Case 2:23-cv-00083-RWS-RSP Document 71-3 Filed 06/21/24 Page 1 of 14 PageID #: 634
`Case 2:23-cv-00083-RWS-RSP Document 71-3 Filed 06/21/24 Page 1 of 14 PagelD #: 634
`
`EXHIBIT B
`EXHIBIT B
`
`

`

`( 12 ) United States Patent
`Bezinge et al .
`
`( 10 ) Patent No . : US 10 , 198 , 085 B2
`( 45 ) Date of Patent :
`Feb . 5 , 2019
`
`US010198085B2
`
`( 54 ) METHOD AND CIRCUIT FOR SWITCHING
`A WRISTWATCH FROM A FIRST POWER
`MODE TO A SECOND POWER MODE
`( 71 ) Applicants : Slyde Watch SA , Luins ( CH ) ; Gaetan
`Bezinge , Saviese ( CH ) ; Alois Nathan
`Bezinge , Saviese ( CH ) ; Layane
`Bezinge , Saviese ( CH ) ; Leonard
`Basiien Bezinge , Saviese ( CH )
`( 72 ) Inventors : Alex Bezinge , Saviese ( CH ) ; Adrian
`Mohni , St - Gallen ( CH ) ; Daniel Pfeifer ,
`St . Anton Am Arlberg ( AT ) ; Musa
`Dogan , Heerbrugg ( CH )
`( 73 ) Assignee : Slyde Watch SA ( CH )
`Subject to any disclaimer , the term of this
`( * ) Notice :
`patent is extended or adjusted under 35
`U . S . C . 154 ( b ) by 0 days .
`( 21 ) Appl . No . : 15 / 799 , 608
`( 22 ) Filed :
`Oct . 31 , 2017
`Prior Publication Data
`( 65 )
`US 2018 / 0067563 A1 Mar . 8 , 2018
`Related U . S . Application Data
`Continuation of application No . 14 / 352 , 727 , filed as
`application No . PCT / EP2012 / 070273 on Oct . 12 ,
`2012 , now Pat . No . 9 , 804 , 678 .
`Foreign Application Priority Data
`( 30 )
`Oct . 18 , 2011
`( CH )
`. . . . . . . . . . . . . 1689 / 11
`( 51 ) Int . Ci .
`G06F 1 / 32
`G06F 3 / 01
`
`( 63 )
`
`( 2006 . 01 )
`( 2006 . 01 )
`( Continued )
`
`Case 2:23-cv-00083-RWS-RSP Document 71-3 Filed 06/21/24 Page 2 of 14 PageID #: 635
`
`( 56 )
`
`EP
`EP
`
`( 52 )
`
`U . S . CI .
`CPC . . . . . . . . . . . . . G06F 3 / 017 ( 2013 . 01 ) ; G04C 3 / 002
`( 2013 . 01 ) ; G04G 17 / 045 ( 2013 . 01 ) ; G04G
`19 / 12 ( 2013 . 01 ) ;
`
`( Continued )
`( 58 ) Field of Classification Search
`CPC . . . . . . G04C 3 / 002 ; G04G 17 / 045 ; G04G 19 / 12 ;
`G04G 21 / 08 ; GO6F 1 / 3203 ; G06F 3 / 017 ;
`( Continued )
`References Cited
`U . S . PATENT DOCUMENTS
`7 / 2012 Sharkey
`8 , 230 , 246 B1
`2002 / 0118605 AL
`8 / 2002 Born et al .
`( Continued )
`FOREIGN PATENT DOCUMENTS
`1324159 A1
`7 / 2003
`1785808 A1
`5 / 2007
`( Continued )
`OTHER PUBLICATIONS
`K . Tuck et al . , “ MMA84500Q Single / Double and Directional Tap
`Detection ” , Freescale Semiconductor , Inc . , 2010 ; 16 pages .
`( Continued )
`Primary Examiner — Hong Zhou
`( 74 ) Attorney , Agent , or Firm — Blank Rome LLP
`ABSTRACT
`( 57 )
`An electronic wristwatch operable in two power modes . The
`wristwatch has an inertial sensor for detecting a gesture on
`a cover glass of the wristwatch . A touch panel is provided
`underneath the cover glass for detecting the gesture . Gesture
`detection by the inertial sensor is combined with gesture
`detection by the touch panel for triggering a switch from a
`first power mode to a second power mode .
