,
`
`and I have no interest in this proceeding.
`
`II.
`
`Summary of Opinions
`9.
`
`Protocols are meant to be followed. A POSITA would recognize the
`
`importance of adhering to USB protocol.
`
`10. USB enumeration is the process for identifying an accessory and
`
`managing power and current allocation to that accessory according to USB
`
`protocol. A POSITA would recognize that a device would be unable to perform
`
`USB communications or other USB functions until enumeration and configuration
`
`was complete. Petitioner fails to explain any benefit of employing an alternative
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`signaling method such as an abnormal SE1 signal when enumeration would still be
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`needed to enable USB communications and device functions.
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`11. The USB specification defines SE1 as the condition where both the
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`D+ and D- data lines are set to a high voltage condition (i.e. greater than .8 V).
`
`USB identifies the SE1 condition as an error condition that should never
`
`intentionally be generated on the USB. USB protocol establishes that the USB
`
`communication path is interrupted when an SE1 condition is detected on the USB.
`
`Thus, intentionally generating an SE1 on the USB bus is the opposite of signaling
`
`according to USB protocol.
`
`12.
`
`In Ground 1, Petitioner proposes replacing the J3 connector in
`
`Theobald with a USB connector. Theobald expressly teaches signaling “according
`
`to” J3 protocol (or other suitable protocol). Petitioner contends that a POSITA
`
`would have been motivated to make the Ground 1 combinations because USB was
`
`a “widely-adopted standard . . . to connect devices and their accessories.” Pet. at
`
`29. A POSITA would recognize that enumeration is, among other things, the
`
`process for negotiating power/current allocation "according to" USB protocol that
`
`enables the benefits of using USB standard, including subsequent communications
`
`with connected devices. Yet Petitioner never explains why a POSITA seeking to
`
`replace the J3 connector in Theobald with a USB connector seeking to obtain the
`
`benefits of the “widely-adopted” USB standard would not adhere to USB protocol
`
`and perform enumeration.
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` Further, a POSITA would have known that
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`intentionally generating an SE1 on the USB bus, as proposed by Petitioner, is the
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`opposite of signaling "according to" USB protocol and would cause the USB
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`communication path to disconnect, thereby preventing the proposed combination
`
`from receiving the benefits of the USB standard.1
`
`13. Similarly,
`
`in Ground 2, Petitioner proposes replacing USB's
`
`enumeration process (as implemented in Dougherty’s “handshaking” protocol)
`
`with an SE1 signal that is expressly prohibited under the USB protocol. In fact,
`
`detection of an SE1 signal was known by POSITAs to disable or interrupt the USB
`
`communication path. POSITAs knew that a device would then need to perform
`
`enumeration again in order to establish a communication path to transmit and
`
`receive data and enable the USB device's functionality.2 Petitioner fails to address
`
`that substituting SE1 in place of Dougherty’s standard USB handshaking would
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`have disrupted the communication and operation of Dougherty's docking station
`
`and attached computer system.
`
`
`1 To be clear, this is in response to Petitioner’s attempt to implement the SE1
`signal into Theobald’s power adapter. The ‘111 patent inventors developed
`specific techniques to address these issues.
`2 A “USB communication path” exists even when it is idle, not used for
`transmitting normal USB data or disconnected from a USB host. This is expressly
`described in the ‘111 patent.
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`III. USB 2.0
`14. USB was designed to allow for port expansion and plug-and-play
`
`bidirectional communication. Ex. 1007-1 at 293. The USB 2.0 protocol allows for
`
`up to 127 USB devices to be connected to a USB host (either directly or indirectly,
`
`through a hub). Ex. 1007-1 at 41. To ensure a robust USB and avoid interruption
`
`to the USB communication path, “USB devices are required […] at all times to
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`display behavior consistent with defined USB device states.” Id. at 50.
`
`15. The USB specification explains that “[t]he host controls all access to
`
`the USB. A USB device gains access to the bus only by being granted access by
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`the host.” Id. at 55.
`
`16. USB defines a handshaking protocol called enumeration by which the
`
`host identifies, addresses and configures each peripheral device. Ex. 1007-1 at 48;
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`1007-3 at 45-47; Ex. 1007-4 at 46-48. As discussed further in Section IV below, a
`
`POSITA would understand that enumeration is the process for identifying and
`
`configuring attached devices according to the USB specification. Before
`
`enumeration is complete and a device is configured, the device may only respond
`
`
`3 Petitioner has divided Exhibit 1007 (Universal Serial Bus Specification
`Revision 2.0) into volumes 1-9. Throughout this declaration, I refer to Exhibit
`1007 by referencing the volume number and the page number within that particular
`volume (i.e., the PDF page number within the document uploaded by Petitioner,
`such as Ex. 1007-1 or Ex. 1007-2).
