[특허]Display device with diffractive optics

Display device with diffractive optics 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	G02B-005/32
출원번호	US-0419263 (2009-04-06)
등록번호	US-8368981 (2013-02-05)
발명자 / 주소	Gruhlke, Russell Wayne Bita, Ion Mienko, Marek Xu, Gang
출원인 / 주소	QUALCOMM MEMS Technologies, Inc.
인용정보	피인용 횟수 : 2 인용 특허 : 232

초록 ▼

Light modulator displays may be illuminated using a light guide comprising diffractive optics that directs light onto the light modulators. The light guide may comprise, for example, a holographic light turning element that turns light propagating within the light guide onto the array of light modulators. In some embodiments, the holographic element has multiple holographic functions. For example, the holographic element may additionally collimate ambient light or diffuse light reflected form the light modulators.

대표청구항 ▼

1. An illumination apparatus having front and rear surfaces, the illumination apparatus comprising: a plurality of holographic features between the front and rear surfaces, the front surface being forward the holographic features and the rear surface being rearward the holographic features;a first light guide forward the holographic features, wherein a largest surface of the first light guide faces the front surface; anda second light guide rearward the holographic features, the first and second light guides each configured to guide light therein,wherein the holographic features are disposed between the first light guide and the second light guide, andwherein the holographic features are configured to turn at least a portion of the light from each of the first and second light guides, such that the turned portions of light exit the apparatus through the rear surface. 2. The illumination apparatus of claim 1, wherein said holographic features are disposed in a holographic layer. 3. The illumination apparatus of claim 2, wherein said holographic layer forms an optical isolation layer for the first and second light guides. 4. The illumination apparatus of claim 1, wherein said holographic features comprise volume or surface features. 5. The illumination apparatus of claim 1, further comprising a plurality of display elements disposed rearward of said rear surface. 6. The illumination apparatus of claim 5, wherein the plurality of display elements comprises a plurality of interferometric modulators. 7. The illumination apparatus of claim 1, wherein the holographic features are further configured to collect ambient light incident thereon, and to collimate said collected light. 8. The illumination apparatus of claim 1, wherein the holographic features are further configured to diffuse light propagating from the rear surface. 9. The illumination apparatus of claim 8, wherein the holographic features are further configured to collect ambient light incident thereon, and to collimate said collected light. 10. The illumination apparatus of claim 1, further comprising: a display;a processor that is configured to communicate with said display, said processor being configured to process image data; anda memory device that is configured to communicate with said processor. 11. The illumination apparatus of claim 10, further comprising a driver circuit configured to send at least one signal to the display. 12. The illumination apparatus of claim 11, further comprising a controller configured to send at least a portion of the image data to the driver circuit. 13. The illumination apparatus of claim 10, further comprising an image source module configured to send said image data to said processor. 14. The illumination apparatus of claim 13, wherein the image source module comprises at least one of a receiver, transceiver, and transmitter. 15. The illumination apparatus of claim 10, further comprising an input device configured to receive input data and to communicate said input data to said processor. 16. The illumination apparatus of claim 1, wherein the holographic features are configured such that the turned portion of light from the first light guide propagates through the holographic features into the second light guide, and further configured such that the turned portion of light from the second light guide is redirected towards the rear surface and prevented from propagating into the first light guide. 17. An illumination apparatus having front and rear surfaces, the illumination apparatus comprising: holographic means for diffracting light between the front and rear surfaces, the front surface being forward the diffracting means and the rear surface being rearward the diffracting means;first means for guiding light disposed forward the diffracting means, wherein a largest surface of the first light guiding means faces the front surface; andsecond means for guiding light disposed rearward the diffracting means, the first and second light guiding means each configured to guide light therein,wherein the holographic means are disposed between the first light guiding means and the second light guiding means, andwherein the diffracting means are configured to turn at least a portion of the light from each of the first and second light guiding means, such that the turned portions of light exit the apparatus through the rear surface. 18. A method of manufacturing an illumination apparatus having front and rear surfaces, the method comprising: disposing a plurality of holographic features between the front and rear surfaces, the front surface being forward the holographic features and the rear surface being rearward the holographic features;disposing a first light guide forward the holographic features, such that a largest surface of the first light guide faces the front surface; anddisposing a second light guide rearward the holographic features, the first and second light guides each configured to guide light therein, such that the holographic features are disposed between the first light guide and the second light guide,wherein the holographic features are configured to turn at least a portion of the light from each of the first and second light guides, such that the turned portions of light exit the apparatus through the rear surface. 