`10 Claims , 5 Drawing Sheets
`
`

`

`( 51 )
`
`( 52 )
`
`( 58 )
`
`( 56 )
`
`Int . Ci .
`( 2006 . 01 )
`G06F 3 / 041
`( 2006 . 01 )
`G04G 17 / 04
`G04G 19 / 12
`( 2006 . 01 )
`( 2010 . 01 )
`G04G 21 / 08
`G04C 3 / 00
`( 2006 . 01 )
`U . S . CI .
`CPC . . . . . . . . . . G04G 21 / 08 ( 2013 . 01 ) ; G06F 1 / 3203
`( 2013 . 01 ) ; GO6F 3 / 041 ( 2013 . 01 )
`Field of Classification Search
`CPC . . . . . . GO6F 3 / 041 ; G06F 1 / 3218 ; G06F 1 / 3265 ;
`G06F 1 / 163 ; G06F 3 / 0346
`See application file for complete search history .
`References Cited
`U . S . PATENT DOCUMENTS
`2002 / 0167699 AL 11 / 2002 Verplaetse et al .
`2004 / 0179431 A1 *
`9 / 2004 Nakajima . . . . . . . . . . . . . . G04G 21 / 02
`368 / 11
`2006 / 0256081 Al 11 / 2006 Zalewski
`2007 / 0176896 AL 8 / 2007 Gritton et al .
`2008 / 0229255 A1
`9 / 2008 Linjama
`2009 / 0085865 A14 / 2009 Fattah
`
`US 10 , 198 , 085 B2
`Page 2
`
`G06F 3 / 017
`345 / 650
`
`2009 / 0102669 AL 4 / 2009 Lin
`2009 / 0195497 A1 8 / 2009 Fitzgerald
`2009 / 0199130 A1
`8 / 2009 Tsern et al .
`2010 / 0231777 AL 9 / 2010 Shintani
`2010 / 0235667 AL 9 / 2010 Mucignat et al .
`2010 / 0265209 Al 10 / 2010 Nurmi et al .
`2011 / 0080349 A14 / 2011 Holbein et al .
`2011 / 0109540 Al
`5 / 2011 Milne et al .
`2011 / 0164057 A1 *
`7 / 2011 Prabhu . . . . .
`10 / 2011 Hinckley
`2011 / 0264928 A
`3 / 2012 Chang
`2012 / 0062470 A1
`4 / 2012 Hysek et al .
`2012 / 0092383 AI
`2012 / 0154303 A1
`6 / 2012 Lazaridis et al .
`FOREIGN PATENT DOCUMENTS
`2315101 A1
`4 / 2011
`WO - 09120292 A2
`10 / 2009
`WO - 11000893 AL
`1 / 2011
`OTHER PUBLICATIONS
`BMA180 Digital , “ Triaxial Acceleration Sensor ” , Data Sheet , Bosch
`Sensortec , Dec . 10 , 2009 , pp . 1 - 69 .
`* cited by examiner
`
`EP
`WO
`WO
`
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`atent
`
`Feb . 5 , 2019
`
`Sheet 1 of 5
`
`US 10 , 198 , 085 B2
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`

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`U . S . Patent
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`atent
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`Feb . 5 , 2019
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`US 10 , 198 , 085 B2
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`Case 2:23-cv-00083-RWS-RSP Document 71-3 Filed 06/21/24 Page 5 of 14 PageID #: 638
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`

`atent
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`Feb . 5 , 2019
`
`Sheet 3 of 5
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`US 10 , 198 , 085 B2
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`Case 2:23-cv-00083-RWS-RSP Document 71-3 Filed 06/21/24 Page 6 of 14 PageID #: 639
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`atent
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`Feb . 5 , 2019
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`Sheet 4 of 5
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`US 10 , 198 , 085 B2
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`Case 2:23-cv-00083-RWS-RSP Document 71-3 Filed 06/21/24 Page 7 of 14 PageID #: 640
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`atent
`
`Feb . 5 , 2019
`
`Sheet 5 of 5
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`US 10 , 198 , 085 B2
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`Case 2:23-cv-00083-RWS-RSP Document 71-3 Filed 06/21/24 Page 8 of 14 PageID #: 641
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`

`

`DESCRIPTION OF RELATED ART
`
`35
`
`US 10 , 198 , 085 B2
`
`METHOD AND CIRCUIT FOR SWITCHING
`A WRISTWATCH FROM A FIRST POWER
`MODE TO A SECOND POWER MODE
`
`eration values in normal use and acceleration due to a tap or
`other gesture . This results in numerous undesirable activa
`tion of the touch panel and therefore in a decrease of the
`power reserve . Moreover , the user is requested to exert a
`The present application is a continuation of U . S . patent 5 strong pressure on the display in order to produce an
`acceleration above the detection threshold .