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`to standard requests, and thus none of the device-specific requests generally
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`needed in order to operate a connected USB device are available. Ex. 2006 at 5-6;
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`see, also, infra, §IV.B; see, also, 1007-1 at 52 (“[b]efore a function can be used, it
`
`must be configured by the host.”).
`
`17. A POSITA would understand the advantages of adhering to the USB
`
`protocol. For example, a POSITA would understand that following USB protocol
`
`would allow for proper operation of any USB compatible device and reduce the
`
`risk of interrupting communication on the USB. Further, a POSITA would
`
`understand that disregarding the USB specification and transmitting an abnormal
`
`data signal would risk interrupting communications and undermining the
`
`robustness of the USB. A POSITA would also understand that USB devices are
`
`hot-swappable, and any interrupted communications could be confused with device
`
`disconnection.
`
`IV. USB Enumeration
`18. The USB specification defines and extensively discusses a reliable
`
`and well-tested mechanism for identifying what kind of devices are connected to a
`
`USB system: the USB enumeration mechanism. See, e.g., Ex. 1007-2 at 48; Ex.
`
`1007-3 at 44, 47; Ex. 1007-4 at 46-47; Ex. 1007-5 at 21; Ex. 1007-6 at 8. This
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`mechanism uses standard USB signaling and specifically bans the use of the SE1
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`signal. Ex. 1007-2 at 81.
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`19.
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`Indeed, the Petition acknowledges that enumeration is the process
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`specified by USB to configure a USB device when it is attached to a powered port:
`
`[W]hen a USB device is attached to or removed from the USB, the host uses
`a process known as bus enumeration to identify and manage the device state
`changes necessary.
`Pet. at 10.
`
`20. When a USB device is plugged into a host's USB port, the host and
`
`the device undergo a series of handshakes in order for the host to access the
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`device's functions. This process—which involves "initial exchange of information
`
`that enables the host's device driver to communicate with the device"—is called
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`enumeration. Ex. 2006 at 74.
`
`21. The enumeration process involves a series of steps. First, when a user
`
`plugs the device in to the powered port of a USB hub, the device enters the
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`"powered" state. Ex. 2014 at 76; Ex. 2006 at 96. In this state, the device may
`
`receive power from the USB hub—however, it may not draw more than 100 mA
`
`from VBUS until it is configured. Ex. 1007-4 at 45-46. Furthermore, the USB
`
`port to which the device is attached is disabled, and the USB device cannot
`
`respond to any requests from the USB bus until it receives a "reset" command from
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`the bus. Id. at 45.
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`22. Next, the hub detects the device by "monitor[ing] the voltages on the
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`signal lines of each of its ports." Ex. 2014 at 76; Ex. 2006 at 96. In this step, the
`
`USB device sends a high voltage on either the D+ or D- line. Id. The USB hub
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`detects the voltage and determines that the device is either a full-speed device (if
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`D+ is high) or a low-speed device (if D- is high). Ex. 2014 at 76, 77; Ex. 2006 at
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`96, 97 (detecting whether full-speed device supports high speed); Ex. 1007-4 at 47.
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`Upon detecting the device, the hub "continues to provide power but doesn't
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`transmit USB traffic to the device." Ex. 2014 at 76. The host learns of the nature of
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`the event, and of the attachment of the new device, by sending a "Get_Port_Status"
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`request. Ex. 2014 at 76; Ex. 2006 at 96.
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`23. Then, the host issues a port enable and reset command to the port,
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`which puts the port into the "enabled" state. Ex. 1007-4 at 46; Ex. 2014 at 76; Ex.
`
`2006 at 97. In an enabled state, the host can now signal the connected USB device
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`with control packets.
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`24. After the reset, the USB device enters the "default" state and can still
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`draw no more than 100 mA from the VBUS line. Id. In this stage, the USB device
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`uses the "default address" of 0 to receive control requests. Ex. 1007-4 at 46; Ex.
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`2014 at 77; Ex. 2006 at 97.
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`25. The USB host then reads the device's device descriptor to determine
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`the maximum data payload the USB device can use. Id. Maximum data payload
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`refers to the maximum packet size. Id. Either before or after the USB host requests
`
`the device's device descriptor to determine the maximum payload, the host assigns
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`a unique address to the USB device, such that it is in the "Address" state. Ex.
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`1007-4 at 46; Ex. 2014 at 77-78; Ex. 2006 at 98.
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`26. The host then "sends a Get_Descriptor" request to the new address to
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`learn about the device's abilities. Ex. 2014 at 78; Ex. 2006 at 98. The standard USB
`
`descriptors include the following fields (see Ex. 1007-4 at 65-66, Table 9-8):
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`27. The descriptor description above matches that listed in U.S. 5,884,086
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`
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`("Amoni"), Table II. As noted by Amoni, the descriptors can include information
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`unique to a device, including its nonstandard voltage or current configurations.