19. A method of using a multilayer stack having front and rear surfaces, the method comprising: guiding light in a first light guide forward a plurality of holographic features, the holographic features between the front and rear surfaces, the front surface being forward the holographic features and the rear surface being rearward the holographic features;guiding light in a second light guide rearward the holographic features, wherein a largest surface of the first light guide faces the front surface, and wherein the holographic features are disposed between the first light guide and the second light guide; andwith the holographic features, turning at least a portion of the light from each of the first and second light guides, such that the turned portions of light exit the apparatus through the rear surface. 20. An apparatus having front and rear surfaces, the apparatus comprising: a light guide having first and second ends, such that light injected into said first end is guided toward said second end via total internal reflection, wherein a largest surface of the light guide faces the front surface; anddiffractive optics disposed to receive light guided within the light guide and configured to turn a portion of said guided light out of said light guide, said diffractive optics further configured to collect ambient light incident thereon and collimate said ambient light,wherein said diffractive, optics comprises at least one holographic element. 21. An apparatus having front and rear surfaces, the apparatus comprising: means for guiding light having first and second ends, such that light injected into said first end is guided toward said second end via total internal reflection, wherein a largest surface of the light guiding means faces the front surface; andmeans for diffracting light disposed to receive light guided within the light guiding means and configured to turn a portion of said guided light out of said light guiding means, said light diffracting means further configured to collimate ambient light incident thereon,wherein said light diffracting means diffracts light holographically. 22. A method of manufacturing an illumination apparatus having front and rear surfaces, the method comprising: providing a light guide having first and second ends, such that light injected into said first end is guided toward said second end via total internal reflection, wherein a largest surface of the light guide faces the front surface; anddisposing diffractive optics to receive light guided within the light guide and configured to turn a portion of said guided light out of said light guide, said diffractive optics further configured to collimate said ambient light,wherein said diffractive optics comprises at least one holographic element. 23. An illumination apparatus having front and rear surfaces, the apparatus comprising: a light guide having first and second ends and forward and rearward surfaces, the light guide adapted such that light injected into said first end is guided between said forward and rearward surfaces toward said second end via total internal reflection, wherein the forward surface of the light guide faces the front surface of the apparatus; anddiffractive optics disposed to receive light guided within the light guide and configured to turn a portion of said guided light out of said light guide through said rearward surface, said diffractive optics further configured to diffuse light that enters said light guide through said rearward surface and exits said light guide through said forward surface,wherein said diffractive optics comprises at least one holographic element. 24. An illumination apparatus having front and rear surfaces, the apparatus comprising: means for guiding light having first and second ends and forward and rearward surfaces, the light guiding means adapted such that light injected into said first end is guided between said forward and rearward surfaces toward said second end via total internal reflection, wherein the forward surface of the light guide faces the front surface of the apparatus; andmeans for diffracting light, the diffracting means configured to receive light guided within the light guiding means and turn a portion of said guided light out of said light guiding means through said rearward surface, said light diffracting means further configured to diffuse light that enters said light guiding means through said rearward surface and exits said light guiding means through said forward surface,wherein said light diffracting means diffracts light holographically. 25. A method of manufacturing an illumination apparatus having front and rear surfaces, the method comprising: providing a light guide having first and second ends and forward and rearward surfaces, the light guide adapted such that light injected into said first end is guided between said forward and rearward surfaces toward said second end via total internal reflection, wherein the forward surface of the light guide faces the front surface of the apparatus; anddisposing diffractive optics to receive light guided within the light guide and turn a portion of said guided light out of said light guide through said rearward surface, said diffractive optics configured to diffuse light that enters said light guide through said rearward surface and exits said light guide through said forward surface,wherein said diffractive optics comprises at least one holographic element.