`application Ser . No . 14 / 352 , 727 , filed Apr . 18 , 2014 , which
`is a national phase application of PCT / EP2012 / 070273 , filed
`A similar solution is described in EP1785808 .
`Therefore , different methods are known in order to switch
`Oct . 12 , 2012 , which claims priority to Swiss Patent Appli
`cation No . CH2011 / 1689 , filed Oct . 18 , 2011 . The entire
`on a device in sleep mode . However , it is difficult to
`contents of those applications are hereby incorporated by 10 distinguish between intentional commands to switch a
`device and other gestures or accelerations which may be
`reference .
`produced during normal use of the device . For example ,
`FIELD OF THE INVENTION
`undesired switch of operating mode could occur when the
`touch display touches a piece of cloth or in case of strong
`The present invention is related to a method for switching 15 acceleration value , for example during sport .
`a wristwatch from a first power mode to a second power
`BRIEF SUMMARY OF THE INVENTION
`mode , and to a wristwatch which can be switched from a first
`power mode to a second power mode . The present invention
`is also related to wristwatches with a touch panel and a
`plurality of power modes .
`
`It is therefore an aim of the invention to provide a better
`20 method for switching a device , such as a microelectronic
`device , into a different power mode .
`It is another aim of the invention to provide a method for
`faster switching of a device into a different power mode ,
`EP1324159 concerns a wristwatch having a touch panel .
`without causing unwanted power mode switches .
`When not used , a display is switched to a sleeping mode . To 25
`It is another aim to provide a method for switching a
`avoid an accidental activation of the sensors , a press button
`device into a different power mode which avoids undesired
`is provided to activate the sensors and the liquid crystal
`change of mode .
`display .
`According to the invention , these aims are achieved by
`US2009199130 concerns a method and apparatus for
`means of a method for switching a device from a first power
`receiving an input by a user on an interactive touchscreen 30 mode to a second power mode , comprising :
`display . The input comprises a contact gesture detected with
`using an accelerometer ( as example of inertial sensor )
`with embedded signal processing capabilities for generating
`accelerometers .
`US2002118605 discloses a tactile wristwatch in which
`an acceleration signal used for detecting a gesture on a cover
`glass of said wristwatch ;
`touch - sensitive keyboard keys are switched on when a user
`using a touch panel underneath said cover glass for
`presses a touch - sensitive keyboard .
`US2009102669 discloses an alarm clock that can be
`detecting said gesture ;
`combining gesture detection by the inertial sensor and
`stopped by the hand of a user approaching a proximity
`gesture detection with the touch panel for triggering a switch
`sensor .
`W009120292 concerns mobile handheld devices such as ,
`from said first power mode to said second power mode ,
`for example , cell phones or personal digital assistants 40
`said method comprising a step of discriminating between
`( PDAs ) containing an accelerometer that sends a signal that
`gesture and no gesture based on the frequency of said
`acceleration signal , and / or the direction of said acceleration
`causes the device to turn on .
`WO11000893 describes a wristwatch with a touch dis -
`signal as measured by said accelerometer being a three
`play . The wristwatch comprises an accelerometer which is
`dimensional accelerometer , and / or the slope of said accel
`used for simulating effects of shocks or acceleration on the 45 eration signal .
`movement . In order to reduce the power consumption , the
`The gesture entered by the user to switch the power mode
`display is automatically switched into a sleeping mode when
`could be a tap , a double tap , a long tap or any other
`not used . The user can wake up the display by means of a
`significant and recognizable gesture rarely occurring outside
`slight pressure of the glass or with a single tap or a double
`of normal use of the device , and which do not need impor
`tap on the touch panel . This document does not describe how 50 tant processing capabilities to be recognized .
`taps or double taps are detected and distinguished from other
`The simultaneous and combinatory usage of an inertial
`gestures or manipulations of the watch .