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`For example, such information can be encoded by "assign[ing] a vendor specific
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`Device Class . . . and designat[ing] a unique device sub-class assignment with
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`unique encoded voltage and power requirements." Ex. 1018 at 7:16-19.
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`Alternatively, the information can be encoded with "a Product String Index
`
`[iProduct] pointing to a string containing voltage and current requirements." Id. at
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`7:27-29.
`
`28. The host continues to learn about the device "by requesting the one or
`
`more configuration descriptors specified in the device descriptor." Ex. 2014 at 78.
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`The configuration descriptor has the following fields (Ex. 1007-4 at 68-69, Table
`
`9-10). As Amoni noted, the iConfiguration field can also be used to encode a
`
`device's nonstandard voltage or current configuration, e.g., with the index
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`"point[ing] to the location of a text string of UNICODE format" as specified in
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`section 9.6.7 of USB 2.0. Ex. 1018 at 7:37-44.
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`29. The host then reads the "configuration" information from the device,
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`which contains information about the device's capabilities. Ex. 1007-4 at 46.; Ex.
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`2014 at 77; Ex. 2006 at 98-99. Finally, the host assigns a configuration value to the
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`USB device, which puts the device into the "configured" state. Ex. 1007-4 at 47;
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`Ex. 2014 at 79; Ex. 2006 at 99-100. Before this step, since the host does not yet
`
`know what additional functionality the device can support, the host will only issue
`
`standard device requests, and hence the device will only respond to standard device
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`requests. See Ex. 1007-4 at 53-54 (describing the various standard device requests
`
`and noting that "USB devices must respond to standard device requests, even if the
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`device has not yet been assigned an address or has not been configured"); Ex. 2014
`
`at 37 (application communications began after enumeration); Ex. 2006 at 41
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`(same). After it is configured, however, the device can participate in additional
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`USB communications, and draw an amount of power across the VBUS according
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`to its configuration. Ex. 1007-4 at 47; Ex. 2014 at 79; Ex. 2006 at 99-100.
`
`30. Either shortly before, or shortly after, the USB device enters the
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`"configured" state, the host assigns and loads a device driver. See Ex. 2014 at 78-
`
`79; Ex. 2006 at 99. While the USB 2.0 specification does not explicitly describe
`
`loading the device driver as being part of the enumeration process (see Ex. 1007-4
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`at 46-47), the process of loading the device driver is closely related to enumeration
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`and depends on information obtained during the enumeration process, particularly
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`when dealing with a host with a large operating system, such as the Windows
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`operating system. See Ex. 2014 at 78-79 ("In selecting a driver, Windows tries to
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`match the Vendor and Product IDs, Release Number, and or class information
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`retrieved from the device with the information stored in the system's INF files.");
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`Ex. 2006 at 99 (same); see also Ex. 1007-5 at 16-18 (during device configuration,
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`"[t]he configuring software first reads the device descriptor, then requests the
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`description for each possible configuration. It may use the information provided to
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`load a particular client, such as a device driver, which initially interacts with the
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`device. The configuring software, perhaps with input from that device driver,
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`chooses a configuration for the device."). Thus, regardless of whether loading a
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`driver is explicitly part of enumeration, loading the driver cannot occur in the
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`absence of enumeration.
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`31. Shortly after the enumeration process has been completed, the device
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`has transitioned from being unrecognized by the USB host, to being identified,
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`configured, and ready for operation. This configuration is critical to normal
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`operation of the USB device, because "[a] USB device must be configured before
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`its function(s) may be used." Ex. 1007-4 at 47. The USB device may now also
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`draw power over the VBUS line according to the configuration information set by
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`the USB host. Id.
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`32. When a hub instead of a device is connected to a host, the host also
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`undergoes enumeration with the hub (as well as any devices attached to the hub)
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`using the same procedures as described above. Ex. 2014 at 79-80; Ex. 2006 at 100.
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`V.
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`SE1 Signaling
`33. The USB specification defines SE1 as "a state in which both the D+
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`and D- lines are at a voltage above VOSE1 (min), which is 0.8 V." Ex. 1007-2 at
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`81.
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`34.
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`It is possible to use an SE1 signal without interfering with USB
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`signaling, as established by the '111 patent. Petitioner provides no evidence that
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`the prior art ever contemplated sending an SE1 signal without interrupting data
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`communications prior to the '111 patent.
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`35. Petitioner and Dr. Levy contend that "POSITAs would have also
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`known that the SE1 state would be a logical choice for conveying information
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`about a device without interfering with USB signaling." Pet. at 13 (citing Ex. 1005,
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`mirror image Levy declaration, at ¶71); see also Pet. at 62-63.
