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US20130232353A1 - Mobile Device Power State - Google Patents

Mobile Device Power State Download PDF

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Publication number
US20130232353A1
US20130232353A1 US13/471,001 US201213471001A US2013232353A1 US 20130232353 A1 US20130232353 A1 US 20130232353A1 US 201213471001 A US201213471001 A US 201213471001A US 2013232353 A1 US2013232353 A1 US 2013232353A1
Authority
US
United States
Prior art keywords
computing device
orientation
input device
input
power state
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
US13/471,001
Inventor
Jim Tom Belesiu
Sharon Drasnin
Michael A. Schwager
Christopher Harry Stoumbos
Mark J. Seilstad
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Microsoft Technology Licensing LLC
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US13/471,001 priority Critical patent/US20130232353A1/en
Priority to US13/651,976 priority patent/US9047207B2/en
Assigned to MICROSOFT CORPORATION reassignment MICROSOFT CORPORATION ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: BELESIU, Jim Tom, STOUMBOS, CHRISTOPHER HARRY, SCHWAGER, MICHAEL A., DRASNIN, SHARON, SEILSTAD, MARK J.
Priority to EP17196809.2A priority patent/EP3291047A1/en
Priority to PCT/US2013/028489 priority patent/WO2014084879A2/en
Priority to EP13858403.2A priority patent/EP2820507A4/en
Priority to CN201310067335.0A priority patent/CN103488271A/en
Publication of US20130232353A1 publication Critical patent/US20130232353A1/en
Assigned to MICROSOFT TECHNOLOGY LICENSING, LLC reassignment MICROSOFT TECHNOLOGY LICENSING, LLC ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: MICROSOFT CORPORATION
Priority to US14/704,423 priority patent/US20150234478A1/en
Abandoned legal-status Critical Current

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    • H01H13/702Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard with contacts carried by or formed from layers in a multilayer structure, e.g. membrane switches
    • H01H13/704Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard with contacts carried by or formed from layers in a multilayer structure, e.g. membrane switches characterised by the layers, e.g. by their material or structure
    • HELECTRICITY
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    • H01H13/00Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch
    • H01H13/70Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard
    • H01H13/78Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites
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    • H01H13/70Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard
    • H01H13/78Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites
    • H01H13/785Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites characterised by the material of the contacts, e.g. conductive polymers
    • HELECTRICITY
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    • H01H13/70Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard
    • H01H13/78Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites
    • H01H13/79Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites characterised by the form of the contacts, e.g. interspersed fingers or helical networks
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
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    • H01H13/70Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard
    • H01H13/78Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites
    • H01H13/807Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by the contacts or the contact sites characterised by the spatial arrangement of the contact sites, e.g. superimposed sites
    • HELECTRICITY
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    • H01H13/70Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard
    • H01H13/82Switches having rectilinearly-movable operating part or parts adapted for pushing or pulling in one direction only, e.g. push-button switch having a plurality of operating members associated with different sets of contacts, e.g. keyboard characterised by contact space venting means
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
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    • H04M1/02Constructional features of telephone sets
    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/0206Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings
    • H04M1/0208Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings characterized by the relative motions of the body parts
    • H04M1/0214Foldable telephones, i.e. with body parts pivoting to an open position around an axis parallel to the plane they define in closed position
    • H04M1/0216Foldable in one direction, i.e. using a one degree of freedom hinge
    • HELECTRICITY
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    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/0254Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets comprising one or a plurality of mechanically detachable modules
    • HELECTRICITY
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    • H04MTELEPHONIC COMMUNICATION
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    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72403User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
    • H04M1/72409User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K5/00Casings, cabinets or drawers for electric apparatus
    • H05K5/02Details
    • H05K5/0217Mechanical details of casings
    • H05K5/0226Hinges
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K5/00Casings, cabinets or drawers for electric apparatus
    • H05K5/02Details
    • H05K5/0217Mechanical details of casings
    • H05K5/0234Feet; Stands; Pedestals, e.g. wheels for moving casing on floor
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2201/00Constructional elements; Accessories therefor
    • E05Y2201/40Motors; Magnets; Springs; Weights; Accessories therefor
    • E05Y2201/46Magnets
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2201/00Contacts
    • H01H2201/022Material
    • H01H2201/032Conductive polymer; Rubber
    • H01H2201/036Variable resistance
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2203/00Form of contacts
    • H01H2203/02Interspersed fingers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2203/00Form of contacts
    • H01H2203/036Form of contacts to solve particular problems
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2203/00Form of contacts
    • H01H2203/058Contact area function of position on layered keyboard
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2205/00Movable contacts
    • H01H2205/006Movable contacts mounted on spacer
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2211/00Spacers
    • H01H2211/004Adhesive
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2211/00Spacers
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2213/00Venting
    • H01H2213/016Venting in adhesive layer
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2217/00Facilitation of operation; Human engineering
    • H01H2217/004Larger or different actuating area
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2217/00Facilitation of operation; Human engineering
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2217/00Facilitation of operation; Human engineering
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2227/00Dimensions; Characteristics
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/20Interlocking, locking, or latching mechanisms
    • H01H9/26Interlocking, locking, or latching mechanisms for interlocking two or more switches
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
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    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/0206Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings
    • H04M1/0241Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings using relative motion of the body parts to change the operational status of the telephone set, e.g. switching on/off, answering incoming call
    • H04M1/0245Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings using relative motion of the body parts to change the operational status of the telephone set, e.g. switching on/off, answering incoming call using open/close detection
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D10/00Energy efficient computing, e.g. low power processors, power management or thermal management
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T29/00Metal working
    • Y10T29/49Method of mechanical manufacture
    • Y10T29/49826Assembling or joining