`sensor , such as an accelerometer , and of a touch sensor or
`US2010 / 235667 describes a device with an accelerometer
`touch panel for detecting a gesture provides a more reliable
`for detecting gestures used to wake up the device .
`discrimination between various gestures and other manipu
`EP2315101 describes a method combining use of an 55 lations . Moreover , this solution reduces the power consump
`inertial sensor and of a touch panel for detecting taps on the
`tion in the first power mode since only the inertial sensor
`touch panel of a device such as a smartphone . The detection
`needs to be switched on in this mode .
`of taps by the touch panel is mainly based on the amplitude
`The discrimination based on the frequency , and / or the
`of the acceleration signal ; if this amplitude is higher than a
`slope of the acceleration signal is much more robust than a
`threshold , then the touch panel will be woken up to confirm 60 discrimination based on the amplitude of the acceleration
`this detection . Although this process might work well in
`signal only . It has been found that taps produce an accel
`smartphones , it has been found that a more precise detection
`eration signal in a specific relatively narrow frequency
`method would be needed for wristwatches . Indeed , wrist
`range . It has also been found that the slope of this accel
`watches are often subject to high acceleration values , some -
`eration signal , during increase and subsequent decrease , is in
`times in the magnitude of 50 G or higher , in normal use or 65 a specific range . Therefore , the frequency and / or the slope of
`during sport . The inertial system described in this document
`the acceleration signal can both be used , alone or in com
`is not able to distinguish reliably between those high accel -
`bination , as a signature of an acceleration produced by taps ,
`
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`

`

`US 10 , 198 , 085 B2
`
`example a ZigBee or Bluetooth module , can also be pro
`or by other gestures one wants to detect , allowing thus to
`vided for connecting the watch to
`a personal computer
`distinguish between an acceleration caused by a tap from
`and / or for supplying power to the watch and load the battery .
`most other causes of acceleration .
`The watch is advantageously powered electrically by
`It has been found that the acceleration caused by a tap
`comprises a significant component along a direction sub - 5 means of a rechargeable accumulator 20 ( FIG . 1b ) through
`stantially perpendicular to the surface of the glass on which
`the micro or nano USB connector , through a specific or
`the tap is made , whereas most other causes produce accel -
`proprietary connector or , in a variant embodiment , through
`erations along other directions . Therefore , a measure of the
`a radiofrequency interface .
`direction of the acceleration relatively to the surface of the
`The glass 3a with the touch sensor 3b underneath closes
`10 the upper surface of the watch case and covers the digital
`glass could be used for distinguishing taps .
`This discrimination based on the direction is even more
`matrix display 4 ; there is an air gap between the touch sensor
`reliable if the user is requested to make a tap on a predefined
`3b and the display . The glass is preferably made of sapphire
`limited portion of the glass . In this case , detection of the
`or of another scratchproof material and is coated with an
`direction of the tap is easier , especially if the glass is curved .
`anti - glare treatment . In a preferred embodiment , the glass is
`The first power mode could be a sleep mode , or standby 15 cylindrically , or possibly spherically curved , while the dis
`mode , in which the power consumption is reduced but no
`play 4 is preferably flat .
`The display 4 is preferably a high - resolution digital
`indications are displayed on the display . The second power
`matrix display , and fills up nearly the entire surface under
`mode could be an operating mode where indications are
`displayed on the display .
`the glass 3a and thus serves both as multipurpose multi
`20 function display and as time indicator . In a preferred
`BRIEF DESCRIPTION OF THE DRAWINGS
`embodiment , the display is a color liquid crystal display
`( LCD ) or color thin film transistor display ( TFT ) with at
`The invention will be better understood with the aid of the
`least 150x150 pixels or more than 200 dpi ( dot per inch ) .
`Other types of display , including displays based on the
`description of an embodiment given by way of example and
`25 AMOLED technology for example , can also be used . Fur
`illustrated by the figures , in which :
`FIG . la illustrates a perspective view of a buttonless
`thermore , the watch could also have several displays , for
`wristwatch with a touch display according to the invention .
`example several digital displays , or a digital matrix display
`FIG . 1b illustrates a transversal cut through the wrist
`combined with hands or other mechanical indicators .
`The display 4 is preferably placed on a printed circuit
`watch of FIG . 1a .
`FIG . 2 schematically illustrates a possible arrangement of 30 board 31 on which other components , such as a microcon
`some components within an embodiment of wristwatch .
