Devices and methods for creating haptic effects
First Claim
1. A haptic feedback system for a portable device, comprising:
- a mechanism, configured to produce a haptic pop effect, comprising;
a material portion that releases mechanical energy when temporarily bent from a first position to a second position, the material portion comprising one or more discrete protrusions at a perimeter of the material portion; and
a conductor that changes shape in response to an electrical signal applied thereto, the conductor connected with the material portion at the one or more discrete protrusions; and
a controller electronically coupled with the conductor to selectively provide the electrical signal to the conductor to cause the mechanism to produce the haptic pop effect.
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Accused Products
Abstract
In an embodiment for use with a portable device, a haptic feedback system creates a haptic pop effect and the system may include a mechanism configured to produce a haptic pop effect and a controller electronically coupled with the mechanism to selectively activate the mechanism. In one example, the mechanism has a first normal state having mechanical energy stored therein, and a second state wherein said mechanical energy is released, thereby creating the haptic pop effect. The mechanism may include a material portion configured as a dome-shaped or arcuate diaphragm and made of metal that stores mechanical energy therein. A conductor such as a Nitinol wire may be positioned about and bonded to the perimeter of the material, and has a variable length of a first length to a shorter second length in response to the signal being applied to the mechanism. In this manner, the controller provides an electrical signal to the mechanism, and the mechanism responds to the electrical signal by activating the haptic pop effect. This effect is felt by the user of the electronic device.
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Citations
20 Claims
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1. A haptic feedback system for a portable device, comprising:
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a mechanism, configured to produce a haptic pop effect, comprising; a material portion that releases mechanical energy when temporarily bent from a first position to a second position, the material portion comprising one or more discrete protrusions at a perimeter of the material portion; and a conductor that changes shape in response to an electrical signal applied thereto, the conductor connected with the material portion at the one or more discrete protrusions; and a controller electronically coupled with the conductor to selectively provide the electrical signal to the conductor to cause the mechanism to produce the haptic pop effect. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method of providing haptic feedback in an electronic device, the method comprising:
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providing a mechanism selectable between a first state and a second state in response to an electrical signal applied to the mechanism at a set of one or more discrete protrusions at a perimeter of the mechanism, wherein the first state of the mechanism stores mechanical energy, and a transition of the mechanism from the first state to the second state releases the stored mechanical energy to produce a haptic pop effect; detecting a request for producing the haptic pop effect; and providing the electrical signal to the mechanism; whereby in response to the electrical signal, the mechanism transitions into the second state thereby producing the haptic pop effect. - View Dependent Claims (16, 17, 18)
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19. A haptic feedback system for a portable device, comprising:
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a mechanism, configured to produce a haptic pop effect, comprising; a material portion that releases mechanical energy when bent from a first position to a second position, the material portion comprising one or more discrete protrusions at a perimeter of the material portion; and a Nitinol wire connected with the material portion at the one or more discrete protrusions; and a controller electronically coupled with the Nitinol wire to selectively activate the mechanism, wherein when the controller applies an electrical signal to the Nitinol wire, the Nitinol wire exerts a bending force on the material portion to bend the material portion to the second position, thereby producing the haptic pop effect. - View Dependent Claims (20)
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Specification