Definitions

  • Mobile computing devices have been developed to increase the functionality that is made available to users in a mobile setting. For example, a user may interact with a mobile phone, tablet computer, or other mobile computing device to check email, surf the web, compose texts, interact with applications, and so on.
  • the devices typically include some type of battery that serves as a mobile source of power for the devices.
  • a limitation associated with utilizing battery power is that a battery has a limited effective charge life. When a battery charge for a mobile computing device is depleted, the battery is recharged or replaced in order to maintain operability of the device. Thus, to extend battery usage life, managing power consumption of mobile computing devices is an important consideration.
  • a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. For example, the computing device and the input device can be positioned at different respective tilt angles. Techniques can determine a tilt angle between the computing device and the input device, and can determine a particular power state for the computing device and/or the input device based on the tilt angle. For example, different tilt angle ranges can correspond to different power states.
  • an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. For example, a particular functionality of an application can be enabled or disabled based on a tilt angle between the computing device and the input device. Thus, different tilt angle ranges can correspond to different application states.
  • techniques can cause a computing device to transition between power states in response to detected vibrations.
  • a vibration detection mechanism e.g., an accelerometer
  • the vibration can detect vibration of the computing device and/or of an input device coupled to the computing device.
  • the vibration may be caused by user input to a touch functionality of the computing device, such as a touch screen of the computing device, a track pad of a coupled input device, and so on.
  • the vibration can be caused by some other contact with the computing device, such as a result of inadvertent bumping of the computing device by a user, vibration of a table or other surface on which the computing device is resting, and so on.
  • techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states.
  • FIG. 1 is an illustration of an environment in an example implementation that is operable to employ the techniques described herein.
  • FIG. 2 depicts an example implementation of an input device of FIG. 1 as showing a flexible hinge in greater detail.
  • FIG. 3 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 4 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 5 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 6 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 7 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 8 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 9 depicts some example rotational orientations of the computing device in relation to the input device in accordance with one or more embodiments.
  • FIG. 10 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • FIG. 11 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • FIG. 12 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • FIG. 13 illustrates an example system including various components of an example device that can be implemented as any type of computing device as described with reference to FIGS. 1-12 to implement embodiments of the techniques described herein.
  • a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge.
  • an input device include a keyboard, a touch pad, combinations of a keyboard and touch pad, and so on.
  • the computing device includes a display device (e.g., a display surface) and has independent operability separate from the input device, such as for outputting content, receiving touch input, and so on.
  • the input device thus provides a mechanism for providing input to the computing device, but the computing device is also operable to provide functionality independent of the input device.
  • a computing device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device.
  • the computing device and the input device can be positioned at different respective tilt angles.
  • Techniques can determine a tilt angle between the computing device and the input device, and can determine a particular power state for the computing device and/or the input device based on the tilt angle.
  • different tilt angle ranges can correspond to different device power states.
  • an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. For example, a particular functionality of an application can be enabled or disabled based on a tilt angle between the computing device and the input device. Thus, different tilt angle ranges can correspond to different application states.
  • a vibration detection mechanism e.g., an accelerometer
  • a computing device in a low power mode can detect vibration of the computing device and/or of an input device coupled to the computing device.
  • the vibration for instance, may be caused by user input to a touch functionality associated with the computing device, such as a touch screen of the computing device, a track pad of a coupled input device, and so on.
  • the vibration can be caused by some other contact with the computing device, such as a result of inadvertent bumping of the computing device by a user, vibration of a table or other surface on which the computing device is resting, and so on.
  • techniques can query a functionality of the computing device to determine whether the vibration was caused by touch input from a user.
  • a capacitive touch input mechanism e.g., a track pad, a touch screen, and so forth
  • Touch input can indicate intent from a user to cause the computing device to transition from a low power (e.g., sleep) mode, to a functional mode.
  • the computing device can wake from the low power mode. Absent an indication of touch input, the computing device can remain in a low power state.
  • techniques can utilize a sensing mechanism that consumes less power to detect vibration of a computing device, and can utilize a mechanism that consumes more power (e.g., a capacitive touch sensor) to ascertain whether the vibration resulted from touch input. This can enable a sensing mechanism that consumes more power to remain in a low power state (e.g., an off state) unless queried to confirm the presence of touch input, thus reducing power consumption by a computing device.
  • a low power state e.g., an off state
  • Example Device Orientations describes some example mobile device orientations in accordance with one or more embodiments.
  • example procedures are described which may be performed in the example environment as well as other environments. Consequently, performance of the example procedures is not limited to the example environment and the example environment is not limited to performance of the example procedures.
  • a section entitled “Touch Initiated Power State Transition” describes example embodiments for transitioning between power states based on touch input.
  • an example system and device are described in which embodiments may be implemented in accordance with one or more embodiments.
  • an input device is described, other devices are also contemplated that do not include input functionality, such as covers.
  • FIG. 1 is an illustration of an environment 100 in an example implementation that is operable to employ techniques described herein.
  • the illustrated environment 100 includes an example of a computing device 102 that is physically and communicatively coupled to an input device 104 via a flexible hinge 106 .
  • the computing device 102 may be configured in a variety of ways.
  • the computing device 102 may be configured for mobile use, such as a mobile phone, a tablet computer as illustrated, and so on.
  • the computing device 102 may range from full resource devices with substantial memory and processor resources to a low-resource device with limited memory and/or processing resources.
  • the computing device 102 may also relate to software that causes the computing device 102 to perform one or more operations.
  • the computing device 102 is illustrated as including an input/output module 108 .
  • the input/output module 108 is representative of functionality relating to processing of inputs and rendering outputs of the computing device 102 .
  • a variety of different inputs may be processed by the input/output module 108 , such as inputs relating to functions that correspond to keys of the input device 104 , keys of a virtual keyboard displayed by a display device 110 to identify gestures and cause operations to be performed that correspond to the gestures that may be recognized through the input device 104 and/or touchscreen functionality of the display device 110 , and so forth.
  • the input/output module 108 may support a variety of different input techniques by recognizing and leveraging a division between types of inputs including key presses, gestures, and so on.
  • the input device 104 is configured as having an input portion that includes a keyboard having a QWERTY arrangement of keys and track pad although other arrangements of keys are also contemplated. Further, other non-conventional configurations are also contemplated, such as a game controller, configuration to mimic a musical instrument, and so forth. Thus, the input device 104 and keys incorporated by the input device 104 may assume a variety of different configurations to support a variety of different functionality.
  • the input device 104 is physically and communicatively coupled to the computing device 102 in this example through use of a flexible hinge 106 .
  • the flexible hinge 106 is flexible in that rotational movement supported by the hinge is achieved through flexing (e.g., bending) of the material forming the hinge as opposed to mechanical rotation as supported by a pin, although that embodiment is also contemplated. Further, this flexible rotation may be configured to support movement in one or more directions (e.g., vertically in the figure) yet restrict movement in other directions, such as lateral movement of the input device 104 in relation to the computing device 102 . This may be used to support consistent alignment of the input device 104 in relation to the computing device 102 , such as to align sensors used to change power states, application states, and so on.
  • the flexible hinge 106 may be formed using one or more layers of fabric and include conductors formed as flexible traces to communicatively couple the input device 104 to the computing device 102 and vice versa. This communication, for instance, may be used to communicate a result of a key press to the computing device 102 , receive power from the computing device, perform authentication, provide supplemental power to the computing device 102 , and so on.
  • the flexible hinge 106 may be configured in a variety of ways, further discussion of which may be found in relation to the figures discussed below.
  • the computing device 102 further includes an orientation module 112 , which is representative of functionality to determine a positional orientation of the computing device 102 relative to the input device 104 .
  • the orientation module 112 can receive orientation information from a computing device accelerometer 114 , and from an input device accelerometer 116 .
  • the orientation module 112 can utilize the orientation information from the respective accelerometers to determine a relative orientation of the devices.
  • the relative orientation for instance, can indicate an angle at which the computing device 102 (e.g., the display device 110 ) is tilted with reference to the input device 104 .
  • Orientation information can be leveraged to perform various tasks, such as determining an appropriate power state for the computing device 102 and/or the input device 104 , determining application states for various applications, and so on.
  • a power state module 118 is included, which is representative of functionality to cause the computing device 102 and/or the input device 104 to operate in various power states. For example, based on different device orientations determined by the orientation module 112 , the power state module 118 can power on, power off, and hibernate the computing device 102 and/or the input device 104 . A variety of other power states are contemplated as well. Different tilt angle ranges, for instance, can be associated with different power states for the computing device 102 and/or the input device 104 .
  • the power state module 118 may also be employed to cause the computing device 102 and/or the input device 104 to transition between power states based on detected vibration, such as detected via the computing device accelerometer 114 and/or the input device accelerometer 116 .
  • vibration can be caused by user contact with the computing device 102 and/or the input device 104 .
  • a user can touch the display device 110 and/or a track pad 120 to initiate waking the computing device 102 and/or the input device 104 from a sleep mode.
  • Vibration may also be caused by other forms of contact, such as a user bumping the device and/or a surface on which the device is situated.
  • techniques can be implemented to differentiate between wake events (e.g., a user touching a key and/or the track pad 120 ), and non-wake events, such as incidental contact with a device.
  • the computing device 102 can be rotated to assume different orientations with respect to the input device 104 .
  • the computing device 102 can be rotated to a closed position, where the input device 104 covers the display device 110 .
  • An example technique for detecting when the computing device is in a closed position utilizes a first sensing portion 122 and a second sensing portion 124 .
  • the first sensing portion 122 is positioned on a region of the computing device 102 , such as underneath an external surface near the edge of the computing device 102 .
  • the second sensing portion 124 can be positioned underneath an external surface near an edge of the input device 104 .
  • the first sensing portion 122 and the second sensing portion 124 form a sensing mechanism that can detect when the computing device 102 is in a closed position.
  • the sensing mechanism can leverage the Hall effect to utilize magnetic force to detect proximity between the computing device 102 and the input device 104 .
  • the first sensing portion 122 can include a Hall effect sensor and the second sensing portion 124 can include a magnet.
  • the first sensing portion 122 can align with the second sensing portion 124 such that the Hall effect sensor in the first sensing portion 122 detects the magnet in the second sensing portion 124 .
  • the first sensing portion 122 can indicate to various functionalities that the computing device 102 is in a closed position, such as to the orientation module 112 , the power state module 118 , and so forth.
  • the first sensing portion 122 When the computing device 102 is positioned away from the input device 104 , the first sensing portion 122 does not detect the second sensing portion 124 . Thus, the first sensing portion 122 can indicate to various functionalities that the computing device 102 is in an open position.