`troller , an inertial sensor etc are also mounted . A connector
`FIG . 3 is a chronogram which illustrates the force f
`30 connects the touch sensor 3b with the printed circuit
`applied to the glass of a touch panel during a tap gesture .
`board 31 ; in one preferred embodiment , this connector is
`FIG . 4 is a chronogram which illustrates the acceleration
`detachable , so that the glass 3a can be replaced indepen
`measured by an accelerometer in a direction perpendicular 35 dently of the printed circuit board . In the illustrated embodi
`to the glass of a touch panel during a tap gesture .
`ment , the printed circuit board 31 rests directly against the
`FIG . 5 is a chronogram which illustrates a signal mea
`watch case 5 , so that accelerations on the glass 3a are
`transmitted to the inertial sensor on the board 31 with
`sured by a touch sensor during a tap gesture .
`FIG . 6 is a signal which illustrates an example of power -
`minimal damping .
`The touch sensor or touch panel 3b is laminated or
`on signal generated by a circuit according to the invention . 40
`FIGS . 7a to 7c illustrate three successive positions of the
`deposited underneath the glass 3a . In the following , since
`wristwatch that are detected during a wristturn detection
`those two components are integrated , we will use inter
`changeably the expression glass or touch panel or touch
`method .
`sensor for designating the same component , depending on
`DETAILED DESCRIPTION OF POSSIBLE
`45 the context . A touch panel integrated between the display 4
`EMBODIMENTS OF THE INVENTION
`and the glass cover 3a could also be used in a sandwich
`configuration with a flat glass cover 3a .
`The touch panel 3b has an array of transparent electrodes
`FIGS . 1a and 1b illustrate an example of a wristwatch 1
`and is placed underneath the glass 3a in order to detect the
`according to the invention . The illustrated watch comprises
`notably a wristband 2 and a watch case 5 closed with a glass 50 presence of a finger or of a stylus . The detection technology
`3a and a touch sensor 3b covering a digital matrix display 4 .
`preferably uses methods known in the state of the art , for
`In a preferred embodiment , the watch has no crown and
`example a capacitive detection , for detecting finger contact
`no push - buttons and is operated only through the touch
`and various gestures on one or several of the electrodes . In
`panels and additional sensors , such as inertial sensors , inside
`one embodiment , transparent electrodes can be individually
`the watch case . The water - tightness and solidity of the case 55 powered in order to put the touch panel in a low power mode
`is thus improved .
`with only some electrodes , for example electrodes in the
`A luminosity sensor enabling the intensity of the screen to
`middle , which are powered on and can detect finger contact
`be automatically adapted to the surrounding luminosity can
`on the corresponding part of the display ; the remaining
`also be used as an option . The watch can switch nearly
`electrodes are not powered on in this low power mode .
`instantly from
`a stand - by mode , where the display is 60
`The display 4 can display various indications , for example
`switched off or at least less luminous , to a “ time reading "
`the current time , date , chrono , reverse counter , calendar ,
`and / or navigation mode , for example as soon as the glass is
`etc . . . or phases of the moon as shown in FIG . 1 . In order
`touched or following a tap or double tap on the glass .
`to extend the watch ' s functionalities , the user can switch
`The watch case 5 can also include a connector ( not
`from one display mode to another and for example replace
`shown ) to connect the watch to an external computer , for 65 the card displayed in FIG . 1 with other cards . In a preferred
`example a micro or nano USB connector on the bottom or
`embodiment , the user can move from one card to the other
`in one of the watch ' s sides . Wireless connection means , for
`with a slide ( fast ) or scroll ( slow ) gesture for moving
`
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`

`

`US 10 , 198 , 085 B2
`through and viewing a collection of available displays or
`a cold power saving mode in which restart is possibly slower
`cards . Scrolling or sliding in the horizontal or vertical
`or necessitates restarting an operating system .
`direction is achieved by moving the finger on the glass in the
`The device 1 can be switched from a first power mode ,
`corresponding direction .
`such as a power saving mode , to a second power mode , such
`FIG . 2 schematically illustrates a possible arrangement 5
`as a time display mode , with a user gesture on the glass
`and schematic of some components within an embodiment
`3a / touch panel 3b . The device 1 can automatically return to
`of wristwatch according to the invention . Only components
`the first power mode , for example after a predetermined
`which are necessary for the understanding of the invention
`duration , or when no acceleration and / or no activity are
`have been represented , although other components and other
`detected .
