Abstract: The description relates to hinged devices, such as hinged computing devices. One example can include a first portion and a second portion. The example can also include a pair of self-regulating hinge assemblies rotatably securing hinge ends of the first and second portions around a first hinge axis associated with the first portion and a second hinge axis associated with the second hinge axis so that an extent of rotation around the first hinge axis corresponds to an extent of rotation around the second hinge axis. The example can also include a first display positioned on the first portion and wrapped around the hinge end between the pair of self-regulating hinge assemblies. The example can further include a second display positioned on the second portion and wrapped around the hinge end between the pair of self-regulating hinge assemblies.

Abstract: A computing device is described. The computing device may include a first portion and a second portion separably connected to the first portion. A locking mechanism may be configured to lock the first portion to the second portion. The locking mechanism may include a locking receptacle connected to the first portion and a locking protrusion connected to the second portion. The locking receptacle may include a rotating lock and may have an aperture through which the locking protrusion is insertable. The computing device may include an actuator mechanically coupled to the locking mechanism and configured to unlock the first portion from the second portion.

Abstract: The description relates to devices, such as computing devices having displays that can be rotated through a range of travel. The device can counter-balance the display to create a near weightless feel for the user when repositioning the display.

Abstract: Fan assemblies included within a computing device are described herein. The computing device includes a housing, a heat generating component supported within the housing, and a fan assembly. The fan assembly is operable to move heat generated by the heat generating component out of the housing. The fan assembly is supported within the housing. The fan assembly includes a shaft and a plurality of discs positioned along and fixed to the shaft. The shaft and the plurality of discs are rotatable relative to the housing about an axis of rotation.

Abstract: A hinge for component attachment is described. In at least some implementations, a kickstand is rotatably attached to a mobile computing device. The kickstand can be rotated to various positions to provide support for different orientations of the computing device. In at least some implementations, hinges are employed to attach a kickstand to a mobile computing device. One example hinge utilizes preset hinge stops that enable the kickstand to be placed at different preset positions. Another example hinge exerts pressure on an edge of the kickstand, providing stability and vibration dampening to the kickstand.

Abstract: A computing device is described. The computing device may include a first portion and a second portion separably connected to the first portion. A locking mechanism may be configured to lock the first portion to the second portion. The locking mechanism may include a locking receptacle connected to the first portion and a locking protrusion connected to the second portion. The locking receptacle may include a rotating lock and may have an aperture through which the locking protrusion is insertable. The computing device may include an actuator mechanically coupled to the locking mechanism and configured to unlock the first portion from the second portion.

Abstract: Flexible hinge spine techniques are described. In one or more implementations, a flexible hinge is configured to communicatively and physically couple an input device to a computing device and may implement functionality such as a support layer and minimum bend radius. The input device may also include functionality to promote a secure physical connection between the input device and the computing device. One example of this includes use of one or more protrusions that are configured to be removed from respective cavities of the computing device along a particular axis but mechanically bind along other axes. Other techniques include use of a laminate structure to form a connection portion of the input device.

Abstract: Flexible hinge spine techniques are described. In one or more implementations, a flexible hinge is configured to communicatively and physically couple an input device to a computing device and may implement functionality such as a support layer and minimum bend radius. The input device may also include functionality to promote a secure physical connection between the input device and the computing device. One example of this includes use of one or more protrusions that are configured to be removed from respective cavities of the computing device along a particular axis but mechanically bind along other axes. Other techniques include use of a laminate structure to form a connection portion of the input device.

Abstract: A computing device is described. The computing device may include a first portion and a second portion separably connected to the first portion. A locking mechanism may be configured to lock the first portion to the second portion. The locking mechanism may include a locking receptacle connected to the first portion and a locking protrusion connected to the second portion. The locking receptacle may include a rotating lock and may have an aperture through which the locking protrusion is insertable. The computing device may include an actuator mechanically coupled to the locking mechanism and configured to unlock the first portion from the second portion.

Abstract: A mechanical attach and retention feature is described. An apparatus may include a cover portion that is configured to cover at least a portion of a display device of a computing device having a mobile form factor that is configured to be held by one or more hands of a user. The apparatus includes, a first mid-spine that is rotationally connected to the cover portion, a second mid-spine that is rotationally connected to the first mid-spine, and a connection portion that is rotationally connection to the second mid-spine. The connection portion is configured to form a removable physical coupling to the computing device using a projection that is configured to be disposed within a channel formed in a housing of the computing device and a protrusion disposed on the projection, the protrusion configured to be received within a cavity formed as part of the channel.