  • FIG. 2 depicts an example implementation 200 of the input device 104 of FIG. 1 as showing the flexible hinge 106 in greater detail.
  • a connection portion 202 of the input device is shown that is configured to provide a communicative and physical connection between the input device 104 and the computing device 102 .
  • the connection portion 202 as illustrated has a height and cross section configured to be received in a channel in the housing of the computing device 102 , although this arrangement may also be reversed without departing from the spirit and scope thereof.
  • connection portion 202 is flexibly connected to a portion of the input device 104 that includes the keys through use of the flexible hinge 106 .
  • connection portion 202 when the connection portion 202 is physically connected to the computing device the combination of the connection portion 202 and the flexible hinge 106 supports movement of the input device 104 in relation to the computing device 102 that is similar to a hinge of a book.
  • connection portion 202 is illustrated in this example as including magnetic coupling devices 204 , 206 , mechanical coupling protrusions 208 , 210 , and communication contacts 212 .
  • the magnetic coupling devices 204 , 206 are configured to magnetically couple to complementary magnetic coupling devices of the computing device 102 through use of one or more magnets. In this way, the input device 104 may be physically secured to the computing device 102 through use of magnetic attraction.
  • connection portion 202 also includes mechanical coupling protrusions 208 , 210 to form a mechanical physical connection between the input device 104 and the computing device 102 .
  • the communication contacts 212 are configured to contact corresponding communication contacts of the computing device 102 to form a communicative coupling between the devices as shown.
  • FIG. 3 illustrates that the input device 104 may be rotated such that the input device 104 is placed against the display device 110 of the computing device 102 to assume an orientation 300 .
  • the input device 104 may act as a cover such that the input device 104 can protect the display device 110 from harm.
  • the orientation 300 can correspond to a closed position of the computing device 102 .
  • the first sensing portion 122 can detect the proximity of the second sensing portion 124 .
  • the first sensing portion 122 can indicate to various functionalities that the computing device 102 is in a closed position.
  • the power state module 118 can determine that the computing device 102 is in a closed position, and can cause the computing device 102 to transition to a closed power state.
  • various functionalities can be powered off and/or hibernated, such as the input device 104 , the display device 110 , and so on.
  • FIG. 4 illustrates that the input device 104 has rotated away from the computing device 102 such that the computing device assumes an orientation 400 .
  • the orientation 400 includes a gap 402 that is introduced between the computing device 102 and the input device 104 .
  • the orientation 400 can be caused unintentionally by a user, such as by inadvertent contact with the computing device 102 and/or the input device 104 that causes the computing device 102 to sag slightly away from the input device 104 such that the gap 402 is introduced.
  • the first sensing portion 122 may not detect the proximity of the second sensing portion 124 .
  • the distance between the first sensing portion 122 and the second sensing portion 124 introduced by the gap 402 may be such that the first sensing portion 122 does not detect the second sensing portion 124 .
  • the computing device accelerometer 114 can determine an angle at which the computing device 102 is oriented relative to earth's surface.
  • the input device accelerometer 116 can determine an angle at which the input device 104 is oriented relative to earth's surface. As detailed below, these two angles can be compared to determine an angle of orientation of the computing device 102 relative to the input device 104 .
  • the computing device 102 is oriented at an angle 404 relative to the input device 104 .
  • the angle 404 can be determined to be approximately 4 degrees. While in the orientation 400 the computing device 102 has rotated slightly to the angle 404 , the computing device 102 may nonetheless be considered to be in a closed position for purposes of determining an appropriate power state.
  • the angle 404 may be considered to be within an angle range that corresponds to a closed position for the computing device 102 .
  • an angle range of 0 degrees-30 degrees can correspond to a closed position.
  • a closed position can correspond to a closed power state in which various functionalities can be powered off and/or hibernated.
  • FIG. 5 illustrates an example orientation 500 of the computing device 102 .
  • the input device 104 is laid flat against a surface and the computing device 102 is disposed at an angle to permit viewing of the display device 110 , e.g., such as through use of a kickstand 502 disposed on a rear surface of the computing device 102 .
  • the orientation 500 can correspond to a typing arrangement whereby input can be received via the input device 104 , such as using keys of the keyboard, the track pad 120 , and so forth.
  • the computing device 102 is oriented at an angle 504 relative to the input device 104 .
  • the angle 504 can be determined to be approximately 115 degrees.
  • the angle 504 may be considered to be within an angle range that corresponds to a typing position for the computing device 102 .
  • an angle range of 31 degrees-180 degrees can correspond to a typing position.
  • the computing device 102 and/or the input device 104 can placed in a typing power state. In the typing power state, the input device 104 and the computing device 102 can be powered on, such that input can be provided to the computing device 102 via the input device 104 .
  • FIG. 6 illustrates a further example orientation of the computing device 102 , generally at 600 .
  • the computing device 102 is oriented such that the display device 110 faces away from the input device 104 .
  • the kickstand 502 can support the computing device 102 , such as via contact with a back surface of the input device 104 .
  • a cover can be employed to cover and protect a front surface of the input device 104 .
  • the display device 110 of the computing device 102 is determined to be oriented at an angle 602 relative to the input device 104 .
  • the angle 602 can be determined to be approximately 295 degrees.
  • the angle 602 may be considered to be within an angle range that corresponds to a viewing position for the computing device 102 .
  • an angle range of 200 degrees-360 degrees can correspond to a viewing position.
  • the orientation 600 can enable easy access to and/or viewing of the display device 110 , such as for viewing content, providing touch input to the computing device 102 , and so forth.
  • the computing device 102 and/or the input device 104 can placed in a viewing power state.
  • the computing device 102 can be powered on, and the input device 104 can be powered off or hibernated.
  • battery power that would be used to power the input device 104 can be conserved, while enabling interaction and/or viewing of the display device 110 of the computing device 102 .
  • FIG. 7 illustrates an example orientation 700 , in which the input device 104 may also be rotated so as to be disposed against a back of the computing device 102 , e.g., against a rear housing of the computing device 102 that is disposed opposite the display device 110 on the computing device 102 .
  • the flexible hinge 106 is caused to “wrap around” the connection portion 202 to position the input device 104 at the rear of the computing device 102 .
  • This wrapping causes a portion of a rear of the computing device 102 to remain exposed. This may be leveraged for a variety of functionality, such as to permit a camera 702 positioned on the rear of the computing device 102 to be used even though a significant portion of the rear of the computing device 102 is covered by the input device 104 in the example orientation 700 .
  • the display device 110 of the computing device 102 is determined to be oriented at an angle 704 relative to the input device 104 .
  • the angle 704 can be determined to be approximately 360 degrees.
  • the angle 704 may be considered to be within the angle range (referenced above) that corresponds to a viewing position such that the computing device 102 is in a viewing power state.
  • a viewing power state can enable viewing of and/or interaction with the display device 110 , while powering off or hibernating the input device 104 .
  • the camera 702 can be powered on such that photos can be captured while the computing device is in the viewing power state.
  • FIG. 8 illustrates a further example orientation of the computing device 102 , generally at 800 .
  • the computing device 102 is rotated sideways, e.g., in a portrait orientation relative to a surface 802 on which the computing device 102 is disposed.
  • the display device 110 is visible, with the input device 104 rotated away from the display device 110 .
  • a width of the input device 104 can be narrower than a width of the computing device 102 .
  • the width of the input device 104 can be tapered such that the edge closest to the hinge 106 is wider than the outermost edge. This can enable the face of the display device 110 to recline back in the orientation 800 , to provide for a suitable viewing angle.
  • techniques discussed herein can determine that the computing device 102 is disposed in the orientation 800 .
  • the computing device accelerometer 114 and/or the input device accelerometer 116 can determine that the computing device 102 and/or the input device 104 are rotated to the orientation 800 .
  • a screen orientation for the display device 110 can be rotated 90 degrees, e.g., to a portrait viewing mode.
  • the computing device 102 can be placed in a viewing power state.
  • a viewing power state can enable viewing of and/or interaction with the display device 110 , while powering off or hibernating the input device 104 .
  • FIG. 9 illustrates that the computing device 102 may be rotated within a variety of different angle ranges with respect to the input device 104 .
  • different angle ranges can be associated with different power states, different application states, and so on.
  • An angle range 900 is illustrated, which corresponds to a closed position for the computing device 102 .
  • the computing device 102 can be determined to be in a closed position.
  • a closed position can include an associated closed power state where various functionalities can be powered off and/or hibernated, such as the input device 104 , the display device 110 , and so on.
  • an angle range 902 which corresponds to a typing orientation for the computing device 102 .
  • the computing device 102 can be determined to be in a typing orientation.
  • the computing device 102 and/or the input device 104 can placed in a typing power state where the input device 104 and the computing device 102 can be powered on, such that input can be provided to the computing device 102 via the input device 104 , touch input to the display device 100 , and so forth.
  • FIG. 9 further illustrates an angle range 904 , which corresponds to a viewing position for the computing device 102 .
  • the computing device 102 can be determined to be in a viewing orientation. In this orientation, the computing device 102 and/or the input device 104 can placed in a viewing power state such that the computing device 102 can be powered on, and the input device 104 can be powered off or hibernated.
  • orientations, angle ranges, power states, and so forth discussed above are presented for purposes of illustration only. It is contemplated that a wide variety of different orientations, power states, and angle ranges may be implemented within the spirit and scope of the claimed embodiments.
  • FIG. 10 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • the method can be employed to determine an orientation of a computing device with respect to an input device.
  • Step 1000 ascertains a gravitational orientation of a computing device. For example, an orientation of the computing device accelerometer 114 relative to earth's gravity (e.g., the gravitational vector) can be determined. In implementations, this can include determining an angle at which an axis of the computing device accelerometer 114 is oriented with reference to earth's gravity.
  • an orientation of the computing device accelerometer 114 relative to earth's gravity e.g., the gravitational vector
  • Step 1002 ascertains a gravitational orientation of an input device. For example, an orientation of the input device accelerometer 116 relative to earth's gravity can be determined. In implementations, this can include determining an angle at which an axis of the input device accelerometer 116 is oriented with reference to earth's gravity.
  • Step 1004 determines an orientation of the computing device relative to the input device by comparing the gravitational orientation of the computing device with the gravitational orientation of the input device. For example, an angle at which the computing device is oriented relative to gravity can be compared to angle at which the input device is oriented relative to gravity, to determine an angle at which the computing device is oriented relative to the input device.
  • (theta) between the computing device and the input device.
  • can be determined using the equation
  • FIG. 11 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • Step 1100 ascertains an orientation of a computing device relative to an input device.
  • an orientation can include an angle at which a computing device is oriented with reference to an input device, and vice-versa.
  • Step 1102 determines a power state based on the orientation.
  • the power state can be determined for the computing device, the input device, and/or other devices that are operably associated with the computing device. Examples of different power states are discussed above.
  • Step 1104 determines an application state based on the orientation. For example, a particular functionality of an application can be enabled or disabled based on a particular orientation. In implementations, steps 1102 and 1104 can occur together, sequentially, alternatively, and so on.
  • the application state can be determined from a group of applications states that can be applied to the application while the application is running on the computing device.
  • the application can include different operational states, at least some of which depend on device orientation. For example, consider a scenario including an application that enables a user to play a digital piano via a computing device.
  • An input device that is operably attached to the computing device can include keys that can be pressed to play different musical notes of a piano.
  • the application can enable functionality to receive input from the input device to play musical notes.
