An electronic circuit including a microchip for use as an intelligent user interface also comprises touch sensor technology that differentiates between proximity and physical contact events to activate and control various loads including light bulbs, products with radio frequency circuitry or electr
An electronic circuit including a microchip for use as an intelligent user interface also comprises touch sensor technology that differentiates between proximity and physical contact events to activate and control various loads including light bulbs, products with radio frequency circuitry or electric motors. An input to the microchip is connected to a switch or sensing structure that does not form a serial link between the power source and the load. The electronic circuit controls various functions in response to user actions including automatic delayed shut-off functions, find-in-the-dark indicator and power source level/product state indications. The microchip allows the user to select specific functions based on the time duration of activation signals, the time duration between activation signals and the number of activation signals at the input. The microchip is further configured to interpret and react to the signals received from a user in a way that enhances ease of use of the product and to use the indicators to provide information to the user that is influenced by the signals received as well as the state of the product.
대표청구항▼
1. A method of using capacitive touch sensor circuitry that forms part of a user interface of a product comprising a plurality of touch sensor switches and a microchip of the product implements touch sensor functions and touch sensor sense pad structures are used in the implementation, the method co
1. A method of using capacitive touch sensor circuitry that forms part of a user interface of a product comprising a plurality of touch sensor switches and a microchip of the product implements touch sensor functions and touch sensor sense pad structures are used in the implementation, the method comprising: detecting an activation event by a touch sensor switch among the plurality of touch sensor switches;providing information, based on a state or condition of the product and a touch sensor signal generated from the detecting the activation event by the touch sensor switch, without accepting a selection of a function of the product, to guide a user to select a next touch sensor switch through an action comprising at least a physical contact event, in order to perform the selection of the function of the product. 2. The method of claim 1, wherein the information is provided in response to the detecting the activation event by the touch sensor switch in a way to assist in locating or identifying the next touch sensor switch, and wherein the next touch sensor switch is used to select another function of the product based on another physical contact event. 3. The method according to claim 2, the provided information comprises information guiding the user toward a likely or logical next user interface operation for selecting the function, a character or a mode of operation of the product. 4. The method of claim 1, wherein the detecting the activation event by the touch sensor switch comprises detecting a proximity event by the touch sensor switch, and wherein the next touch sensor switch is used to select the function of the product upon the physical contact event between an object and the product user interface. 5. The method according to claim 4, wherein the capacitive touch sensor circuitry includes a combination of a capacitive sensor switch structure and an electromechanical switch, and wherein the method further comprises activating an indication in response to proximity or physical contact detection by the touch sensor switch, and selecting the function of the product in response to activating the electromechanical switch. 6. The method according to claim 5 wherein the activating the indication is performed in response to the detecting the proximity event, wherein the indication is based on a location where the proximity event is detected and the state or condition of the product, andwherein the information is provided in a way to guide the user toward the action that requires the physical contact event. 7. The method of claim 4, wherein the method further comprises providing information to the user through indication of a function associated with a physical contact event on the touch sensor switch or switches disposed adjacent to a location where the proximity event is detected. 8. The method according to claim 4, wherein the product comprises a radio frequency circuitry and audio signal generating circuitry, and wherein the product user interface forms an integral part of a housing of the product. 9. The method of claim 1, wherein the detecting the activation event by the touch sensor switch comprises detecting a proximity event by the touch sensor switch, and wherein the provided information comprises information about the touch sensor switch or switches disposed adjacent to a location where the proximity event is detected. 10. The method according to claim 1, wherein the product user interface further comprises at least one electromechanical switch, wherein a touch sensor circuit sense plate is part of the electromechanical switch, andwherein the method further comprises controlling an indication based on, respectively, proximity and physical contact detection, with selecting a function associated with the electromechanical switch in response to a minimum level of pressure is applied to the touch sensor switch. 11. A user interface unit comprising: a capacitive touch sensor circuitry that forms part of a product user interface comprising a plurality of touch sensor switches; anda microchip implementing touch sensor functions; andtouch sensor sense pad structures being used in the implementing the touch sensor functions,wherein a touch sensor switch among the plurality of touch sensor switches is configured to detect an activation event, andwherein the microchip is configured to provide information, based on a state or condition of the product and a touch sensor signal generated from the detecting the activation event by the touch sensor switch, without accepting a selection of a function of the product, to guide a user to select a next touch sensor switch through an action comprising at least a physical contact event, in order to perform the selection of the function of the product. 