Patents by Inventor Teng-Hsien Lai
Teng-Hsien Lai has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240162201Abstract: A micro semiconductor device includes an epitaxial structure and an optical layer. The optical layer is disposed on the epitaxial structure. The optical layer is a multi-layer film structure including a first film layer, a second film layer, and a third film layer disposed between the first film layer and the second film layer. A refractive index of the first film layer and a refractive index of the second film layer are both greater than a refractive index of the third film layer. A thickness of the third film layer is greater than a thickness of the first film layer and s thickness of the second film layer. A reflectivity of the optical layer to an external light of the micro semiconductor device is greater than a self-luminescence of the epitaxial structure of the micro semiconductor device.Type: ApplicationFiled: November 28, 2022Publication date: May 16, 2024Applicant: PlayNitride Display Co., Ltd.Inventors: Yu-Hsuan Hsiao, Teng-Hsien Lai, Tzu-Yang Lin
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Patent number: 10734551Abstract: The invention provides an LED including a first-type semiconductor layer, an emitting layer, a second-type semiconductor layer, a first electrode, a second electrode, a Bragg reflector structure, a conductive layer and insulation patterns. The first electrode and the second electrode are located on the same side of the Bragg reflector structure. The conductive layer is disposed between the Bragg reflector structure and the second-type semiconductor layer. The insulation patterns are disposed between the conductive layer and the second-type semiconductor layer. Each insulating layer has a first surface facing toward the second-type semiconductor layer, a second surface facing away from the second-type semiconductor layer, and an inclined surface. The inclined surface connects the first surface and the second surface and is inclined with respect to the first surface and the second surface.Type: GrantFiled: October 21, 2019Date of Patent: August 4, 2020Assignee: Genesis Photonics Inc.Inventors: Yi-Ru Huang, Tung-Lin Chuang, Yan-Ting Lan, Sheng-Tsung Hsu, Chih-Ming Shen, Jing-En Huang, Teng-Hsien Lai, Hung-Chuan Mai, Kuan-Chieh Huang, Shao-Ying Ting, Cheng-Pin Chen, Wei-Chen Chien, Chih-Chin Cheng, Chih-Hung Tseng
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Publication number: 20200052159Abstract: The invention provides an LED including a first-type semiconductor layer, an emitting layer, a second-type semiconductor layer, a first electrode, a second electrode, a Bragg reflector structure, a conductive layer and insulation patterns. The first electrode and the second electrode are located on the same side of the Bragg reflector structure. The conductive layer is disposed between the Bragg reflector structure and the second-type semiconductor layer. The insulation patterns are disposed between the conductive layer and the second-type semiconductor layer. Each insulating layer has a first surface facing toward the second-type semiconductor layer, a second surface facing away from the second-type semiconductor layer, and an inclined surface. The inclined surface connects the first surface and the second surface and is inclined with respect to the first surface and the second surface.Type: ApplicationFiled: October 21, 2019Publication date: February 13, 2020Applicant: Genesis Photonics Inc.Inventors: Yi-Ru Huang, Tung-Lin Chuang, Yan-Ting Lan, Sheng-Tsung Hsu, Chih-Ming Shen, Jing-En Huang, Teng-Hsien Lai, Hung-Chuan Mai, Kuan-Chieh Huang, Shao-Ying Ting, Cheng-Pin Chen, Wei-Chen Chien, Chih-Chin Cheng, Chih-Hung Tseng