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`36. However, Petitioner provides no explanation how or why a POSITA
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`would have sent an SE1 signal for "conveying information about a device without
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`interfering with USB signaling." See, Id. As discussed below, Petitioner's
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`conclusion that SE1 offers a "logical choice for conveying information about a
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`device without interfering with USB signaling" directly contradicts the knowledge
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`of a POSITA. In fact, a POSITA would have known that SE1 signaling would
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`interrupt USB communications and prevent a device from performing its USB
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`functions, as the SE1 would cause a disconnect of the USB and a repeat of
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`enumeration.
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`37. The Petition and supporting declaration fail to consider a number of
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`crucial issues, as discussed in more detail below.
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`A. The USB Specification Teaches That The SE1 Condition Should
`Never Be Intentionally Generated on the USB
`38. As the petition acknowledges numerous times, "the USB 2.0
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`specification indicates that the Single-Ended (SE) 1 signal (i.e., when both the D+
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`and D- data lines are at a high voltage level) must never be intentionally generated
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`within USB."
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` Pet. at 3 (emphasis added) (citing Ex. 1007, USB 2.0
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`Specification)see, also, Pet. at 12, 30, 33, 48, 50. A POSITA designing an
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`accessory for USB would follow the USB specification, and would not believe SE1
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`provides a "logical choice" for signaling because USB explicitly prohibits this
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`exact thing. A POSITA would understand that if an application involves USB
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`communication, it should not employ the SE1 signal.
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`The USB Specification Teaches That The SE1 Condition
`Interrupts USB Communications
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`B.
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`39. The USB specification explains that an SE1 signal would interfere
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`with communications on the USB. As one example, the USB Specification states
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`that all USB receivers comprise a receiver state machine that follows USB
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`protocol.
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` USB stipulates
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`that all compliant USB
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`receivers
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`interrupt
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`communication on the USB if they receive an SE1 signal:4
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`11.6.3.3 ReceivingJ
`This state is entered from a nonHS state except the Suspend state if the
`receiver detects an SJ (or Idle) or SE1 condition on the bus or while the
`Transmitter is in the Active state.
`This is a timed state with an interval of 3 ms. The timer is reset each time
`this state is entered.
`The timer only advances if the Transmitter is in the Inactive state.
`Ex. 1007-5 at 53.
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`40. USB also stipulates that a USB hub must disable the USB port when
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`SE1 signaling is observed to avoid "errors that are very difficult to isolate and
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`correct":
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`Each port is required to have a timer used for detecting disconnect when a
`full-/low-speed device is attached to the port. This timer is used to constantly
`monitor the port's single-ended receivers to detect a disconnect event. The
`reason for constant monitoring is that a noise event on the bus can cause the
`attached device to detect a reset condition on the bus after 2.5 μs of SE0 or
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`4 It is still possible to be a USB 2.0 device or component even if all portions
`of the specification are not satisfied.
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`SE1 on the bus. If the hub does not place the port in the disconnect state
`before the device resets, then the device can be at the Default Address state
`with the port enabled. This can cause errors that are very difficult to isolate
`and correct.
`Ex. 1007-5 at 49. Also, the USB specification states “A high-speed driver must
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`never ‘intentionally’ generate a signal in which both D+ and D- are driven to a
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`level above 200 mV. The current-steering design of a high-speed driver should
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`naturally preclude this possibility.”
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`41. The Petition does not address whether this interruption would
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`interfere with typical USB signaling, nor whether this concern would affect a
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`POSITA’s motivation to perform the combination proposed in the Petition.
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`C. The Prior Art References Cited By Petitioner Do Not Teach
`Generating An SE1 Condition On The USB Without Interrupting
`USB Communications Or To Enable Drawing Current
`Unrestricted
`42. Petitioner cites several references5 for the proposition that "POSITAs
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`would have understood that the SE1 state could be used in a variety of contexts."
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`Pet. at 8. But Petitioner does not, and cannot, assert that any of these references
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`are used in the particular context at issue: signaling identification information to
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`indicate that the sending device is not a USB host or hub.
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`5 Petitioner cites to Ex. 1009 ("Shiga"), Ex. 1012 ("Zyskowski"), Ex. 1013
`("Casebolt"), and Ex. 1014 ("Cypress") as prior art references purportedly relating
`to SE1.
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`43. None of the references cited by petitioner teach or suggest that the
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`SE1 state can be used to convey information about a device or that an SE1 signal
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`can be sent without interfering with USB signaling. In fact, none of the references
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`discloses transmitting an SE1 signal on USB data lines that were transmitting or
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`would continue to transmit standard USB communications. And Petitioner never
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`alleges, or points to any disclosure in these references that suggests SE1 signaling
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`can be used "without interfering with USB signaling."
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`44. Petition