12. The user interface unit of claim 11, wherein the microchip is configured to provide the information in response to the detecting the activation event by the touch sensor switch in a way to assist in locating or identifying the next touch sensor switch, and wherein the next touch sensor switch is used to select another function of the product based on another physical contact event. 13. The user interface unit of claim 12, wherein the provided information comprises information guiding the user toward a likely or logical next user interface operation for selecting the function, a character or a mode of operation of the product. 14. The user interface unit of claim 11, wherein the microchip is configured to provide the information in response to detecting a proximity event by the touch sensor switch, and wherein the next touch sensor switch is used to select the function of the product upon the physical contact event between an object and the product user interface. 15. The user interface unit of claim 14, wherein the capacitive touch sensor circuitry further comprises: a combination of a capacitive sensor switch structure and an electromechanical switch,wherein the microchip is configured to activate an indication in response to proximity or physical contact detection by the touch sensor switch, and select the function of the product in response to activating the electromechanical switch. 16. The user interface unit of claim 15 wherein the activating the indication is performed in response to the detecting the proximity event, wherein the indication is based on a location where the proximity event is detected and the state or condition of the product, andwherein the microchip is configured to provide the information in a way to guide the user toward the action that requires the physical contact event. 17. The user interface unit of claim 14, wherein the microchip is configured to provide information to the user through indication of a function associated with a physical contact event on the touch sensor switch or switches disposed adjacent to a location where the proximity event is detected. 18. The user interface unit of claim 14, wherein the product comprises a radio frequency circuitry and audio signal generating circuitry, and wherein the product user interface forms an integral part of a housing of the product. 19. The user interface unit of claim 11, wherein the microchip is configured to provide the information in response to detecting a proximity event, and wherein the provided information comprises information about the touch sensor switch or switches disposed adjacent to a location where the proximity event is detected. 20. The user interface unit of claim 11, wherein the product user interface further comprises at least one electromechanical switch, wherein a touch sensor circuit sense plate is part of the electromechanical switch, andwherein the microchip is configured to control an indication based on, respectively, proximity and physical contact detection, with selecting a function associated with the electromechanical switch in response to a minimum level of pressure is applied to the touch sensor switch. 21. A user interface device for a product comprising: a capacitive touch sensor switch; anda microchip configured to implement touch sensor functions using touch sensor sense pad structures,wherein the capacitive touch sensor switch is configured to detect an activation event without accepting a selection of a function of the product, andwherein the microchip is further configured to provide information to a user based on a touch sensor signal generated by the detecting the activation event, andwherein the information is configured to guide the user in selecting a next user interface button, and the next user interface button is configured to be activated by a physical contact event by the user.
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Scott L. Vance ; Charles Rudisill, Electronic devices including keypads that illuminate in response to proximity of a user and methods of operating such electronic devices.
Bloom Jonathan J. (Burlington MA) Marino Michael J. (Lynn MA) Pepper ; Jr. Edward L. (Medford MA), Method and apparatus for improved electronic touch mapping.
Boies Stephen J. (Mahopac NY) Comerford Liam D. (Carmel NY) Gould John D. (Yorktown Heights NY) Spraragen Susan L. (Ossining NY) Ukelson Jacob P. (Bronx NY), Method and apparatus for user control by deriving next states of a process from a current state and by providing a visua.
Hinckley,Kenneth P.; Sinclair,Michael J.; Pierce,Jeffrey Scott; Horvitz,Eric J., Method and apparatus using multiple sensors in a device with a display.
Gong,Andrew; Huppi,Brian Q.; Krah,Christopher H.; Cappels,Richard D.; Kerr,Duncan R.; Culbert,Michael, Methods and apparatuses using control indicators for data processing systems.
Watson Douglas R. (105 Middle Ridge Sanford CT 06903) Bogorad Lev (540 Main St. Roosevelt Island NY 10044) Lombardi Albert (1 Ziegler Rd. LaGrangeville NY 12540) Neiger Benjamin (270-27T Grand Centra, Microprocessor based touch dimmer system to control the brightness of one or more electric lamps using single or multi-k.
Miller Robert J. (Fremont CA) Bisset Stephen (Palo Alto CA) Allen Timothy P. (Los Gatos CA) Steinbach Gnter (Palo Alto CA), Object position and proximity detector.
Gillespie David (Palo Alto CA) Allen Timothy P. (Los Gatos CA) Wolf Ralph (Palo Alto CA), Object position detector with edge motion feature and gesture recognition.
Danielson Arvin D. ; Schultz Darald R. ; Silva Dennis ; Boatwright Darrell L. ; Austin Rickey G. ; Alt Daniel E. ; Friend Steve Darren ; Beard Paul, Portable work station-type data collection system.
Hotelling, Steve P.; Kerr, Duncan Robert; Ording, Bas; Ive, Jonathan P.; Kennedy, Peter J.; Fadell, Anthony M.; Robbin, Jeffrey L., Proximity detector in handheld device.
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Anderson, Thomas N.; Higinbotham, John D.; Miller, David A.; Schwartz, Mark; Thompson, C. Denise, User navigation and guidance during configuration and storage of parameters for medical device.
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