`arrangements could be provided in other embodiments of the 10
`In one embodiment , a gesture command to switch the
`device into a second power mode is detected with the inertial
`invention .
`The illustrated arrangement comprises a power supply 20 ,
`sensor 23 for detecting a tap , a double tap or another
`such as a rechargeable battery , for supplying power to all
`command which can be input by the user onto the glass
`other components . A microcontroller 21 controls the display
`3a / touch panel 3b in order to trigger a change of power
`of indications on the matrix panel 4 , depending on signals 15 mode . The inertial sensor 23 could be an accelerometer with
`provided by the sensors 22 , 23 and on commands entered by
`embedded power processing capabilities and which is
`always powered on in the first low power mode . The
`the user through the touch panel 4 .
`The component 22 is a real - time clock for generating a
`embedded power processing capabilities comprise a proces
`sor or other processing means for executing programmable
`clock signal based on a quartz ( not shown ) .
`The sensor 23 is an inertial sensor , preferably an accel - 20 software code for analysing the accelerations values deliv
`erometer , preferably a 3 - axis mems - based accelerometer for
`ered by the accelerometer , and for generating signals or
`measuring acceleration values a
`( FIG . 4 ) in a direction
`values when certain conditions are met .
`perpendicular to center of the glass of the wristwatch and in
`In order to avoid undesired switches to the second power
`two orthogonal directions in a plane tangential to this glass
`mode , which would switch the display on and reduce the
`at his center . This inertial sensor can comprise signal pro - 25 operating time of the battery , it is necessary to discriminate
`cessing capabilities embedded within the same component
`between changes in the acceleration signals which are
`or chip , for determining the frequency of the measured
`caused by a switch on gesture , such as a tap or a double tap ,
`acceleration signal , the direction of this signal in
`2 or 3
`and any other acceleration caused when the wristwatch is
`directions , the duration of an event in the acceleration signal ,
`displaced or manipulated in normal use . In one preferred
`etc .
`30 embodiment , the accelerometer 23 generates a power on
`The component 24 is a touch panel controller ( touch
`signal 230 for powering the touch panel 3b and the touch
`controller ) for interpreting touch signals provided by the
`controller 24 when the user enters a tap gesture on the glass
`touch panel 3b when the user touches the glass 3a with his
`3a / touch panel 3b , which can be discriminated from other
`finger and consequently generate signals in the touch panel
`signals with the following properties :
`3b located underneath , and for converting those signals into 35
`frequency : tap signals are typically high frequency signals
`and can be distinguished from other signals produced
`command signals for the microcontroller 21 .
`Other components , such as an input - output circuit , for
`by slide , rub etc and from most acceleration that occur
`example a USB decoder or a Bluetooth or ZigBee receiver ,
`during normal use of the wristwatch . The acceleration
`produced by a valid single tap is a pulse function with
`can also be integrated .
`The microcontroller 21 is specifically configured to inter - 40
`a first step of fast increase of the acceleration almost
`immediately followed by a step of fast deceleration , the
`pret the signals from the touch controller 24 and from the
`duration of the whole pulse being typically in the range
`inertial sensor 23 , to select indications from several avail
`of 10 to
`20 ms . Therefore , the bandwidth of this
`able indications depending on these signals , and to display
`those indications on the digital matrix display 4 ; this
`pulse - like function is necessarily higher than a pre
`defined threshold , and a low pass filtering of accelera
`arrangement is preferably achieved by storing in the micro - 45
`controller ' s memory a computer program ( firmware ) allow
`tion signals can be used to cancel signals produced by
`ing this specific sequence of operation to be fully controlled .
`gestures other than taps or by movements of the wrist .
`Preferably , the embedded processing capabilities of the
`At least some of the components 21 to 24 and 3b and 4 can
`be powered in at least two different modes . In one preferred
`accelerometer exclude the possibility of the tap if the
`embodiment , a power saving mode and a time display mode 50
`frequency of the acceleration signal , in a given direc
`are provided ; the whole wristwatch can thus be powered
`tion such as the direction perpendicular to the center of
`either in time display mode for displaying time or other
`the glass , is not in a predefined range .
