Patent application number | Description | Published |
20090007758 | Haptic Keyboard Systems and Methods - Various embodiments provide keyboards that utilize electrically-deformable material as an actuating mechanism to provide haptic feedback to a user of the keyboard. In at least some embodiments, the electrically-deformable material is utilized to impart, to a depressed key or keyboard element, a multi-vectored movement that produces a perceived acceleration of the key or keyboard element thus providing a user with haptic feedback which simulates a snapover movement. | 01-08-2009 |
20090189790 | Haptic Keyboard Systems and Methods - Various embodiments provide keyboards that utilize electrically-deformable material as an actuating mechanism to provide haptic feedback to a user of the keyboard. In at least some embodiments, the electrically-deformable material is utilized to impart, to a depressed key or keyboard element, a multi-vectored movement that produces a perceived acceleration of the key or keyboard element thus providing a user with haptic feedback which simulates a snapover movement. In at least some embodiments, a light source can be mounted or otherwise positioned relatively close to and beneath the top surface of one or more keys or keyboard elements to backlight a portion or portions of a keyboard. | 07-30-2009 |
20090189873 | Projected Field Haptic Actuation - An electronic device includes a touch surface that can be physically engaged by a user. The touch surface is operably connected to an actuator arm which, in turn, is connected to an actuator array. Drive electronics sense a user's movement relative to the touch surface and, responsively, drive the actuator array effective to move the actuator arm and, in turn, provide haptic feedback to the user through the touch surface. | 07-30-2009 |
20090210568 | Keyboard Adaptive Haptic Response - Various embodiments provide a keyboard that adaptively provides haptic feedback to a user. In at least some embodiments, an actuation of a key or keyboard element of the keyboard is detected. This can be accomplished by detecting the closure of an associated switch caused by a user depressing the key or keyboard element. In response to detecting the actuation, an electrically-deformable material is utilized as an actuating mechanism to impart single or multi-vectored movement to the key or keyboard element according to drive parameters. This movement produces a perceived acceleration of the key or keyboard element, thus providing haptic feedback which simulates a “snapover” effect. | 08-20-2009 |
20090231277 | Vector-Specific Haptic Feedback - In one or more embodiments, vector-specific movement can be imparted to a user interface device (UID) to provide vector-specific haptic feedback. In at least some embodiments, this vectored movement can be based on input received by the UID. The input can include information associated with the user's interaction with an associated device integrated with or communicatively linked with the UID, and or with an application implemented on the associated device. In at least some embodiments, the UID can be configured with a controller, a microprocessor(s), and a vector-specific actuator that includes an electrically-deformable material. | 09-17-2009 |
20110227763 | Haptic Keyboard Assemblies, Systems and Methods - Various embodiments provide keyboards that utilize electrically-deformable material as an actuating mechanism to provide haptic feedback to a user of the keyboard. In at least some embodiments, the electrically-deformable material is utilized to impart, to a depressed key or keyboard element, a multi-vectored movement that produces a perceived acceleration of the key or keyboard element thus providing a user with haptic feedback which simulates a snapover movement. | 09-22-2011 |
20120242573 | Vector-Specific Haptic Feedback - In one or more embodiments, vector-specific movement can be imparted to a user interface device (UID) to provide vector-specific haptic feedback. In at least some embodiments, this vectored movement can be based on input received by the UID. The input can include information associated with the user's interaction with an associated device integrated with or communicatively linked with the UID, and or with an application implemented on the associated device. In at least some embodiments, the UID can be configured with a controller, a microprocessor(s), and a vector-specific actuator that includes an electrically-deformable material. | 09-27-2012 |
20120326986 | Keyboard Adaptive Haptic Response - Various embodiments provide a keyboard that adaptively provides haptic feedback to a user. In at least some embodiments, an actuation of a key or keyboard element of the keyboard is detected. This can be accomplished by detecting the closure of an associated switch caused by a user depressing the key or keyboard element. In response to detecting the actuation, an electrically-deformable material is utilized as an actuating mechanism to impart single or multi-vectored movement to the key or keyboard element according to drive parameters. This movement produces a perceived acceleration of the key or keyboard element, thus providing haptic feedback which simulates a “snapover” effect. | 12-27-2012 |
20130015985 | Backlit Haptic Key - Various embodiments provide keyboards that utilize electrically-deformable material as an actuating mechanism to provide haptic feedback to a user of the keyboard. In at least some embodiments, the electrically-deformable material is utilized to impart, to a depressed key or keyboard element, a multi-vectored movement that produces a perceived acceleration of the key or keyboard element thus providing a user with haptic feedback which simulates a snapover movement. In at least some embodiments, a light source can be mounted or otherwise positioned relatively close to and beneath the top surface of one or more keys or keyboard elements to backlight a portion or portions of a keyboard. | 01-17-2013 |
20130180839 | Haptic Keyboard Assemblies and Methods - Various embodiments provide keyboards that provide haptic feedback to a user of the keyboard. In at least some embodiments, movement of an actuator and/or a user-engageable portion in a direction generally orthogonal to a direction of the keypress when the switch is closed provides a user with haptic feedback, which simulates a snapover movement. | 07-18-2013 |