  • the application can disable functionality for receiving input from the input device. For instance, in the orientation 700 discussed above, the input device 104 is powered off or hibernated. Thus, in this orientation, the example application can disable functionality for receiving input via the input device 104 . Further, the application can enable other functionality for receiving input, such as presenting visual piano keys that can be displayed via the display device 110 and that can receive touch input from a user for playing the digital piano.
  • the input device can be configured as a game controller.
  • a game application can enable and disable particular game-related functionalities based on an orientation of the computing device and/or the input device.
  • techniques enable transitions between power states in response to detected touch interactions. For example, vibrations that result from touch interaction can be detected to trigger certain events.
  • FIG. 12 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • Step 1200 monitors for vibrations in a device that is in a low power state.
  • the monitoring for instance, can occur in a low power state for the computing device 102 (e.g., a sleep mode) in which various functionalities are powered off and/or hibernated, such as the keyboard and track pad 120 of the input device 104 , processors and/or the display device 110 of the computing device 102 , and so forth.
  • the computing device accelerometer 114 and/or the input device accelerometer 116 can be powered on to detect vibrations.
  • Step 1202 detects a vibration on the device.
  • the computing device accelerometer 114 and/or the input device accelerometer 116 can detect a vibration.
  • a vibration can be caused by other forms of contact with a device, such as a user bumping the device, a user bumping a surface on which the device is situated, and so on.
  • Step 1204 ascertains whether the vibration exceeds a vibration threshold.
  • a vibration threshold can be specified in terms of a suitable measurement, such as in meters per second squared (“g”), hertz (“Hz”), and so on.
  • a vibration may be detected, for instance, as N number of zero-crossings and N+1 values greater than a threshold of the readings from an accelerometer within a certain amount of time T. For example, if the readings from the accelerometer are +1 g, then ⁇ 1 g, and then +1 g within 5 ms, this may be considered a single bump or vibration event. These are examples only, and any specific value may be used according to the specific implementation.
  • step 1206 powers on a touch functionality.
  • a touch functionality includes a functionality that is configured to receive touch input. Examples of a touch functionality include a track pad (e.g., the track pad 120 ), a touch screen (e.g., the display device 110 ), a capacitive touch device, a keyboard for the input device 104 , and so on.
  • an accelerometer that detects the vibration can notify a device processor, which can cause power to be supplied to the touch functionality.
  • the touch functionality can be in a power off mode, such as a hibernation mode. Thus, in response to detecting the vibration, the touch functionality can be powered on.
  • Step 1208 determines whether touch input is received via the touch functionality. For example, the touch functionality can be queried to determine whether touch input is received. If touch input is not received (“No”), step 1210 powers off the touch functionality. For instance, if the touch functionality indicates that touch input is not received, the touch functionality can be powered off. As referenced above, a vibration can result from other forms of contact with a device besides touch input to an input functionality, such as a user accidentally bumping the device. In at least some implementations, the method can return to step 1200 .
  • step 1212 causes the device to transition to a different power state.
  • the device can transition from the low power state to a powered state.
  • Examples of a powered state include the typing and viewing power states discussed above.
  • the different power state can cause various functionalities to be powered on, such as processors of the computing device 102 , the display device 110 , the input device 104 , and so on.
  • the method described in FIG. 12 can enable a touch functionality that consumes more power (e.g., a capacitive sensing functionality) to remain in a low power mode, while a functionality that consumes relatively less power can remain powered on to detect vibrations associated with a possible touch interaction. If a vibration is detected, the touch functionality can be powered on to determine whether the vibration was caused by touch input to the touch functionality, e.g., by a user that wishes to wake a device from a low power mode.
  • a touch functionality that consumes more power (e.g., a capacitive sensing functionality) to remain in a low power mode
  • a functionality that consumes relatively less power can remain powered on to detect vibrations associated with a possible touch interaction. If a vibration is detected, the touch functionality can be powered on to determine whether the vibration was caused by touch input to the touch functionality, e.g., by a user that wishes to wake a device from a low power mode.
  • a lower power functionality e.g., an accelerometer
  • a functionality that consumes more power e.g., a touch functionality
  • a confirmation mechanism to determine whether a detected vibration is a result of touch input, or some other event.
  • FIG. 13 illustrates an example system generally at 1300 that includes an example computing device 1302 that is representative of one or more computing systems and/or devices that may implement the various techniques described herein.
  • the computing device 1302 may be, for example, be configured to assume a mobile configuration through use of a housing formed and size to be grasped and carried by one or more hands of a user, illustrated examples of which include a mobile phone, mobile game and music device, and tablet computer although other examples are also contemplated.
  • the example computing device 1302 as illustrated includes a processing system 1304 , one or more computer-readable media 1306 , and one or more I/O interface 1308 that are communicatively coupled, one to another.
  • the computing device 1302 may further include a system bus or other data and command transfer system that couples the various components, one to another.
  • a system bus can include any one or combination of different bus structures, such as a memory bus or memory controller, a peripheral bus, a universal serial bus, and/or a processor or local bus that utilizes any of a variety of bus architectures.
  • a variety of other examples are also contemplated, such as control and data lines.
  • the processing system 1304 is representative of functionality to perform one or more operations using hardware. Accordingly, the processing system 1304 is illustrated as including hardware element 1310 that may be configured as processors, functional blocks, and so forth. This may include implementation in hardware as an application specific integrated circuit or other logic device formed using one or more semiconductors.
  • the hardware elements 1310 are not limited by the materials from which they are formed or the processing mechanisms employed therein.
  • processors may be comprised of semiconductor(s) and/or transistors (e.g., electronic integrated circuits (ICs)).
  • processor-executable instructions may be electronically-executable instructions.
  • the computer-readable storage media 1306 is illustrated as including memory/storage 1312 .
  • the memory/storage 1312 represents memory/storage capacity associated with one or more computer-readable media.
  • the memory/storage component 1312 may include volatile media (such as random access memory (RAM)) and/or nonvolatile media (such as read only memory (ROM), Flash memory, optical disks, magnetic disks, and so forth).
  • the memory/storage component 1312 may include fixed media (e.g., RAM, ROM, a fixed hard drive, and so on) as well as removable media (e.g., Flash memory, a removable hard drive, an optical disc, and so forth).
  • the computer-readable media 1306 may be configured in a variety of other ways as further described below.
  • Input/output interface(s) 1308 are representative of functionality to allow a user to enter commands and information to computing device 1302 , and also allow information to be presented to the user and/or other components or devices using various input/output devices.
  • input devices include a keyboard, a cursor control device (e.g., a mouse), a microphone, a scanner, touch functionality (e.g., capacitive or other sensors that are configured to detect physical touch), a camera (e.g., which may employ visible or non-visible wavelengths such as infrared frequencies to recognize movement as gestures that do not involve touch), and so forth.
  • Examples of output devices include a display device (e.g., a monitor or projector), speakers, a printer, a network card, tactile-response device, and so forth.
  • the computing device 1302 may be configured in a variety of ways to support user interaction.
  • the computing device 1302 is further illustrated as being communicatively and physically coupled to an input device 1314 that is physically and communicatively removable from the computing device 1302 .
  • an input device 1314 that is physically and communicatively removable from the computing device 1302 .
  • the input device 1314 includes one or more keys 1316 , which may be configured as pressure sensitive keys, mechanically switched keys, and so forth.
  • the input device 1314 is further illustrated as include one or more modules 1318 that may be configured to support a variety of functionality.
  • the one or more modules 1318 may be configured to process analog and/or digital signals received from the keys 1316 to determine whether a keystroke was intended, determine whether an input is indicative of resting pressure, support authentication of the input device 1314 for operation with the computing device 1302 , and so on.
  • modules include routines, programs, objects, elements, components, data structures, and so forth that perform particular tasks or implement particular abstract data types.
  • module generally represent software, firmware, hardware, or a combination thereof.
  • the features of the techniques described herein are platform-independent, meaning that the techniques may be implemented on a variety of commercial computing platforms having a variety of processors.
  • Techniques may further be implemented in a network environment, such as utilizing various cloud-based resources. For instance, methods, procedures, and so forth discussed above may leverage network resources to enable various functionalities.
  • Computer-readable media may include a variety of media that may be accessed by the computing device 1302 .
  • computer-readable media may include “computer-readable storage media” and “computer-readable signal media.”
  • Computer-readable storage media may refer to media and/or devices that enable persistent and/or non-transitory storage of information in contrast to mere signal transmission, carrier waves, or signals per se. Thus, computer-readable storage media refers to non-signal bearing media.
  • the computer-readable storage media includes hardware such as volatile and non-volatile, removable and non-removable media and/or storage devices implemented in a method or technology suitable for storage of information such as computer readable instructions, data structures, program modules, logic elements/circuits, or other data.
  • Examples of computer-readable storage media may include, but are not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disks (DVD) or other optical storage, hard disks, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or other storage device, tangible media, or article of manufacture suitable to store the desired information and which may be accessed by a computer.
  • Computer-readable signal media may refer to a signal-bearing medium that is configured to transmit instructions to the hardware of the computing device 1302 , such as via a network.
  • Signal media typically may embody computer readable instructions, data structures, program modules, or other data in a modulated data signal, such as carrier waves, data signals, or other transport mechanism.
  • Signal media also include any information delivery media.
  • modulated data signal means a signal that has one or more of its characteristics set or changed in such a manner as to encode information in the signal.
  • communication media include wired media such as a wired network or direct-wired connection, and wireless media such as acoustic, RF, infrared, and other wireless media.
  • hardware elements 1310 and computer-readable media 1306 are representative of modules, programmable device logic and/or fixed device logic implemented in a hardware form that may be employed in some embodiments to implement at least some aspects of the techniques described herein, such as to perform one or more instructions.
  • Hardware may include components of an integrated circuit or on-chip system, an application-specific integrated circuit (ASIC), a field-programmable gate array (FPGA), a complex programmable logic device (CPLD), and other implementations in silicon or other hardware.
  • ASIC application-specific integrated circuit
  • FPGA field-programmable gate array
  • CPLD complex programmable logic device
  • hardware may operate as a processing device that performs program tasks defined by instructions and/or logic embodied by the hardware as well as a hardware utilized to store instructions for execution, e.g., the computer-readable storage media described previously.
  • software, hardware, or executable modules may be implemented as one or more instructions and/or logic embodied on some form of computer-readable storage media and/or by one or more hardware elements 1310 .
  • the computing device 1302 may be configured to implement particular instructions and/or functions corresponding to the software and/or hardware modules. Accordingly, implementation of a module that is executable by the computing device 1302 as software may be achieved at least partially in hardware, e.g., through use of computer-readable storage media and/or hardware elements 1310 of the processing system 1304 .
  • the instructions and/or functions may be executable/operable by one or more articles of manufacture (for example, one or more computing devices 1302 and/or processing systems 1304 ) to implement techniques, modules, and examples described herein.
  • aspects of the methods may be implemented in hardware, firmware, or software, or a combination thereof.
  • the methods are shown as a set of blocks that specify operations performed by one or more devices and are not necessarily limited to the orders shown for performing the operations by the respective blocks. Further, an operation shown with respect to a particular method may be combined and/or interchanged with an operation of a different method in accordance with one or more implementations. Aspects of the methods can be implemented via interaction between various entities discussed above with reference to the environment 100 .