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Winston Roland ; Holman Robert L. ; Jacobson Benjamin A. ; Emmons Robert M. ; Gleckman Philip,NLX, Luminaire device.
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Almogy, Gilad, Maskless photon-electron spot-grid array printer.
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Parikka, Marko, Method and apparatus for distributing light to the user interface of an electronic device.
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Wang, Chun-Ming; Tung, Ming-Hau; Ganti, Surya Prakash, Method and apparatus for providing back-lighting in a display device.
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Wang, Chun Ming; Tung, Ming Hau; Ganti, Surya Prakash, Method and apparatus for providing back-lighting in an interferometric modulator display device.
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Martin, Eric T.; Piehl, Art; Ghozeil, Adam, Method and apparatus for reducing charge injection in control of MEMS electrostatic actuator array.
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Kothari, Manish, Method and device for compensating for color shift as a function of angle of view.
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Terashita, Shinichi, Method and device for measuring cell gap of liquid crystal display using near-IR radiation.
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Miles, Mark W., Method and device for modulating light with optical compensation.
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Islam,Mohammed N., Method and system for processing photonic systems using semiconductor devices.
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Miles, Mark W., Method for fabricating a structure for a microelectromechanical systems (MEMS) device.
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Larson Brent D., Method for making a polarization-sensitive optical element.
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Swanson Gary J. ; Gale Ronald P., Method of imaging using a liquid crystal display device.
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Yamazaki Shunpei (Tokyo JPX) Mase Akira (Aichi JPX) Hamatani Toshiji (Kanagawa JPX) Nishi Takeshi (Kanagawa JPX), Method of manufacturing electro-optical devices wherein the electrode is patterned on the modulation layer.
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Sampsell, Jeffrey B., Methods and devices for lighting displays.
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Tung,Ming Hau; Kogut,Lior, Methods for producing MEMS with protective coatings using multi-component sacrificial layers.
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Fadel, Edward; Freese, Robert P.; Reed, David; Walker, Dale S., Micro-lens array with precisely aligned aperture mask and methods of producing same.
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Sasagawa,Teruo; Kogut,Lior, Microelectromechanical device and method utilizing a porous surface.
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Chui, Clarence; Miles, Mark W., Microelectromechanical systems device and method for fabricating same.
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Shapiro Leonid, Microlens imbedded liquid crystal projection panel including thermal insulation layer.
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Stern Ernest, Micromechanical optical switch and flat panel display.
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Patel,Satyadev R.; Huibers,Andrew G., Micromirror having reduced space between hinge and mirror plate of the micromirror.
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Roberts John K. (Sheboygan WI) Spencer Keith R. (Sheboygan WI), Mirror assembly.
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Lih Y. Lin, Monolithic integration of signal-monitoring scheme in an optical switch.
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Koo Hee-Sool,KRX ; Na Man-Ho,KRX, Optical apparatus for liquid crystal display projector.
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Akutsu,Katsuyuki; Mukawa,Hiroshi, Optical device and image display apparatus.
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Kashima,Keiji, Optical display including a cholesteric layer, a display device and a diffusing layer on an exit side of the cholesteric layer.
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Kimura, Koichi, Optical element, optical light source unit and optical display device equipped with the optical light source unit.
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Umemoto, Seiji; Ariyoshi, Toshihiko, Optical film.
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Umemoto, Seiji; Ariyoshi, Toshihiko, Optical film.
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Umemoto, Seiji; Ariyoshi, Toshihiko, Optical film and liquid-crystal display device.
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Campbell Alan B. ; McKee Andrew ; Cobb ; Jr. Sanford ; Kretman Wade D., Optical film with defect-reducing surface and method for making same.
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Gally, Brian J.; Cummings, William J., Optical films for controlling angular characteristics of displays.
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Gally,Brian J.; Cummings,William J., Optical films for controlling angular characteristics of displays.
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Gally, Brian J.; Cummings, William J., Optical films for directing light towards active areas of displays.
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Lee, Jong Ik; Shin, Sung Hyu; Lee, Dong Won, Optical fingerprint acquisition apparatus.
