Patent application number | Description | Published |
20090078553 | COSMETIC DOME SWITCH - The systems and methods described herein are directed to a switch for use in an electronic device. The switching assembly may include an elastically deformable actuator having a conductive inner surface and a cosmetic outer surface. The actuator may be disposed on an exterior surface of an enclosure that houses an electric circuit board of the electronic device. The enclosure may have one or more openings for providing an electrical connection between the actuator and the enclosed circuit of the electronic device. When the actuator is pressed, an electrical circuit may be closed and electric current may flow through the conductive inner surface of the actuator. The actuator may be combined with a perimeter element for snapping on and off the enclosure. | 03-26-2009 |
20090078555 | BOTTOM ACTUATED SWITCH - The systems and methods described herein are directed to a switch for electronic devices. The systems and methods provide for a switch disposed on a bottom surface of a circuit board enclosed in a housing of an electronic device. The circuit board may include an aperture. An actuating pin of the switch may extend through the aperture towards the top surface of the circuit board. An external actuator may be coupled to the actuating pin in the aperture on the circuit board. The external actuator may extend out through an opening in the housing for providing a user with access to the switch. | 03-26-2009 |
20090081906 | SYSTEMS AND METHODS FOR PROVIDING A TRIMLESS ELECTRONIC DEVICE PORT - This invention is directed to systems and methods for providing a port in an electronic device housing that is electrically isolated from a conductive portion of a connector inserted in the port without the use of a nonconductive trim in the port. In some embodiments, the connector may include a non-conductive flange or ring operative to contact the housing and the portions of the housing within the port. In some embodiments, a thin layer of non-conductive material may be applied to the portions of the housing within the port to prevent conductive portions of the connector from coming into contact with the housing (e.g., and grounding the conductive portion. This invention may be of particular interest when the conductive portion that may come into contact with the housing is not used to ground the connector. | 03-26-2009 |
20090083847 | EMBEDDED AUTHENTICATION SYSTEMS IN AN ELECTRONIC DEVICE - This invention is directed to an electronic device with an embedded authentication system for restricting access to device resources. The authentication system may include one or more sensors operative to detect biometric information of a user. The sensors may be positioned in the device such that the sensors may detect appropriate biometric information as the user operates the device, without requiring the user to perform a step for providing the biometric information (e.g., embedding a fingerprint sensor in an input mechanism instead of providing a fingerprint sensor in a separate part of the device housing). In some embodiments, the authentication system may be operative to detect a visual or temporal pattern of inputs to authenticate a user. In response to authenticating, a user may access restricted files, applications (e.g., applications purchased by the user), or settings (e.g., application settings such as contacts or saved game profile). | 03-26-2009 |
20090083850 | EMBEDDED AUTHENTICATION SYSTEMS IN AN ELECTRONIC DEVICE - This invention is directed to an electronic device with an embedded authentication system for restricting access to device resources. The authentication system may include one or more sensors operative to detect biometric information of a user. The sensors may be positioned in the device such that the sensors may detect appropriate biometric information as the user operates the device, without requiring the user to perform a step for providing the biometric information (e.g., embedding a fingerprint sensor in an input mechanism instead of providing a fingerprint sensor in a separate part of the device housing). In some embodiments, the authentication system may be operative to detect a visual or temporal pattern of inputs to authenticate a user. In response to authenticating, a user may access restricted files, applications (e.g., applications purchased by the user), or settings (e.g., application settings such as contacts or saved game profile). | 03-26-2009 |
20090101433 | INVERTIBLE EAR TIPS FOR AN EAR PIECE - An ear piece for providing audio (e.g., from an electronic device) to the user is provided. The ear piece may include a compliant element operative to be inserted in the user's ear such that the compliant element deforms to retain the ear piece in the user's ear. The compliant element may include a connector portion coupling the compliant element to the ear piece housing, and an outer portion folded over the ear piece housing. To improve the user's comfort, the compliant element may be manufactured inverted, such that parting lines or other defects due to the manufacturing process are located on the outer surface of the inverted outer portion. Then, when the compliant element is inverted post-manufacturing, the parting lines and other manufacturing defects may be hidden from view and from touch (e.g., the parting lines are then on the inner surface of the outer portion). | 04-23-2009 |
20100018844 | HOLD SWITCH - This invention is directed to a switch for use in an electronic device. As the user actuates the switch, different labels may be visible to indicate to the user the current state of the switch. To allow the switch to be positioned adjacent to an edge of the device, the switch may include only a single label that moves with the switch. For example, the switch may include a label positioned adjacent to a nub that the user may operate. The label may be sized such that only the label is visible when the switch is in a first position. The electronic device may also include a second label that is fixed to a non-moving portion of the electronic device. When the user moves the switch, the switch may move away from and uncover the second label while hiding the label that is included in the switch. | 01-28-2010 |