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Abstract

Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. In one or more implementations, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states.

Description

    RELATED APPLICATIONS
  • This application claims priority under 35 U.S.C. §119(e) to the following U.S. Provisional Patent Applications, the entire disclosures of each of these applications being incorporated by reference in their entirety:
    • U.S. Provisional Patent Application No. 61/606,321, filed Mar. 2, 2012, Attorney Docket Number 336082.01, and titled “Screen Edge;”
    • U.S. Provisional Patent Application No. 61/606,301, filed Mar. 2, 2012, Attorney Docket Number 336083.01, and titled “Input Device Functionality;”
    • U.S. Provisional Patent Application No. 61/606,311, filed Mar. 2, 2012, Attorney Docket Number 336084.01, and titled “Functional Hinge;”
    • U.S. Provisional Patent Application No. 61/606,333, filed Mar. 2, 2012, Attorney Docket Number 336086.01, and titled “Usage and Authentication;”
    • U.S. Provisional Patent Application No. 61/606,336, filed Mar. 2, 2012, Attorney Docket Number 336087.01, and titled “Kickstand and Camera;” and
    • U.S. Provisional Patent Application No. 61/607,451, filed Mar. 6, 2012, Attorney Docket Number 336143.01, and titled “Spanaway Provisional.”
    BACKGROUND
  • Mobile computing devices have been developed to increase the functionality that is made available to users in a mobile setting. For example, a user may interact with a mobile phone, tablet computer, or other mobile computing device to check email, surf the web, compose texts, interact with applications, and so on.
  • Because mobile computing devices are configured to be mobile, the devices typically include some type of battery that serves as a mobile source of power for the devices. A limitation associated with utilizing battery power is that a battery has a limited effective charge life. When a battery charge for a mobile computing device is depleted, the battery is recharged or replaced in order to maintain operability of the device. Thus, to extend battery usage life, managing power consumption of mobile computing devices is an important consideration.
  • SUMMARY
  • This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
  • Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. For example, the computing device and the input device can be positioned at different respective tilt angles. Techniques can determine a tilt angle between the computing device and the input device, and can determine a particular power state for the computing device and/or the input device based on the tilt angle. For example, different tilt angle ranges can correspond to different power states.
  • In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. For example, a particular functionality of an application can be enabled or disabled based on a tilt angle between the computing device and the input device. Thus, different tilt angle ranges can correspond to different application states.
  • In one or more implementations, techniques can cause a computing device to transition between power states in response to detected vibrations. For example, a vibration detection mechanism (e.g., an accelerometer) associated with a computing device in a low power mode can detect vibration of the computing device and/or of an input device coupled to the computing device. The vibration, for instance, may be caused by user input to a touch functionality of the computing device, such as a touch screen of the computing device, a track pad of a coupled input device, and so on. Alternatively, the vibration can be caused by some other contact with the computing device, such as a result of inadvertent bumping of the computing device by a user, vibration of a table or other surface on which the computing device is resting, and so on. Thus, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • The detailed description is described with reference to the accompanying figures. In the figures, the left-most digit(s) of a reference number identifies the figure in which the reference number first appears. The use of the same reference numbers in different instances in the description and the figures may indicate similar or identical items. Entities represented in the figures may be indicative of one or more entities and thus reference may be made interchangeably to single or plural forms of the entities in the discussion.
  • FIG. 1 is an illustration of an environment in an example implementation that is operable to employ the techniques described herein.
  • FIG. 2 depicts an example implementation of an input device of FIG. 1 as showing a flexible hinge in greater detail.
  • FIG. 3 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 4 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 5 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 6 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 7 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 8 depicts an example orientation of the input device in relation to the computing device in accordance with one or more embodiments.
  • FIG. 9 depicts some example rotational orientations of the computing device in relation to the input device in accordance with one or more embodiments.
  • FIG. 10 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • FIG. 11 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • FIG. 12 is a flow diagram that describes steps in a method in accordance with one or more embodiments.
  • FIG. 13 illustrates an example system including various components of an example device that can be implemented as any type of computing device as described with reference to FIGS. 1-12 to implement embodiments of the techniques described herein.
  • DETAILED DESCRIPTION
  • Overview
  • Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Examples of an input device include a keyboard, a touch pad, combinations of a keyboard and touch pad, and so on. The computing device includes a display device (e.g., a display surface) and has independent operability separate from the input device, such as for outputting content, receiving touch input, and so on. The input device thus provides a mechanism for providing input to the computing device, but the computing device is also operable to provide functionality independent of the input device.
  • In one or more implementations, a computing device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. For example, the computing device and the input device can be positioned at different respective tilt angles. Techniques can determine a tilt angle between the computing device and the input device, and can determine a particular power state for the computing device and/or the input device based on the tilt angle. For example, different tilt angle ranges can correspond to different device power states.
  • In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. For example, a particular functionality of an application can be enabled or disabled based on a tilt angle between the computing device and the input device. Thus, different tilt angle ranges can correspond to different application states.
  • In one or more implementations, techniques can cause a computing device to transition between power states in response to detected vibrations. For example, a vibration detection mechanism (e.g., an accelerometer) associated with a computing device in a low power mode can detect vibration of the computing device and/or of an input device coupled to the computing device. The vibration, for instance, may be caused by user input to a touch functionality associated with the computing device, such as a touch screen of the computing device, a track pad of a coupled input device, and so on. Alternatively, the vibration can be caused by some other contact with the computing device, such as a result of inadvertent bumping of the computing device by a user, vibration of a table or other surface on which the computing device is resting, and so on.
  • In response to the detected vibration, techniques can query a functionality of the computing device to determine whether the vibration was caused by touch input from a user. For example, a capacitive touch input mechanism (e.g., a track pad, a touch screen, and so forth) can be powered on and queried to determine whether the mechanism is receiving touch input from a user. Touch input, for instance, can indicate intent from a user to cause the computing device to transition from a low power (e.g., sleep) mode, to a functional mode.
  • If the mechanism indicates that it is receiving touch input, the computing device can wake from the low power mode. Absent an indication of touch input, the computing device can remain in a low power state. Thus, techniques can utilize a sensing mechanism that consumes less power to detect vibration of a computing device, and can utilize a mechanism that consumes more power (e.g., a capacitive touch sensor) to ascertain whether the vibration resulted from touch input. This can enable a sensing mechanism that consumes more power to remain in a low power state (e.g., an off state) unless queried to confirm the presence of touch input, thus reducing power consumption by a computing device.
  • In the following discussion, an example environment is first described that may employ techniques described herein. Next, a section entitled “Example Device Orientations” describes some example mobile device orientations in accordance with one or more embodiments. Following this, example procedures are described which may be performed in the example environment as well as other environments. Consequently, performance of the example procedures is not limited to the example environment and the example environment is not limited to performance of the example procedures. Next, a section entitled “Touch Initiated Power State Transition” describes example embodiments for transitioning between power states based on touch input. Finally, an example system and device are described in which embodiments may be implemented in accordance with one or more embodiments. Further, although an input device is described, other devices are also contemplated that do not include input functionality, such as covers.
  • Example Environment
  • FIG. 1 is an illustration of an environment 100 in an example implementation that is operable to employ techniques described herein. The illustrated environment 100 includes an example of a computing device 102 that is physically and communicatively coupled to an input device 104 via a flexible hinge 106. The computing device 102 may be configured in a variety of ways. For example, the computing device 102 may be configured for mobile use, such as a mobile phone, a tablet computer as illustrated, and so on. Thus, the computing device 102 may range from full resource devices with substantial memory and processor resources to a low-resource device with limited memory and/or processing resources. The computing device 102 may also relate to software that causes the computing device 102 to perform one or more operations.
  • The computing device 102, for instance, is illustrated as including an input/output module 108. The input/output module 108 is representative of functionality relating to processing of inputs and rendering outputs of the computing device 102. A variety of different inputs may be processed by the input/output module 108, such as inputs relating to functions that correspond to keys of the input device 104, keys of a virtual keyboard displayed by a display device 110 to identify gestures and cause operations to be performed that correspond to the gestures that may be recognized through the input device 104 and/or touchscreen functionality of the display device 110, and so forth. Thus, the input/output module 108 may support a variety of different input techniques by recognizing and leveraging a division between types of inputs including key presses, gestures, and so on.
  • In the illustrated example, the input device 104 is configured as having an input portion that includes a keyboard having a QWERTY arrangement of keys and track pad although other arrangements of keys are also contemplated. Further, other non-conventional configurations are also contemplated, such as a game controller, configuration to mimic a musical instrument, and so forth. Thus, the input device 104 and keys incorporated by the input device 104 may assume a variety of different configurations to support a variety of different functionality.
  • As previously described, the input device 104 is physically and communicatively coupled to the computing device 102 in this example through use of a flexible hinge 106. The flexible hinge 106 is flexible in that rotational movement supported by the hinge is achieved through flexing (e.g., bending) of the material forming the hinge as opposed to mechanical rotation as supported by a pin, although that embodiment is also contemplated. Further, this flexible rotation may be configured to support movement in one or more directions (e.g., vertically in the figure) yet restrict movement in other directions, such as lateral movement of the input device 104 in relation to the computing device 102. This may be used to support consistent alignment of the input device 104 in relation to the computing device 102, such as to align sensors used to change power states, application states, and so on.
  • The flexible hinge 106, for instance, may be formed using one or more layers of fabric and include conductors formed as flexible traces to communicatively couple the input device 104 to the computing device 102 and vice versa. This communication, for instance, may be used to communicate a result of a key press to the computing device 102, receive power from the computing device, perform authentication, provide supplemental power to the computing device 102, and so on. The flexible hinge 106 may be configured in a variety of ways, further discussion of which may be found in relation to the figures discussed below.
  • The computing device 102 further includes an orientation module 112, which is representative of functionality to determine a positional orientation of the computing device 102 relative to the input device 104. For example, the orientation module 112 can receive orientation information from a computing device accelerometer 114, and from an input device accelerometer 116. The orientation module 112 can utilize the orientation information from the respective accelerometers to determine a relative orientation of the devices. The relative orientation, for instance, can indicate an angle at which the computing device 102 (e.g., the display device 110) is tilted with reference to the input device 104. Orientation information can be leveraged to perform various tasks, such as determining an appropriate power state for the computing device 102 and/or the input device 104, determining application states for various applications, and so on.
  • A power state module 118 is included, which is representative of functionality to cause the computing device 102 and/or the input device 104 to operate in various power states. For example, based on different device orientations determined by the orientation module 112, the power state module 118 can power on, power off, and hibernate the computing device 102 and/or the input device 104. A variety of other power states are contemplated as well. Different tilt angle ranges, for instance, can be associated with different power states for the computing device 102 and/or the input device 104.
  • The power state module 118 may also be employed to cause the computing device 102 and/or the input device 104 to transition between power states based on detected vibration, such as detected via the computing device accelerometer 114 and/or the input device accelerometer 116. Such vibration can be caused by user contact with the computing device 102 and/or the input device 104. For example, a user can touch the display device 110 and/or a track pad 120 to initiate waking the computing device 102 and/or the input device 104 from a sleep mode. Vibration may also be caused by other forms of contact, such as a user bumping the device and/or a surface on which the device is situated. As discussed in detail below, techniques can be implemented to differentiate between wake events (e.g., a user touching a key and/or the track pad 120), and non-wake events, such as incidental contact with a device.
  • As referenced above, the computing device 102 can be rotated to assume different orientations with respect to the input device 104. For instance, the computing device 102 can be rotated to a closed position, where the input device 104 covers the display device 110. An example technique for detecting when the computing device is in a closed position utilizes a first sensing portion 122 and a second sensing portion 124. The first sensing portion 122 is positioned on a region of the computing device 102, such as underneath an external surface near the edge of the computing device 102. Similarly, the second sensing portion 124 can be positioned underneath an external surface near an edge of the input device 104. Together, the first sensing portion 122 and the second sensing portion 124 form a sensing mechanism that can detect when the computing device 102 is in a closed position.