`indications on the display 4 , or in power saving mode for
`duration of the pulse : as indicated , a valid single tap
`preserving the battery 20 by switching the display 4 , the
`generates a pulse with a duration within a given range ,
`touch sensor 3b and other components in a low consumption 55
`usually between 5 and 100 ms , typically between 10
`mode . In one preferred embodiment , the display 4 and the
`and 20 ms .
`touch sensor 3b are switched off in low power saving mode .
`amplitude of the pulse : a valid single tap is detected only
`if the amplitude of the acceleration is higher than a first
`In some embodiments , more than two power modes can
`predefined threshold a _ tap _ thresh . End of the tap is detected
`be provided ; for example , the real time clock 22 is prefer
`when the amplitude decreases below a second threshold
`ably always powered on in power saving mode , so that the 60
`a _ notap _ thresh .
`real time is not lost when the display 4 and the touch panel
`3b are switched off ; it is possible however to switch the real
`direction of the acceleration : a tap on the glass generates
`time clock off in a deep sleep mode in order to prevent the
`a maximal acceleration in a main direction perpendicu
`battery from being totally discharged . Other components ,
`lar to the center of the glass , oriented toward the bottom
`such as the microcontroller 21 , the touch panel 3b etc could 65
`of the watch , and a much lower acceleration in all other
`have more than two different power modes , for example a
`directions . A 3D accelerometer can be used for dis
`hot power saving mode allowing for a very fast re - start , and
`criminating valid taps based on the direction of the
`
`Case 2:23-cv-00083-RWS-RSP Document 71-3 Filed 06/21/24 Page 11 of 14 PageID #: 644
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`US 10 , 198 , 085 B2
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`20
`
`confirms the tap detection . The second wake up signal 240
`acceleration . For example , if the acceleration in a
`can be input to an interrupt line or switch on line of the
`direction other than the main direction is higher than
`microcontroller 21 . In one embodiment , the wake signal 230
`the acceleration in the main direction , the gesture will
`not be recognized as a switch on tap .
`of the inertial sensor 23 is generated very fast at the
`slope of the acceleration : this feature can also be used to 5 beginning of the tap , the touch controller 24 is immediately
`differentiate between a valid switch on tap and a non
`woken up , and used to confirm the finger detection on the
`valid one . Taps typically generate a fast increase of the
`touch sensor 3b during the remaining time of the tap . In
`acceleration , whereas most other gestures such as
`another embodiment , a double tap is required , and the
`swipes etc and most movements of the wrist produce a
`inertial sensor is used to detect the first tap while the touch
`4
`slower acceleration increase . Therefore , the system 10 sensor 3b , possibly in cooperation with the inertial sensor
`could distinguish that a tap is not valid if the slope of
`23 , is used for detecting the second confirmation tap . In yet
`the acceleration is not in an expected range . It is also
`another embodiment , a long tap is required , i . e . a tap where
`possible to measure the slope of acceleration in one
`the finger rests against the glass during a minimal period . In
`preferential direction , for example in a direction per
`a 15 all embodiments , a second wake up signal 240 is only
`pendicular to the center of the glass , or separately in a 15 ani
`generated if confirmation of a tap or double tap from the
`plurality of predefined directions .
`The slope may be defined by the difference between two
`touch panel 3b occurs within a predetermined duration after
`predefined acceleration values divided by the time it
`the first wake signal , for example within a duration less than
`takes for the acceleration signal to goes from the first of
`300 ms , preferably less than 100 ms .
`Discrimination of a tap by the touch controller 24 pref
`those predefined values to the second one :
`erably depends on the location , size and duration of a touch
`slope = ( a _ tap _ threshold - a _ notap _ threshold ) / ( t3 - t2 )
`signal generated by adjacent electrodes . A tap is usually
`( see FIG . 4 ) .
`made with the tip of a finger , i . e . on a small surface , during
`Those discriminating criteria can also be combined in
`a short period , preferably on predetermined locations of the
`different ways . For example , the processing means within 25 display .
`the accelerometer could use the direction of the acceleration
`The microcontroller 21 is only woken up by the second
`only during a limited time window , for example a less than
`wake up signal of the touch controller 24 . In another
`100 ms time interval starting at the beginning of the pulse .
`embodiment not illustrated hereby , the microcontroller is
`It is also possible to consider at least one of those criteria
`already woken up by the first wake up signal , and used for
`separately during the raising portion of the acceleration 30 discriminating betw