20100061039 | ELECTRONIC DEVICE ASSEMBLY - Apparatus and methods for assembling an electronic device and components thereof are provided. The electronic device may include a housing and a cover inserted into an opening in the housing. The electronic device may also include a first assembly that may be inserted into the housing through a first end, and a second assembly that may be inserted into the housing through a second end. The electronic device may also include end cap assemblies. In some embodiments, the electronic device may include an input mechanism coupled to the housing and a plate coupled to the housing. In some embodiments, a connector of the electronic device may be mounted on a circuit board by inserting a fixture into the connector, mounting the connector to a portion of the circuit board, removing the fixture from the connector, and separating the portion of the circuit board from another portion of the circuit board. | 03-11-2010 |
20100079309 | CONFIGURABLE BUTTONS FOR ELECTRONIC DEVICES - Configurable buttons for electronic devices such as portable electronic devices are provided. A configurable button may have a button member that moves relative to a device housing when it is desired to activate a switch. The button may have an associated touch sensor. The touch sensor may detect when a user's finger touches a particular portion of the button member. Contact with only this portion of the button member is generally inadvertent, so an actuator may be used to prevent or otherwise restrict motion of the button relative to a device housing. This prevents inadvertent activation of the button when a user is manipulating portions of an electronic device such as clip or lid, but does not intend to depress the button. | 04-01-2010 |
20100117841 | WATER DETECTION ARRANGEMENT - An electronic device having an enclosure is disclosed. The electronic device includes a hole disposed at least partially through the enclosure. The electronic device also includes a detector configured to provide at least one visual indication after being immersed in water. The detector may include a moisture-indicating portion and a light-permitting moisture-proof membrane. The detector may be disposed inside at least one of the enclosure and the hole such that at least a portion of the detector is visible through the hole from outside of the enclosure without dismantling or opening the electronic device. The distance between the light-permitting moisture-proof membrane and an opening of the hole in the enclosure may be less than the distance between the moisture-indicating portion and the opening of the hole. | 05-13-2010 |
20100147482 | SYSTEMS AND METHODS FOR INSERT-MOLDING - The present invention includes systems and methods for insert-molding. In some embodiments, a hook can be formed in a metal part by passing die-steel of a die-cast mold through the metal part during a die-casting process. This may, however, result in a hole in the metal part that is beneath the hook area. When plastic material is insert-molded over the metal part, the plastic material may flow through the hole and into the metal part. Accordingly, in some embodiments the plastic material can be prevented from flowing through the hole during the insert-molding. As one example, a tape material can be coupled over the hole. As another example, a wedge can be press-fit into the hole. As yet another example, a plug can be inserted into the hole. | 06-17-2010 |
20100226509 | PORTABLE ELECTRONIC DEVICE - Electronic devices such as compact portable media players are provided. A housing for an electronic device may be relatively compact. The housing may include a door assembly with an attached spring-loaded clip. The electronic device may include a hold switch. Depending on the state of the hold switch, the electronic device may be in an off mode, a continuous playback mode, or a shuffle playback mode. The electronic device may not have integrated media playback controls such as play, pause, rewind, fast forward, etc. As one example, the electronic device may connect to an accessory that has media playback controls. Buttons and other user interfaces may be included in the accessory and user input information may be conveyed between the accessory and the electronic device using a wired path including audio connectors. The electronic device may include a printed circuit board assembly that is nested together with a battery assembly. | 09-09-2010 |
20100267286 | SYSTEMS AND METHODS FOR PROVIDING A TRIMLESS ELECTRONIC DEVICE PORT - This invention is directed to systems and methods for providing a port in an electronic device housing that is electrically isolated from a conductive portion of a connector inserted in the port without the use of a nonconductive trim in the port. In some embodiments, the connector may include a non-conductive flange or ring operative to contact the housing and the portions of the housing within the port. In some embodiments, a thin layer of non-conductive material may be applied to the portions of the housing within the port to prevent conductive portions of the connector from coming into contact with the housing (e.g., and grounding the conductive portion. This invention may be of particular interest when the conductive portion that may come into contact with the housing is not used to ground the connector. | 10-21-2010 |