  • The sensing mechanism, for instance, can leverage the Hall effect to utilize magnetic force to detect proximity between the computing device 102 and the input device 104. For example, the first sensing portion 122 can include a Hall effect sensor and the second sensing portion 124 can include a magnet. When the computing device 102 is rotated to a closed position, the first sensing portion 122 can align with the second sensing portion 124 such that the Hall effect sensor in the first sensing portion 122 detects the magnet in the second sensing portion 124. The first sensing portion 122 can indicate to various functionalities that the computing device 102 is in a closed position, such as to the orientation module 112, the power state module 118, and so forth. When the computing device 102 is positioned away from the input device 104, the first sensing portion 122 does not detect the second sensing portion 124. Thus, the first sensing portion 122 can indicate to various functionalities that the computing device 102 is in an open position.
  • FIG. 2 depicts an example implementation 200 of the input device 104 of FIG. 1 as showing the flexible hinge 106 in greater detail. In this example, a connection portion 202 of the input device is shown that is configured to provide a communicative and physical connection between the input device 104 and the computing device 102. The connection portion 202 as illustrated has a height and cross section configured to be received in a channel in the housing of the computing device 102, although this arrangement may also be reversed without departing from the spirit and scope thereof.
  • The connection portion 202 is flexibly connected to a portion of the input device 104 that includes the keys through use of the flexible hinge 106. Thus, when the connection portion 202 is physically connected to the computing device the combination of the connection portion 202 and the flexible hinge 106 supports movement of the input device 104 in relation to the computing device 102 that is similar to a hinge of a book.
  • The connection portion 202 is illustrated in this example as including magnetic coupling devices 204, 206, mechanical coupling protrusions 208, 210, and communication contacts 212. The magnetic coupling devices 204, 206 are configured to magnetically couple to complementary magnetic coupling devices of the computing device 102 through use of one or more magnets. In this way, the input device 104 may be physically secured to the computing device 102 through use of magnetic attraction.
  • The connection portion 202 also includes mechanical coupling protrusions 208, 210 to form a mechanical physical connection between the input device 104 and the computing device 102. The communication contacts 212 are configured to contact corresponding communication contacts of the computing device 102 to form a communicative coupling between the devices as shown.
  • Having discussed an example environment in which embodiments may operate, consider now some example device orientations in accordance with one or more embodiments.
  • Example Device Orientations
  • The following discussion presents some example device orientations. As detailed, different device orientations can be associated with different device power states, different application states, and so forth.
  • FIG. 3 illustrates that the input device 104 may be rotated such that the input device 104 is placed against the display device 110 of the computing device 102 to assume an orientation 300. In the orientation 300, the input device 104 may act as a cover such that the input device 104 can protect the display device 110 from harm. In implementations, the orientation 300 can correspond to a closed position of the computing device 102.
  • As referenced above, in a closed position the first sensing portion 122 can detect the proximity of the second sensing portion 124. Thus, the first sensing portion 122 can indicate to various functionalities that the computing device 102 is in a closed position. For example, the power state module 118 can determine that the computing device 102 is in a closed position, and can cause the computing device 102 to transition to a closed power state. In the closed power state, various functionalities can be powered off and/or hibernated, such as the input device 104, the display device 110, and so on.
  • FIG. 4 illustrates that the input device 104 has rotated away from the computing device 102 such that the computing device assumes an orientation 400. The orientation 400 includes a gap 402 that is introduced between the computing device 102 and the input device 104. In implementations, the orientation 400 can be caused unintentionally by a user, such as by inadvertent contact with the computing device 102 and/or the input device 104 that causes the computing device 102 to sag slightly away from the input device 104 such that the gap 402 is introduced.
  • In at least some embodiments, in the orientation 400 the first sensing portion 122 may not detect the proximity of the second sensing portion 124. For example, the distance between the first sensing portion 122 and the second sensing portion 124 introduced by the gap 402 may be such that the first sensing portion 122 does not detect the second sensing portion 124.
  • When the computing device 102 is oriented at an angle relative to the input device 104, such as in the orientation 400, techniques can determine the angle. For example, the computing device accelerometer 114 can determine an angle at which the computing device 102 is oriented relative to earth's surface. Further, the input device accelerometer 116 can determine an angle at which the input device 104 is oriented relative to earth's surface. As detailed below, these two angles can be compared to determine an angle of orientation of the computing device 102 relative to the input device 104.
  • In the example illustrated in FIG. 4, the computing device 102 is oriented at an angle 404 relative to the input device 104. For example, the angle 404 can be determined to be approximately 4 degrees. While in the orientation 400 the computing device 102 has rotated slightly to the angle 404, the computing device 102 may nonetheless be considered to be in a closed position for purposes of determining an appropriate power state. The angle 404, for instance, may be considered to be within an angle range that corresponds to a closed position for the computing device 102. For example, an angle range of 0 degrees-30 degrees can correspond to a closed position. As mentioned above, a closed position can correspond to a closed power state in which various functionalities can be powered off and/or hibernated.
  • FIG. 5 illustrates an example orientation 500 of the computing device 102. In the orientation 500, the input device 104 is laid flat against a surface and the computing device 102 is disposed at an angle to permit viewing of the display device 110, e.g., such as through use of a kickstand 502 disposed on a rear surface of the computing device 102. The orientation 500 can correspond to a typing arrangement whereby input can be received via the input device 104, such as using keys of the keyboard, the track pad 120, and so forth.
  • Further to the example illustrated in FIG. 5, the computing device 102 is oriented at an angle 504 relative to the input device 104. For example, the angle 504 can be determined to be approximately 115 degrees. The angle 504 may be considered to be within an angle range that corresponds to a typing position for the computing device 102. For example, an angle range of 31 degrees-180 degrees can correspond to a typing position. Within this angle range, the computing device 102 and/or the input device 104 can placed in a typing power state. In the typing power state, the input device 104 and the computing device 102 can be powered on, such that input can be provided to the computing device 102 via the input device 104.
  • FIG. 6 illustrates a further example orientation of the computing device 102, generally at 600. In the orientation 600, the computing device 102 is oriented such that the display device 110 faces away from the input device 104. In this example, the kickstand 502 can support the computing device 102, such as via contact with a back surface of the input device 104. Although not expressly illustrated here, a cover can be employed to cover and protect a front surface of the input device 104.
  • Further to the example illustrated in FIG. 6, the display device 110 of the computing device 102 is determined to be oriented at an angle 602 relative to the input device 104. For example, the angle 602 can be determined to be approximately 295 degrees. The angle 602 may be considered to be within an angle range that corresponds to a viewing position for the computing device 102. For example, an angle range of 200 degrees-360 degrees can correspond to a viewing position. The orientation 600 can enable easy access to and/or viewing of the display device 110, such as for viewing content, providing touch input to the computing device 102, and so forth.
  • Within this angle range, the computing device 102 and/or the input device 104 can placed in a viewing power state. In the viewing power state, the computing device 102 can be powered on, and the input device 104 can be powered off or hibernated. Thus, battery power that would be used to power the input device 104 can be conserved, while enabling interaction and/or viewing of the display device 110 of the computing device 102.
  • FIG. 7 illustrates an example orientation 700, in which the input device 104 may also be rotated so as to be disposed against a back of the computing device 102, e.g., against a rear housing of the computing device 102 that is disposed opposite the display device 110 on the computing device 102. In this example, through orientation of the connection portion 202 to the computing device 102, the flexible hinge 106 is caused to “wrap around” the connection portion 202 to position the input device 104 at the rear of the computing device 102.
  • This wrapping causes a portion of a rear of the computing device 102 to remain exposed. This may be leveraged for a variety of functionality, such as to permit a camera 702 positioned on the rear of the computing device 102 to be used even though a significant portion of the rear of the computing device 102 is covered by the input device 104 in the example orientation 700.
  • Further to the example illustrated in FIG. 7, the display device 110 of the computing device 102 is determined to be oriented at an angle 704 relative to the input device 104. For example, the angle 704 can be determined to be approximately 360 degrees. The angle 704, for instance, may be considered to be within the angle range (referenced above) that corresponds to a viewing position such that the computing device 102 is in a viewing power state. As referenced above, a viewing power state can enable viewing of and/or interaction with the display device 110, while powering off or hibernating the input device 104. In the viewing power state, the camera 702 can be powered on such that photos can be captured while the computing device is in the viewing power state.
  • FIG. 8 illustrates a further example orientation of the computing device 102, generally at 800. In the orientation 800, the computing device 102 is rotated sideways, e.g., in a portrait orientation relative to a surface 802 on which the computing device 102 is disposed. The display device 110 is visible, with the input device 104 rotated away from the display device 110. In at least some implementations, a width of the input device 104 can be narrower than a width of the computing device 102. Additionally or alternatively, the width of the input device 104 can be tapered such that the edge closest to the hinge 106 is wider than the outermost edge. This can enable the face of the display device 110 to recline back in the orientation 800, to provide for a suitable viewing angle.
  • Further to the example illustrated in FIG. 8, techniques discussed herein can determine that the computing device 102 is disposed in the orientation 800. For example, the computing device accelerometer 114 and/or the input device accelerometer 116 can determine that the computing device 102 and/or the input device 104 are rotated to the orientation 800. In the orientation 800, a screen orientation for the display device 110 can be rotated 90 degrees, e.g., to a portrait viewing mode. Further, the computing device 102 can be placed in a viewing power state. As referenced above, a viewing power state can enable viewing of and/or interaction with the display device 110, while powering off or hibernating the input device 104.
  • FIG. 9 illustrates that the computing device 102 may be rotated within a variety of different angle ranges with respect to the input device 104. As detailed herein, different angle ranges can be associated with different power states, different application states, and so on.
  • An angle range 900 is illustrated, which corresponds to a closed position for the computing device 102. Thus, if the computing device 102 is positioned at an angle within the angle range 900 relative to the input device 104, the computing device 102 can be determined to be in a closed position. As referenced above, a closed position can include an associated closed power state where various functionalities can be powered off and/or hibernated, such as the input device 104, the display device 110, and so on.
  • Further illustrated is an angle range 902, which corresponds to a typing orientation for the computing device 102. Thus, if the computing device 102 is positioned at an angle within the angle range 902 relative to the input device 104, the computing device 102 can be determined to be in a typing orientation. Within this orientation, the computing device 102 and/or the input device 104 can placed in a typing power state where the input device 104 and the computing device 102 can be powered on, such that input can be provided to the computing device 102 via the input device 104, touch input to the display device 100, and so forth.
  • FIG. 9 further illustrates an angle range 904, which corresponds to a viewing position for the computing device 102. Thus, if the computing device 102 is positioned at an angle within the angle range 904 relative to the input device 104, the computing device 102 can be determined to be in a viewing orientation. In this orientation, the computing device 102 and/or the input device 104 can placed in a viewing power state such that the computing device 102 can be powered on, and the input device 104 can be powered off or hibernated.
  • The orientations, angle ranges, power states, and so forth discussed above are presented for purposes of illustration only. It is contemplated that a wide variety of different orientations, power states, and angle ranges may be implemented within the spirit and scope of the claimed embodiments.
  • Having discussed some example device orientations, consider now some example procedures in accordance with one or more embodiments.
  • Example Procedures
  • FIG. 10 is a flow diagram that describes steps in a method in accordance with one or more embodiments. In at least some embodiments, the method can be employed to determine an orientation of a computing device with respect to an input device.
  • Step 1000 ascertains a gravitational orientation of a computing device. For example, an orientation of the computing device accelerometer 114 relative to earth's gravity (e.g., the gravitational vector) can be determined. In implementations, this can include determining an angle at which an axis of the computing device accelerometer 114 is oriented with reference to earth's gravity.
  • Step 1002 ascertains a gravitational orientation of an input device. For example, an orientation of the input device accelerometer 116 relative to earth's gravity can be determined. In implementations, this can include determining an angle at which an axis of the input device accelerometer 116 is oriented with reference to earth's gravity.
  • Step 1004 determines an orientation of the computing device relative to the input device by comparing the gravitational orientation of the computing device with the gravitational orientation of the input device. For example, an angle at which the computing device is oriented relative to gravity can be compared to angle at which the input device is oriented relative to gravity, to determine an angle at which the computing device is oriented relative to the input device.
  • One example way of determining the orientation is as an angle Θ (theta) between the computing device and the input device. Θ can be determined using the equation
  • Θ = cos - 1 A · B A B ,
  • or the dot product divided by the product of the magnitudes, where A is the gravity vector of the computing device, and B is the gravity vector of the input device. This equation is presented for purpose of example only, and a wide variety of techniques can be employed to determine the orientation of the computing device relative to the input device within the spirit and scope of the claimed embodiments.
  • While techniques are discussed herein with respect to determining relative orientations using accelerometers, a variety of different techniques may be employed to determine orientations within the spirit and scope of the claimed embodiments.
  • FIG. 11 is a flow diagram that describes steps in a method in accordance with one or more embodiments. Step 1100 ascertains an orientation of a computing device relative to an input device. As discussed above, an orientation can include an angle at which a computing device is oriented with reference to an input device, and vice-versa.
  • Step 1102 determines a power state based on the orientation. For example, the power state can be determined for the computing device, the input device, and/or other devices that are operably associated with the computing device. Examples of different power states are discussed above.