Abstract: Micro-hole structures are described herein that may be implemented for device ventilation, protection, and design. The micro-hole structures include multiple micro-holes that are imperceptible to users at ordinary viewing angles and distances, and are thus porous structures that appear to be solid. A micro-hole structure may be formed as a housing of a device or as a structure to be attached to the housing of the device. A device with a micro-hole structure housing enables thermal ventilation from heat-producing components located within the housing. Additionally, micro-holes of a micro-hole structure may be organized to operate as a design element for the device while simultaneously providing ventilation. The micro-holes are sufficiently small to allow for passage of air through the micro-hole structure while also prohibiting entrance of water and/or other contaminants into the housing of the device.

Abstract: Flexible hinge and removable attachment techniques are described. In one or more implementations, a flexible hinge is configured to communicatively and physically couple an input device to a computing device and may implement functionality such as a support layer and minimum bend radius. The input device may also include functionality to promote a secure physical connection between the input device and the computing device. One example of this includes use of one or more protrusions that are configured to be removed from respective cavities of the computing device along a particular axis but mechanically bind along other axes. Other techniques include use of a laminate structure to form a connection portion of the input device.

Abstract: A mechanical attach and retention feature is described. An apparatus may include a cover portion that is configured to cover at least a portion of a display device of a computing device having a mobile form factor that is configured to be held by one or more hands of a user. The apparatus includes, a first mid-spine that is rotationally connected to the cover portion, a second mid-spine that is rotationally connected to the first mid-spine, and a connection portion that is rotationally connection to the second mid-spine. The connection portion is configured to form a removable physical coupling to the computing device using a projection that is configured to be disposed within a channel formed in a housing of the computing device and a protrusion disposed on the projection, the protrusion configured to be received within a cavity formed as part of the channel.

Abstract: Key formation techniques are described. In one or more implementations, an input device includes a key assembly including a plurality of keys that are usable to initiate respective inputs for a computing device, a connection portion configured to be removably connected to the computing device physically and communicatively to communicate signals generated by the plurality of keys to the computing device, and an outer layer that is configured to cover the plurality of keys of the key assembly, the outer layer having a plurality of areas that are embossed thereon that indicate one or more borders of respective said keys.

Abstract: Flexible hinge and removable attachment techniques are described. In one or more implementations, a flexible hinge is configured to communicatively and physically couple an input device to a computing device and may implement functionality such as a support layer and minimum bend radius. The input device may also include functionality to promote a secure physical connection between the input device and the computing device. One example of this includes use of one or more protrusions that are configured to be removed from respective cavities of the computing device along a particular axis but mechanically bind along other axes. Other techniques include use of a laminate structure to form a connection portion of the input device.

Abstract: Flexible hinge spine techniques are described. In one or more implementations, a flexible hinge is configured to communicatively and physically couple an input device to a computing device and may implement functionality such as a support layer and minimum bend radius. The input device may also include functionality to promote a secure physical connection between the input device and the computing device. One example of this includes use of one or more protrusions that are configured to be removed from respective cavities of the computing device along a particular axis but mechanically bind along other axes. Other techniques include use of a laminate structure to form a connection portion of the input device.

Abstract: Flexible hinge spine techniques are described. In one or more implementations, a flexible hinge is configured to communicatively and physically couple an input device to a computing device and may implement functionality such as a support layer and minimum bend radius. The input device may also include functionality to promote a secure physical connection between the input device and the computing device. One example of this includes use of one or more protrusions that are configured to be removed from respective cavities of the computing device along a particular axis but mechanically bind along other axes. Other techniques include use of a laminate structure to form a connection portion of the input device.

Abstract: A hinge for component attachment is described. In at least some implementations, a kickstand is rotatably attached to a mobile computing device. The kickstand can be rotated to various positions to provide support for different orientations of the computing device. In at least some implementations, hinges are employed to attach a kickstand to a mobile computing device. One example hinge utilizes preset hinge stops that enable the kickstand to be placed at different preset positions. Another example hinge exerts pressure on an edge of the kickstand, providing stability and vibration dampening to the kickstand.

Abstract: Flux fountain techniques are described. In one or more implementations, an apparatus includes a cover configured to be disposed over at least a portion of a display device of a computing device that is configured as a tablet and a connection portion attached to the cover using a flexible hinge. The connection portion is configured to be physically coupled to the computing device using a magnetic coupling device. The magnetic coupling device includes a first magnet that is disposed in the connection portion such that a magnetic field is aligned along an axis and second and third magnets are disposed in the connection portion at opposing sides of the first magnet from each other. The second and third magnets have respective magnetic fields that are aligned along a respective axis that is substantially perpendicular to the axis of the magnetic field of the first magnet.

Abstract: Flexible hinge and removable attachment techniques are described. In one or more implementations, a flexible hinge is configured to communicatively and physically couple an input device to a computing device and may implement functionality such as a support layer and minimum bend radius. The input device may also include functionality to promote a secure physical connection between the input device and the computing device. One example of this includes use of one or more protrusions that are configured to be removed from respective cavities of the computing device along a particular axis but mechanically bind along other axes. Other techniques include use of a laminate structure to form a connection portion of the input device.