20110001706 | ELECTRONIC DEVICE TOUCH SCREEN DISPLAY MODULE - An electronic device may have a housing in which a touch screen display module is mounted. A cover glass may cover the touch screen display module. The touch screen display module may include display structures and touch sensor structures. A first cable may be connected to the display structures along an edge of the touch screen display module. A second cable may be connected to the touch sensor structures along another edge of the touch screen display module. The cables may be formed from flex circuits that are connected to the display module using heat-and-pressure-bondable conductive adhesive. A printed circuit board in electronic device may have connectors that receive the ends of the first and second flex circuits. The connectors may be located along a common edge of the printed circuit board to facilitate assembly of the touch screen display module within the housing of the electronic device. | 01-06-2011 |
20110164375 | DOCK WITH MOVEABLE CONNECTOR FOR DISPLAY DEVICE - Docking stations with a moveable connector that is more durable are provided. For example, when a portable electronic device, coupled with the connector, is pushed forward, the connector is designed to move (e.g. rotate), thereby reducing an impact of strain resulting from such a push. The rotatable connector may be biased to keep the portable electronic device in an upright position such that the electronic device is supported by a rear reference surface of the docking station, thereby preventing undue strain on the rotatable connector in the upright position and inhibiting movement forward. The rotatable connector may be partly below an outer shell of the docking station, and pivot at the outer shell, thereby reducing possible damage to parts below the outer shell. The rotatable connector may also retract when rotated, thereby removing a force that can break the connector at a position of full rotation forward. | 07-07-2011 |
20110287669 | SYSTEMS AND METHODS FOR PROVIDING A TRIMLESS ELECTRONIC DEVICE PORT - This invention is directed to systems and methods for providing a port in an electronic device housing that is electrically isolated from a conductive portion of a connector inserted in the port without the use of a nonconductive trim in the port. In some embodiments, the connector may include a non-conductive flange or ring operative to contact the housing and the portions of the housing within the port. In some embodiments, a thin layer of non-conductive material may be applied to the portions of the housing within the port to prevent conductive portions of the connector from coming into contact with the housing (e.g., and grounding the conductive portion. This invention may be of particular interest when the conductive portion that may come into contact with the housing is not used to ground the connector. | 11-24-2011 |
20110305875 | ELECTRONIC DEVICE ASSEMBLY - Apparatus and methods for assembling an electronic device and components thereof are provided. The electronic device may include a housing and a cover inserted into an opening in the housing. The electronic device may also include a first assembly that may be inserted into the housing through a first end, and a second assembly that may be inserted into the housing through a second end. The electronic device may also include end cap assemblies. In some embodiments, the electronic device may include an input mechanism coupled to the housing and a plate coupled to the housing. In some embodiments, a connector of the electronic device may be mounted on a circuit board by inserting a fixture into the connector, mounting the connector to a portion of the circuit board, removing the fixture from the connector, and separating the portion of the circuit board from another portion of the circuit board. | 12-15-2011 |
20120014687 | ELECTRONIC DEVICES WITH COMPONENT MOUNTING STRUCTURES - Electronic devices are provided that have components. Outer and inner component mounting members may engage each other with threads. Openings in the outer and inner members may be configured to engage component sidewalls and alignment tools. | 01-19-2012 |
20120044623 | SELF CAPTURING AND KEYED MOBILE DEVICE BUTTON - A housing of an electronic device encloses and supports at least one operational component and includes at least one opening sized to accommodate a mechanical input assembly. The mechanical input assembly includes a feature arranged to receive an input event, at least a portion of the feature exposed at an outside surface of the housing, an operational indicia visible on the exposed portion and having a preferred orientation with respect to the housing, the operational indicial providing an indication of how an operation of the operational component is influenced, and a shaft having a size and shape in accordance with the opening, the shaft attached to the external feature at a first end and an integrally formed self-capturing feature at the second end. The self-capturing feature is inserted into the opening until activated. The indicia is then properly aligned and the mechanical input assembly is locked to the housing. | 02-23-2012 |
20120080301 | CONTAMINENT RESISTANT MEMBRANE IN A DOME SWITCH AND METHODS FOR MAKING THE SAME - A dome switch can include a dome mounted to a circuit board and secured by a sheet constructed from a material that is impermeable to air. To allow air enclosed by a volume between the dome and the circuit board to be expelled when the dome is depressed, the sheet can include at least one venting hole through which air can flow to the environment of the switch. To prevent contaminants from accessing the volume between the dome and the circuit board through the at least one venting hole, the dome switch can include a membrane positioned over the venting hole. The membrane can be constructed from a material that is permeable to air, but impermeable to contaminants. In some cases, the membrane can be constructed from a mesh material. | 04-05-2012 |