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Piehl,Arthur; Przybyla,James R.; Ghozeil,Adam L; Martin,Eric T., Optical interference pixel display with charge control.
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Lin,Wen Jian, Optical interference type of color display.
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Lin,Wen Jian, Optical interference type of color display having optical diffusion layer between substrate and electrode.
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Cheben,Pavel; Janz,Siegfried; Lamontagne,Boris; Xu,Dan Xia, Optical off-chip interconnects in multichannel planar waveguide devices.
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Kawano,Katsunori; Minabe,Jiro; Maruyama,Tatsuya; Yasuda,Shin; Matsui,Norie; Ishii,Tsutomu; Hama,Kazuhiro, Optical recording apparatus and optical recording/reproducing apparatus.
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Izumi Yoshihiro (Kashihara) Fujiwara Sayuri (Nara), Optical scanning device an optical scanning type display and an image data input/output device.
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Olczak, Eugene George, Optical substrate and method of making.
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De Groot, Peter; De Lega, Xavier Colonna; Grigg, David; Biegen, James, Optical systems for measuring form and geometric dimensions of precision engineered parts.
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Landis Geoffrey A. (Brook Park OH) Jenkins Phillip P. (Cleveland Heights OH), Optoelectronic and photovoltaic devices with low-reflectance surfaces.
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Gally,Brian J.; Cummings,William J., Ornamental display device.
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Shiono Teruhiro,JPX ; Ueda Michihito,JPX ; Ito Tatsuo,JPX ; Yokoyama Kazuo,JPX, Output efficiency control device, projection-type display apparatus, infrared sensor, and non-contact thermometer.
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Gupta, Anurag; Howard, Peter Guy, Overfill reduction for an optical modulator.
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Mineo, Yutaka, Photodiffusion sheet and backlight unit using this.
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Chui, Clarence, Photonic MEMS and structures.
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Miles,Mark W., Photonic MEMS and structures.
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Miles,Mark W., Photonic MEMS and structures.
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Miles, Mark W., Photonic mems and structures.
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Ponewash Jackie, Photovoltaic cells having micro-embossed optical enhancing structures.
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Vogeli Craig (New Baltimore MI) Nath Prem (Rochester Hills MI), Photovoltaic device with decreased gridline shading and method for its manufacture.
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Yamashita, Tomoyoshi; Hayashi, Yasuko; Chiba, Issei, Planar light source system and light deflecting device therefor.
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Mitsutake Hideaki (Tokyo JPX) Kawasaki Shigeru (Atsugi JPX), Polarization converting device and polarized-light illuminating system using the device and image display unit using the.
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Minoura Nobuo (Yokohama JPX) Kimura Kazumi (Atsugi JPX), Polarization illumination device and projector having the same.
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Chen Jing Hong ; Schubert Frederic E. ; Hou Wei-Hsin, Polymeric-coated dielectric particles and formulation and method for preparing same.
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Nakamura Shigeru (Tachikawa JPX) Arimoto Akira (Kodaira JPX) Suzuki Kenkichi (Mobara JPX) Shibata Katsuhiko (Mobara JPX), Prism plate for efficiently emitting light flux within a predetermined range, and liquid crystal indicator and indicator.
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Hwang,Kab Jin; Lee,Seoung Ho, Prism sheet employed in a backlight unit.
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Cummings,William J.; Gally,Brian J., Process for modifying offset voltage characteristics of an interferometric modulator.
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Deacon David A. G. (Los Altos CA) Bischel William K. (Menlo Park CA) Brinkman Michael J. (Redwood City CA) DeWath Edward J. (Cupertino CA) Dryer Mark J. (San Jose CA) Field Simon J. (Menlo Park CA), Projection display with electrically-controlled waveguide routing.
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Shioya Yukinori (Tokyo JPX), Projection type liquid crystal display apparatus using multiple polarizing beam splitters.
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Karasawa Johji (Suwa JPX) Shinozaki Junichirou (Suwa JPX), Projection type liquid crystal display system and method of polarized light component projection.
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Tanaka Seiichi,JPX ; Yamanaka Atsushi,JPX, Projector using a small-size optical system.
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Favalora, Gregg E.; Napoli, Joshua; Oliver, David-Henry, Radiation conditioning system.
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Hamada,Tetsuya; Tashiro,Kunihiro; Sugawara,Mari; Suzuki,Toshihiro, Reflection-type liquid crystal display device.
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Cole Eric D., Reflective concentrating solar cell assembly.