  • Step 1104 determines an application state based on the orientation. For example, a particular functionality of an application can be enabled or disabled based on a particular orientation. In implementations, steps 1102 and 1104 can occur together, sequentially, alternatively, and so on.
  • The application state can be determined from a group of applications states that can be applied to the application while the application is running on the computing device. Thus, the application can include different operational states, at least some of which depend on device orientation. For example, consider a scenario including an application that enables a user to play a digital piano via a computing device. An input device that is operably attached to the computing device can include keys that can be pressed to play different musical notes of a piano. Thus, when the input device is disposed in an orientation in which input may be provided via the input device (e.g., the orientation 500 discussed above with reference to FIG. 5), the application can enable functionality to receive input from the input device to play musical notes.
  • When the input device is disposed in a different orientation, however, the application can disable functionality for receiving input from the input device. For instance, in the orientation 700 discussed above, the input device 104 is powered off or hibernated. Thus, in this orientation, the example application can disable functionality for receiving input via the input device 104. Further, the application can enable other functionality for receiving input, such as presenting visual piano keys that can be displayed via the display device 110 and that can receive touch input from a user for playing the digital piano.
  • As another example, the input device can be configured as a game controller. Thus, a game application can enable and disable particular game-related functionalities based on an orientation of the computing device and/or the input device.
  • Touch Initiated Power State Transition
  • In at least some implementations, techniques enable transitions between power states in response to detected touch interactions. For example, vibrations that result from touch interaction can be detected to trigger certain events.
  • FIG. 12 is a flow diagram that describes steps in a method in accordance with one or more embodiments. Step 1200 monitors for vibrations in a device that is in a low power state. The monitoring, for instance, can occur in a low power state for the computing device 102 (e.g., a sleep mode) in which various functionalities are powered off and/or hibernated, such as the keyboard and track pad 120 of the input device 104, processors and/or the display device 110 of the computing device 102, and so forth. In the low power state, the computing device accelerometer 114 and/or the input device accelerometer 116 can be powered on to detect vibrations.
  • Step 1202 detects a vibration on the device. For example, the computing device accelerometer 114 and/or the input device accelerometer 116 can detect a vibration. As referenced above, a variety of different events can cause a device vibration. For instance, a user can provide touch input to a touch functionality to cause the device to wake from a low power mode. Alternatively, a vibration can be caused by other forms of contact with a device, such as a user bumping the device, a user bumping a surface on which the device is situated, and so on.
  • Step 1204 ascertains whether the vibration exceeds a vibration threshold. For example, a vibration threshold can be specified in terms of a suitable measurement, such as in meters per second squared (“g”), hertz (“Hz”), and so on. A vibration may be detected, for instance, as N number of zero-crossings and N+1 values greater than a threshold of the readings from an accelerometer within a certain amount of time T. For example, if the readings from the accelerometer are +1 g, then −1 g, and then +1 g within 5 ms, this may be considered a single bump or vibration event. These are examples only, and any specific value may be used according to the specific implementation.
  • If the vibration does not exceed the vibration threshold (“No”), the method returns to step 1200. If the vibration exceeds the vibration threshold (“Yes”), step 1206 powers on a touch functionality. A touch functionality, for instance, includes a functionality that is configured to receive touch input. Examples of a touch functionality include a track pad (e.g., the track pad 120), a touch screen (e.g., the display device 110), a capacitive touch device, a keyboard for the input device 104, and so on. In at least some implementations, an accelerometer that detects the vibration can notify a device processor, which can cause power to be supplied to the touch functionality. For example, prior to the vibration being detected, the touch functionality can be in a power off mode, such as a hibernation mode. Thus, in response to detecting the vibration, the touch functionality can be powered on.
  • Step 1208 determines whether touch input is received via the touch functionality. For example, the touch functionality can be queried to determine whether touch input is received. If touch input is not received (“No”), step 1210 powers off the touch functionality. For instance, if the touch functionality indicates that touch input is not received, the touch functionality can be powered off. As referenced above, a vibration can result from other forms of contact with a device besides touch input to an input functionality, such as a user accidentally bumping the device. In at least some implementations, the method can return to step 1200.
  • If touch input is received (“Yes”), step 1212 causes the device to transition to a different power state. For example, the device can transition from the low power state to a powered state. Examples of a powered state include the typing and viewing power states discussed above. Thus, the different power state can cause various functionalities to be powered on, such as processors of the computing device 102, the display device 110, the input device 104, and so on.
  • Thus, the method described in FIG. 12 can enable a touch functionality that consumes more power (e.g., a capacitive sensing functionality) to remain in a low power mode, while a functionality that consumes relatively less power can remain powered on to detect vibrations associated with a possible touch interaction. If a vibration is detected, the touch functionality can be powered on to determine whether the vibration was caused by touch input to the touch functionality, e.g., by a user that wishes to wake a device from a low power mode. Thus, a lower power functionality (e.g., an accelerometer) can be employed as a monitoring mechanism, and a functionality that consumes more power (e.g., a touch functionality) can be employed as a confirmation mechanism to determine whether a detected vibration is a result of touch input, or some other event.
  • Example System and Device
  • FIG. 13 illustrates an example system generally at 1300 that includes an example computing device 1302 that is representative of one or more computing systems and/or devices that may implement the various techniques described herein. The computing device 1302 may be, for example, be configured to assume a mobile configuration through use of a housing formed and size to be grasped and carried by one or more hands of a user, illustrated examples of which include a mobile phone, mobile game and music device, and tablet computer although other examples are also contemplated.
  • The example computing device 1302 as illustrated includes a processing system 1304, one or more computer-readable media 1306, and one or more I/O interface 1308 that are communicatively coupled, one to another. Although not shown, the computing device 1302 may further include a system bus or other data and command transfer system that couples the various components, one to another. A system bus can include any one or combination of different bus structures, such as a memory bus or memory controller, a peripheral bus, a universal serial bus, and/or a processor or local bus that utilizes any of a variety of bus architectures. A variety of other examples are also contemplated, such as control and data lines.
  • The processing system 1304 is representative of functionality to perform one or more operations using hardware. Accordingly, the processing system 1304 is illustrated as including hardware element 1310 that may be configured as processors, functional blocks, and so forth. This may include implementation in hardware as an application specific integrated circuit or other logic device formed using one or more semiconductors. The hardware elements 1310 are not limited by the materials from which they are formed or the processing mechanisms employed therein. For example, processors may be comprised of semiconductor(s) and/or transistors (e.g., electronic integrated circuits (ICs)). In such a context, processor-executable instructions may be electronically-executable instructions.
  • The computer-readable storage media 1306 is illustrated as including memory/storage 1312. The memory/storage 1312 represents memory/storage capacity associated with one or more computer-readable media. The memory/storage component 1312 may include volatile media (such as random access memory (RAM)) and/or nonvolatile media (such as read only memory (ROM), Flash memory, optical disks, magnetic disks, and so forth). The memory/storage component 1312 may include fixed media (e.g., RAM, ROM, a fixed hard drive, and so on) as well as removable media (e.g., Flash memory, a removable hard drive, an optical disc, and so forth). The computer-readable media 1306 may be configured in a variety of other ways as further described below.
  • Input/output interface(s) 1308 are representative of functionality to allow a user to enter commands and information to computing device 1302, and also allow information to be presented to the user and/or other components or devices using various input/output devices. Examples of input devices include a keyboard, a cursor control device (e.g., a mouse), a microphone, a scanner, touch functionality (e.g., capacitive or other sensors that are configured to detect physical touch), a camera (e.g., which may employ visible or non-visible wavelengths such as infrared frequencies to recognize movement as gestures that do not involve touch), and so forth. Examples of output devices include a display device (e.g., a monitor or projector), speakers, a printer, a network card, tactile-response device, and so forth. Thus, the computing device 1302 may be configured in a variety of ways to support user interaction.
  • The computing device 1302 is further illustrated as being communicatively and physically coupled to an input device 1314 that is physically and communicatively removable from the computing device 1302. In this way, a variety of different input devices may be coupled to the computing device 1302 having a wide variety of configurations to support a wide variety of functionality. In this example, the input device 1314 includes one or more keys 1316, which may be configured as pressure sensitive keys, mechanically switched keys, and so forth.
  • The input device 1314 is further illustrated as include one or more modules 1318 that may be configured to support a variety of functionality. The one or more modules 1318, for instance, may be configured to process analog and/or digital signals received from the keys 1316 to determine whether a keystroke was intended, determine whether an input is indicative of resting pressure, support authentication of the input device 1314 for operation with the computing device 1302, and so on.
  • Various techniques may be described herein in the general context of software, hardware elements, or program modules. Generally, such modules include routines, programs, objects, elements, components, data structures, and so forth that perform particular tasks or implement particular abstract data types. The terms “module,” “functionality,” and “component” as used herein generally represent software, firmware, hardware, or a combination thereof. The features of the techniques described herein are platform-independent, meaning that the techniques may be implemented on a variety of commercial computing platforms having a variety of processors.
  • Techniques may further be implemented in a network environment, such as utilizing various cloud-based resources. For instance, methods, procedures, and so forth discussed above may leverage network resources to enable various functionalities.
  • An implementation of the described modules and techniques may be stored on or transmitted across some form of computer-readable media. The computer-readable media may include a variety of media that may be accessed by the computing device 1302. By way of example, and not limitation, computer-readable media may include “computer-readable storage media” and “computer-readable signal media.”
  • “Computer-readable storage media” may refer to media and/or devices that enable persistent and/or non-transitory storage of information in contrast to mere signal transmission, carrier waves, or signals per se. Thus, computer-readable storage media refers to non-signal bearing media. The computer-readable storage media includes hardware such as volatile and non-volatile, removable and non-removable media and/or storage devices implemented in a method or technology suitable for storage of information such as computer readable instructions, data structures, program modules, logic elements/circuits, or other data. Examples of computer-readable storage media may include, but are not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disks (DVD) or other optical storage, hard disks, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or other storage device, tangible media, or article of manufacture suitable to store the desired information and which may be accessed by a computer.
  • “Computer-readable signal media” may refer to a signal-bearing medium that is configured to transmit instructions to the hardware of the computing device 1302, such as via a network. Signal media typically may embody computer readable instructions, data structures, program modules, or other data in a modulated data signal, such as carrier waves, data signals, or other transport mechanism. Signal media also include any information delivery media. The term “modulated data signal” means a signal that has one or more of its characteristics set or changed in such a manner as to encode information in the signal. By way of example, and not limitation, communication media include wired media such as a wired network or direct-wired connection, and wireless media such as acoustic, RF, infrared, and other wireless media.
  • As previously described, hardware elements 1310 and computer-readable media 1306 are representative of modules, programmable device logic and/or fixed device logic implemented in a hardware form that may be employed in some embodiments to implement at least some aspects of the techniques described herein, such as to perform one or more instructions. Hardware may include components of an integrated circuit or on-chip system, an application-specific integrated circuit (ASIC), a field-programmable gate array (FPGA), a complex programmable logic device (CPLD), and other implementations in silicon or other hardware. In this context, hardware may operate as a processing device that performs program tasks defined by instructions and/or logic embodied by the hardware as well as a hardware utilized to store instructions for execution, e.g., the computer-readable storage media described previously.
  • Combinations of the foregoing may also be employed to implement various techniques described herein. Accordingly, software, hardware, or executable modules may be implemented as one or more instructions and/or logic embodied on some form of computer-readable storage media and/or by one or more hardware elements 1310. The computing device 1302 may be configured to implement particular instructions and/or functions corresponding to the software and/or hardware modules. Accordingly, implementation of a module that is executable by the computing device 1302 as software may be achieved at least partially in hardware, e.g., through use of computer-readable storage media and/or hardware elements 1310 of the processing system 1304. The instructions and/or functions may be executable/operable by one or more articles of manufacture (for example, one or more computing devices 1302 and/or processing systems 1304) to implement techniques, modules, and examples described herein.
  • Discussed herein are a number of methods that may be implemented to perform techniques discussed herein. Aspects of the methods may be implemented in hardware, firmware, or software, or a combination thereof. The methods are shown as a set of blocks that specify operations performed by one or more devices and are not necessarily limited to the orders shown for performing the operations by the respective blocks. Further, an operation shown with respect to a particular method may be combined and/or interchanged with an operation of a different method in accordance with one or more implementations. Aspects of the methods can be implemented via interaction between various entities discussed above with reference to the environment 100.
  • CONCLUSION
  • Although the example implementations have been described in language specific to structural features and/or methodological acts, it is to be understood that the implementations defined in the appended claims is not necessarily limited to the specific features or acts described. Rather, the specific features and acts are disclosed as example forms of implementing the claimed features.

