IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0416667
(2009-04-01)
|
등록번호 |
US-8132929
(2012-03-13)
|
발명자
/ 주소 |
- Harton, Austin Vincent
- Oliver, Manuel
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
11 |
초록
▼
An optical waveguide (106) with directional microprisms (116) and multidirectional light sources (110)(112) are provided for providing overlapping morphing images (104) and information (102) on a display (124) of a touch screen mobile phone or other electronic device (100). Microprisms can be patter
An optical waveguide (106) with directional microprisms (116) and multidirectional light sources (110)(112) are provided for providing overlapping morphing images (104) and information (102) on a display (124) of a touch screen mobile phone or other electronic device (100). Microprisms can be patterned in the shape of a particular design, character, icon or other image. The microprisms can include: first microprisms (118) sensitive to light propagating in only one direction; second microprisms (120) sensitive to light propagating in a different direction, and a third microprisms (122) sensitive to light propagation in multiple directions. When light is directed into the waveguide (106) in a direction to which a portion of the microprisms (116) are sensitive, a fraction of that light will be directed upward and out of the waveguide (106) by those microprisms sensitive to light propagated in that direction. Controlling, switching or selectively activating the light sources (110)(112) results in different images (104) which are displayed and illuminated on the display (124) of the electronic device (100).
대표청구항
▼
1. A method for providing information from images displayed in an electronic device, comprising the steps of: providing a mobile electronic device with a display consisting of a user's interface, a touch screen and a display screen;providing an optical waveguide comprising only a single layer substa
1. A method for providing information from images displayed in an electronic device, comprising the steps of: providing a mobile electronic device with a display consisting of a user's interface, a touch screen and a display screen;providing an optical waveguide comprising only a single layer substantially planar waveguide in the mobile electronic device;providing at least two different light sources in the mobile electronic device including a first light source for propagating light in a first direction defining a Y direction and a second light source for propagating light in a second direction defining a Z direction, said Y direction being at an angle of inclination to the Z direction;providing directional optical microprisms on the waveguide, said microprisms comprising a first array of microprisms comprising Y directional microprisms for emitting light only in the first direction defining a Y direction;a second array of microprisms comprising Z directional microprisms for emitting light only in the second direction defining a Z direction; anda third array of microprisms comprising YZ directional microprisms for emitting light in the first and second direction defining the Y and Z directions;propagating light in the first direction defining the Y direction from the first light source into the waveguide;emitting light from the first and third arrays of microprisms out of the waveguide in response to light propagating in the Y direction from the first light source;propagating light in the second direction defining the Z direction from the second light source into the waveguide;emitting light from the second and third arrays of microprisms out of the waveguide in response to light propagating in the Z direction from the second light source;displaying a first array of images on the display of the mobile electronic device in response to light emitted from the first and third arrays of microprisms when light is propagated in the Y direction from the first light source; anddisplaying a second array of images on the display of the mobile electronic device in response to light emitted from the second and third arrays of microprisms when light is propagated in the Z direction from the second light source. 2. The method of claim 1 wherein at least one of the light sources is selected from the group consisting of: a broadband light source for propagating white light;a monochromatic light source for propagating light of a single color; anda light emitting diode (LED). 3. The method of claim 1 wherein the images displayed on the display of the electronic device are based upon the geometry of the microprisms displaying the images rather than the wavelength and color of the light being propagated and rather than the viewing angle of the image displayed on the display of the electronic device. 4. The method of claim 1 including overlapping the first and second images when the first and second light sources are activated and propagating light. 5. The method of claim 1 wherein: said mobile electronic device is a handheld electronic device selected from the group consisting of with a cellular phone, mobile phone, smart phone, camera phone, personal digital assistant, an electronic device with a clamshell configuration, mobile communications device, wireless device, wireless e-mail device, two way pager, touch screen mobile device, camera, video camcorder, computer, microprocessor, central processing unit, and combinations thereof; andthe images are selected from the group consisting of graphics, texts, numbers, alpha numeric images, characters, icons, designs, logos, and combinations thereof. 6. The method of claim 1 wherein the microprisms are selected from the group consisting of tent-shaped microprisms, pyramid-shaped microprisms, embossed, microprisms, molded microprisms, and combinations thereof. 7. An electronic device for providing information and displaying images, comprising: a handheld electronic device comprising a display comprising a touch screen;an optical waveguide comprising only a single layer substantially planar waveguide;at least two different light sources including a first light source for propagating light in a first direction defining a Y direction and a second light source for propagating light in a second direction defining a Z direction, said Y direction being at an angle of inclination to the Z direction;said touch screen including a touch sensor used in conjunction with said optical waveguide, light sources and said display, matrixes of directional optical microprisms on said optical waveguide, said matrixes of microprisms comprising a first array of microprisms comprising Y directional microprisms for emitting light only in the first direction defining a Y direction;a second array of microprisms comprising Z directional microprisms for emitting light only in the second direction defining a Z direction; anda third array of microprisms comprising YZ directional microprisms for emitting light only in the first and second direction defining the Y and Z directions;a first array of images illuminating the display of the electronic device in response to light emitted from the first and third arrays of microprisms when light is propagated in the Y direction from the first light source; anda second array of images illuminating the display of the electronic device in response to light emitted from the second and third arrays of microprisms when light is propagated in the Z direction from the second light source. 8. The electronic device of claim 7 wherein: said handheld electronic device is selected from the group consisting of with a cellular phone, mobile phone, smart phone, camera phone, personal digital assistant, an electronic device with a clamshell configuration, mobile communications device, wireless device, wireless e-mail device, a two way pager, and combinations thereof;the images illuminated on said display are based upon the geometry of the microprism displaying the images rather than the wavelength and color of the light being propagated and rather than the viewing angled of the image illuminated on the display; andthe images are selected from the group consisting of graphics, text, numbers, alpha numeric images, characters, icons, designs, logos, and combinations thereof. 9. The electronic device of claim 7 wherein: at least one of said light sources are selected from the group consisting of a monochromatic light source for propagating light of a single color, a broadband light source for propagating white light, and a light-emitting diode (LED); andthe first and second light sources are orthogonal to each other.
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