20120224390 | INTEGRATED LIGHT PIPE AND PERIMETER CHASSIS - A thin-profile portable electronic device with a display is described. The display can include a display assembly with an integrally formed light pipe and perimeter chassis. The light pipe can be utilized to provide back-lighting for the display. The light pipe and the perimeter chassis can be integrally formed to improve the stiffness of the light pipe and allow the over-all height of the display to be reduced. In one embodiment, the light pipe and the perimeter chassis can be formed using a co-molding process, such as an injection molding process. | 09-06-2012 |
20120264329 | DOCK WITH MOVEABLE CONNECTOR FOR DISPLAY DEVICE - Docking stations with a moveable connector that is more durable are provided. For example, when a portable electronic device, coupled with the connector, is pushed forward, the connector is designed to move (e.g. rotate), thereby reducing an impact of strain resulting from such a push. The rotatable connector may be biased to keep the portable electronic device in an upright position such that the electronic device is supported by a rear reference surface of the docking station, thereby preventing undue strain on the rotatable connector in the upright position and inhibiting movement forward. The rotatable connector may be partly below an outer shell of the docking station, and pivot at the outer shell, thereby reducing possible damage to parts below the outer shell. The rotatable connector may also retract when rotated, thereby removing a force that can break the connector at a position of full rotation forward. | 10-18-2012 |
20120318653 | HOLD SWITCH - This invention is directed to a switch for use in an electronic device. As the user actuates the switch, different labels may be visible to indicate to the user the current state of the switch. To allow the switch to be positioned adjacent to an edge of the device, the switch may include only a single label that moves with the switch. For example, the switch may include a label positioned adjacent to a nub that the user may operate. The label may be sized such that only the label is visible when the switch is in a first position. The electronic device may also include a second label that is fixed to a non-moving portion of the electronic device. When the user moves the switch, the switch may move away from and uncover the second label while hiding the label that is included in the switch. | 12-20-2012 |
20130118829 | INVERTIBLE EAR TIPS FOR AN EAR PIECE - An ear piece for providing audio (e.g., from an electronic device) to the user is provided. The ear piece may include a compliant element operative to be inserted in the user's ear such that the compliant element deforms to retain the ear piece in the user's ear. The compliant element may include a connector portion coupling the compliant element to the ear piece housing, and an outer portion folded over the ear piece housing. To improve the user's comfort, the compliant element may be manufactured inverted, such that parting lines or other defects due to the manufacturing process are located on the outer surface of the inverted outer portion. Then, when the compliant element is inverted post-manufacturing, the parting lines and other manufacturing defects may be hidden from view and from touch (e.g., the parting lines are then on the inner surface of the outer portion). | 05-16-2013 |
20130118871 | SELF CAPTURING AND KEYED MOBILE DEVICE BUTTON - A housing of an electronic device encloses and supports at least one operational component and includes at least one opening sized to accommodate a mechanical input assembly. The mechanical input assembly includes a feature arranged to receive an input event, at least a portion of the feature exposed at an outside surface of the housing, an operational indicia visible on the exposed portion and having a preferred orientation with respect to the housing, the operational indicial providing an indication of how an operation of the operational component is influenced, and a shaft having a size and shape in accordance with the opening, the shaft attached to the external feature at a first end and an integrally formed self-capturing feature at the second end. The self-capturing feature is inserted into the opening until activated. The indicia is then properly aligned and the mechanical input assembly is locked to the housing. | 05-16-2013 |
20130271302 | CONFIGURABLE BUTTONS FOR ELECTRONIC DEVICES - Configurable buttons for electronic devices such as portable electronic devices are provided. A configurable button may have a button member that moves relative to a device housing when it is desired to activate a switch. The button may have an associated touch sensor. The touch sensor may detect when a user's finger touches a particular portion of the button member. Contact with only this portion of the button member is generally inadvertent, so an actuator may be used to prevent or otherwise restrict motion of the button relative to a device housing. This prevents inadvertent activation of the button when a user is manipulating portions of an electronic device such as clip or lid, but does not intend to depress the button. | 10-17-2013 |
20140091336 | ELECTRONIC DEVICES WITH COMPONENT MOUNTING STRUCTURES - Electronic devices are provided that have components. A housing protrusion may be interposed between a display cover layer and display components. A button may have a button member. A support structure for a dome switch in the button may have a screw hole. A housing may have screw holes through which a screw passes. The screw may also pass through the screw hole of the support structure to hold the switch structure near the button member. A clip may have a spring. A metal plate may prevent the clip from becoming worn by the spring. A display may be mounted on a ledge in a device housing. The ledge may have gaps with supports and removed corners. | 04-03-2014 |