Claims (20)

1. A computer-implemented method, comprising:
ascertaining an orientation of a computing device relative to an input device that is communicatively coupled to the computing device; and
determining via the computing device a power state individually for the computing device and the input device and based on the orientation, the power state being determined from a plurality of available power states including a viewing power state in which the input device remains coupled to the computing device and is positioned against a rear surface of the computing device, the computing device is powered on, and the input device is one of powered off or hibernated.
2. A method as described in claim 1, wherein the orientation comprises an angle at which the computing device is positioned relative to the input device.
3. A method as described in claim 1, wherein said ascertaining comprises:
ascertaining a gravitational orientation of the computing device;
ascertaining a gravitational orientation of the input device; and
determining the orientation of the computing device relative to the input device by comparing the gravitational orientation of the computing device with the gravitational orientation of the input device.
4. A method as described in claim 3, wherein said ascertaining the gravitational orientation of the computing device utilizes an accelerometer for the computing device, and wherein said ascertaining the gravitational orientation of the input device utilizes a different accelerometer for the input device.
5. A method as described in claim 1, wherein the orientation comprises an angle at which the computing device is rotated relative to the input device, and wherein said determining comprises correlating the angle to one of multiple angle ranges that each correspond to a respective power state for the computing device.
6. A method as described in claim 1, wherein the orientation comprises a closed orientation, and wherein the power state comprises a closed power state in which the computing device and the input device are at least one of powered off or hibernated.
7. A method as described in claim 1, wherein the orientation comprises a typing orientation, and wherein the power state comprises a typing power state in which the computing device and the input device are powered on such that input may be provided to the computing device via the input device.
8. A method as described in claim 1, wherein the viewing power state is applied to the computing device and the input device when the computing device and the input device are placed in a portrait orientation relative to an adjacent surface.
9. A method as described in claim 1, wherein the computing device further includes a camera that is powered on in the viewing power state such that photos can be captured from a perspective of the rear surface of the computing device and when the input device is positioned against the rear surface of the computing device.
10. A method as described in claim 1, further comprising determining an application state for an application that resides on the computing device based on the orientation, the application being associated with different application states for different orientations.
11. A computer-implemented method comprising:
ascertaining an orientation of a computing device relative to an input device that is communicatively coupled to the computing device; and
determining via the computing device an application state based on the orientation by performing at least one of enabling or disabling a functionality of the application based on the orientation and while the application is running on the computing device.
12. A method as described in claim 11, wherein the orientation comprises an angle at which the computing device is positioned relative to the input device.
13. A method as described in claim 11, wherein the orientation of the computing device corresponds to a viewing orientation in which the computing device is powered on and the input device is powered off or hibernated, and wherein the application state includes disabling a functionality of the application for receiving input via the input device.
14. A method as described in claim 11, wherein the application state is determined from a group of applications states that can be applied to the application while the application is running on the computing device.
15. A computer-implemented method comprising:
monitoring via one or more accelerometers for vibrations in a device that is in a low power state;
responsive to detecting a vibration via the one or more accelerometers, ascertaining via a computing device whether the vibration exceeds a vibration threshold;
in an event that the vibration exceeds the vibration threshold:
powering on a touch functionality associated with the device and that is different than the one or more accelerometers;
determining whether touch input is received via the touch functionality; and
in an event that touch input is received via the touch functionality, causing the device to transition to a different power state.
16. A method as recited in claim 15, wherein the device comprises a computing device, or an input device communicatively associated with the computing device.
17. A method as recited in claim 15, wherein the device comprises a computing device, and wherein the one or more accelerometers are positioned on at least one of the computing device or an input device communicatively coupled to the computing device.
18. A method as recited in claim 15, where the touch functionality comprises at least one of a track pad or a touch screen of the device.
19. A method as recited in claim 15, wherein the low power state comprises a state in which one or more functionalities of the device are powered off, and wherein the different power state comprises a state in which the one or more functionalities are powered on.
20. A method as recited in claim 15, further comprising, in an event that touch input is not received via the touch functionality:
powering off the touch functionality; and
continuing to monitor for vibrations in the device in the low power state.
US13/471,001 2012-03-02 2012-05-14 Mobile Device Power State Abandoned US20130232353A1 (en)

Priority Applications (7)

Application Number Priority Date Filing Date Title
US13/471,001 US20130232353A1 (en) 2012-03-02 2012-05-14 Mobile Device Power State
US13/651,976 US9047207B2 (en) 2012-03-02 2012-10-15 Mobile device power state
EP17196809.2A EP3291047A1 (en) 2012-03-02 2013-03-01 Wake method for mobile device
PCT/US2013/028489 WO2014084879A2 (en) 2012-03-02 2013-03-01 Mobile device power state
EP13858403.2A EP2820507A4 (en) 2012-03-02 2013-03-01 Mobile device power state
CN201310067335.0A CN103488271A (en) 2012-03-02 2013-03-04 Mobile device power state
US14/704,423 US20150234478A1 (en) 2012-03-02 2015-05-05 Mobile Device Application State

Applications Claiming Priority (8)

Application Number Priority Date Filing Date Title
US201261606301P 2012-03-02 2012-03-02
US201261606336P 2012-03-02 2012-03-02
US201261606313P 2012-03-02 2012-03-02
US201261606321P 2012-03-02 2012-03-02
US201261606333P 2012-03-02 2012-03-02
US201261607451P 2012-03-06 2012-03-06
US201261613745P 2012-03-21 2012-03-21
US13/471,001 US20130232353A1 (en) 2012-03-02 2012-05-14 Mobile Device Power State

Related Child Applications (1)

Application Number Title Priority Date Filing Date
US13/651,976 Continuation US9047207B2 (en) 2012-03-02 2012-10-15 Mobile device power state

Publications (1)

Publication Number Publication Date
US20130232353A1 true US20130232353A1 (en) 2013-09-05

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US (47) US9134807B2 (en)
EP (21) EP2820515B1 (en)
JP (15) JP6262157B2 (en)
KR (12) KR102087456B1 (en)
CN (24) CN103440058B (en)
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