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Graham John Woodgate GB; Marina Vladimirovna Khazova GB, Reflective display device and a light source for a display device.
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Inoguchi Kazutaka,JPX ; Yamazaki Shoichi,JPX ; Morishima Hideki,JPX, Reflective image display apparatus.
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Yano, Shuuji; Umemoto, Seiji, Reflective liquid crystal display.
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Umemoto, Seiji; Nakano, Yuuki; Kinoshita, Ryoji; Kishioka, Hiroaki; Sakaitani, Waka, Reflective liquid-crystal display device.
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Cross,Elisa M.; Moshrefzadeh,Robert S.; Whitney,Leland R., Resistive touch sensor having microstructured conductive layer.
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Ramirez, Ayax D.; Russell, Stephen D.; Shimabukuro, Randy L., Resonance tunable optical filter.
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Afian Viktor V. (ulitsa Sevaka ; 2 ; kv. 13 Erevan SUX) Vartanian Albert V. (Aigestan-10 ; 2 ; kv. 57 Erevan SUX) Martirosian Ruben G. (ulitsa Shinararneri ; 27 ; kv. 32 Erevan SUX) Ryabikov Stanisla, Solar concentrator and manufacturing method therefor.
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Chui,Clarence; Sampsell,Jeffrey B.; Cummings,William J.; Tung,Ming Hau, Spatial light modulator with integrated optical compensation structure.
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Mochizuki, Fumihiko, Spatial light modulator, spatial light modulator array, image forming device and flat panel display.
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Egawa, Motoji; Shimura, Takahiro; Suzuki, Shingo, Spread illuminating apparatus.
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Toyoda, Koichi, Spread illuminating apparatus.
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Mizutani, Hitoshi; Suzuki, Shingo; Egawa, Motoji, Spread illuminating apparatus without light conductive bar.
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Nakamura, Sadao, Surface light emission device, method of manufacturing the same, and liquid crystal display device.
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Koike Yasuhiro (Yokohama JPX) Arai Takayuki (Kasukabe JPX), Surface light source device and liquid crystal display.
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Ishikawa Tsuyoshi,JPX ; Watai Kayoko,JPX ; Yokoyama Kazuaki,JPX, Surface light source device of side light type.
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Koike Yasuhiro,JPX ; Arai Takayuki,JPX, Surface light source device with polarization function.
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Higashiyama,Hiroshi, Surface light source for emitting light from two surfaces and double-sided display device using the same.
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Floyd,Philip D., System and method for providing thermal compensation for an interferometric modulator display.
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Sampsell, Jeffrey B., System and method of reducing color shift in a display.
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Thompson E. Earle ; DeMond Thomas W., System for imaging of light-sensitive media.
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Cummings,William; Gally,Brian, Systems and methods for measuring color and contrast in specular reflective devices.
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Gruhike, Russell Wayne; Mienko, Mark; Xu, Gang; Bita, Ion, Systems and methods of providing a light guiding layer.
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Chui, Clarence, Systems and methods using interferometric optical modulators and diffusers.
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Chui, Clarence, Systems and methods using interferometric optical modulators and diffusers.
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Kawashima, Satoshi; Ishigami, Katsuji, Touch panel for display device with pet film having transparent gel layer.
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Holman,Robert L., Uniform illumination system.
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Holman,Robert L.; Cox,Arthur, Uniform illumination system.
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Martulli Donald L. (Clark NJ) Smoot Lanny S. (Morris Township ; Morris County NJ), Video imaging device in a teleconferencing system.
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Caulfield H. John (Huntsville AL) Huang Qiang (Huntsville AL) Putilin Andrei (Moscow CO SUX) Morozov Valentin (Boulder CO) Shamir Joseph (Haifa ILX), Waveguide hologram illuminators.
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Tsutsui Hiroshi (Yawata JPX) Taketomi Yoshinao (Moriguchi JPX), Waveguide-type image transmission device and fingerprint identification device.
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Jacobsen Jeffrey ; Fan John C. C. ; Pombo Stephen A. ; Zavracky Matthew ; Bumgardner Rodney ; Richard Alan, Wireless telephone display system.
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Bita, Ion; Xu, Gang; Wang, Lai; Mienko, Marek; Gruhlke, Russell Wayne, Decoupled holographic film and diffuser.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

연합인증

Display device with diffractive optics 원문보기

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Display device with diffractive optics 원문보기

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대표청구항 ▼

연구과제 타임라인

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이 특허에 인용된 특허 (232)

이 특허를 인용한 특허 (2)

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