20140112555 | Embedded Authentication Systems in an Electronic Device - This invention is directed to an electronic device with an embedded authentication system for restricting access to device resources. The authentication system may include one or more sensors operative to detect biometric information of a user. The sensors may be positioned in the device such that the sensors may detect appropriate biometric information as the user operates the device, without requiring the user to perform a step for providing the biometric information (e.g., embedding a fingerprint sensor in an input mechanism instead of providing a fingerprint sensor in a separate part of the device housing). In some embodiments, the authentication system may be operative to detect a visual or temporal pattern of inputs to authenticate a user. In response to authenticating, a user may access restricted files, applications (e.g., applications purchased by the user), or settings (e.g., application settings such as contacts or saved game profile). | 04-24-2014 |
20140115694 | Embedded Authentication Systems in an Electronic Device - This invention is directed to an electronic device with an embedded authentication system for restricting access to device resources. The authentication system may include one or more sensors operative to detect biometric information of a user. The sensors may be positioned in the device such that the sensors may detect appropriate biometric information as the user operates the device, without requiring the user to perform a step for providing the biometric information (e.g., embedding a fingerprint sensor in an input mechanism instead of providing a fingerprint sensor in a separate part of the device housing). In some embodiments, the authentication system may be operative to detect a visual or temporal pattern of inputs to authenticate a user. In response to authenticating, a user may access restricted files, applications (e.g., applications purchased by the user), or settings (e.g., application settings such as contacts or saved game profile). | 04-24-2014 |
20140115695 | Embedded Authentication Systems in an Electronic Device - This invention is directed to an electronic device with an embedded authentication system for restricting access to device resources. The authentication system may include one or more sensors operative to detect biometric information of a user. The sensors may be positioned in the device such that the sensors may detect appropriate biometric information as the user operates the device, without requiring the user to perform a step for providing the biometric information (e.g., embedding a fingerprint sensor in an input mechanism instead of providing a fingerprint sensor in a separate part of the device housing). In some embodiments, the authentication system may be operative to detect a visual or temporal pattern of inputs to authenticate a user. In response to authenticating, a user may access restricted files, applications (e.g., applications purchased by the user), or settings (e.g., application settings such as contacts or saved game profile). | 04-24-2014 |
20140115696 | Embedded Authentication Systems in an Electronic Device - This invention is directed to an electronic device with an embedded authentication system for restricting access to device resources. The authentication system may include one or more sensors operative to detect biometric information of a user. The sensors may be positioned in the device such that the sensors may detect appropriate biometric information as the user operates the device, without requiring the user to perform a step for providing the biometric information (e.g., embedding a fingerprint sensor in an input mechanism instead of providing a fingerprint sensor in a separate part of the device housing). In some embodiments, the authentication system may be operative to detect a visual or temporal pattern of inputs to authenticate a user. In response to authenticating, a user may access restricted files, applications (e.g., applications purchased by the user), or settings (e.g., application settings such as contacts or saved game profile). | 04-24-2014 |
20140304809 | EMBEDDED AUTHENTICATION SYSTEMS IN AN ELECTRONIC DEVICE - An electronic device with a display and a fingerprint sensor may authenticate a user for a respective function. While a respective function of the device is in a locked state, the device displays a graphical element on the display, the graphical element indicating a first direction of finger movement that enables unlocking of the respective function. While displaying the graphical element, the device detects an input that includes movement of a finger in the first direction over the fingerprint sensor and determines whether the input meets unlock criteria based at least in part on fingerprint information of the finger detected by the fingerprint sensor during the input. In accordance with a determination that the input meets the unlock criteria, the device unlocks the respective function; and in accordance with a determination that the input does not meet the unlock criteria, the device maintains the respective function in the locked state. | 10-09-2014 |
20140380465 | EMBEDDED AUTHENTICATION SYSTEMS IN AN ELECTRONIC DEVICE - An electronic device with a display and a fingerprint sensor may authenticate a user for a respective function. While access to one or more resources of the device is restricted, the device displays an irregular arrangement of shapes on the touch-sensitive display. The device receives input based on the displayed irregular arrangement of the shapes. In accordance with a determination that the input meets input pattern criteria, the device provides access to the one or more restricted resources. In accordance with a determination that the input does not meet the input pattern criteria, the devices forgoes providing access to the one or more restricted resources of the device. | 12-25-2014 |