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Patent number: 10453999Abstract: The invention provides an LED including a first-type semiconductor layer, an emitting layer, a second-type semiconductor layer, a first electrode, a second electrode, a Bragg reflector structure, a conductive layer and insulation patterns. The first electrode and the second electrode are located on the same side of the Bragg reflector structure. The conductive layer is disposed between the Bragg reflector structure and the second-type semiconductor layer. The insulation patterns are disposed between the conductive layer and the second-type semiconductor layer. Each insulating layer has a first surface facing toward the second-type semiconductor layer, a second surface facing away from the second-type semiconductor layer, and an inclined surface. The inclined surface connects the first surface and the second surface and is inclined with respect to the first surface and the second surface.Type: GrantFiled: May 16, 2018Date of Patent: October 22, 2019Assignee: Genesis Photonics Inc.Inventors: Yi-Ru Huang, Tung-Lin Chuang, Yan-Ting Lan, Sheng-Tsung Hsu, Chih-Ming Shen, Jing-En Huang, Teng-Hsien Lai, Hung-Chuan Mai, Kuan-Chieh Huang, Shao-Ying Ting, Cheng-Pin Chen, Wei-Chen Chien, Chih-Chin Cheng, Chih-Hung Tseng
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Publication number: 20190312176Abstract: A light-emitting diode including a semiconductor epitaxial layer, a first electrode, and a second electrode is provided. The semiconductor epitaxial layer includes a first-type doped semiconductor layer, a second-type doped semiconductor layer, and a quantum well layer. A recessed portion is formed in the semiconductor epitaxial layer. The recessed portion separates the second-type doped semiconductor layer, the quantum well layer, and a portion of the first-type doped semiconductor layer and defines a first region and a second region on the semiconductor epitaxial layer. The first electrode is located in the first region and electrically connected to at least a portion of the first-type doped semiconductor layer and at least a portion of the second-type doped semiconductor layer. The second electrode is located in the second region and electrically connected to the second-type doped semiconductor layer.Type: ApplicationFiled: June 17, 2019Publication date: October 10, 2019Applicant: Genesis Photonics Inc.Inventors: Tsung-Syun Huang, Jing-En Huang, Yu-Chen Kuo, Yan-Ting Lan, Kai-Shun Kang, Fei-Lung Lu, Teng-Hsien Lai, Yi-Ru Huang
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Patent number: 10326047Abstract: A light-emitting diode including a semiconductor epitaxial layer, a first electrode, and a second electrode is provided. The semiconductor epitaxial layer includes a first-type doped semiconductor layer, a second-type doped semiconductor layer, and a quantum well layer. A recessed portion is formed in the semiconductor epitaxial layer. The recessed portion separates the second-type doped semiconductor layer, the quantum well layer, and a portion of the first-type doped semiconductor layer and defines a first region and a second region on the semiconductor epitaxial layer. The first electrode is located in the first region and electrically connected to at least a portion of the first-type doped semiconductor layer and at least a portion of the second-type doped semiconductor layer. The second electrode is located in the second region and electrically connected to the second-type doped semiconductor layer.Type: GrantFiled: September 2, 2016Date of Patent: June 18, 2019Assignee: Genesis Photonics Inc.Inventors: Tsung-Syun Huang, Jing-En Huang, Yu-Chen Kuo, Yan-Ting Lan, Kai-Shun Kang, Fei-Lung Lu, Teng-Hsien Lai, Yi-Ru Huang
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Publication number: 20180337310Abstract: A light emitting diode including a first-type semiconductor layer, an emitting layer, a second-type semiconductor layer, a first electrode, a second electrode, and a Bragg reflector structure. The emitting layer is configured to emit a light beam and is located between the first-type semiconductor layer and the second-type semiconductor layer. The light beam has a peak wavelength in a light emitting wavelength range. The first-type semiconductor layer, the emitting layer, and the second-type semiconductor layer are located on a same side of the Bragg reflector structure. A reflectance of the Bragg reflector structure is greater than or equal to 95% in a reflective wavelength range at least covering 0.8X nm to 1.8X nm, and X is the peak wavelength of the light emitting wavelength range.Type: ApplicationFiled: July 30, 2018Publication date: November 22, 2018Applicant: Genesis Photonics Inc.Inventors: Yi-Ru Huang, Tung-Lin Chuang, Yan-Ting Lan, Sheng-Tsung Hsu, Chih-Ming Shen, Jing-En Huang, Teng-Hsien Lai, Hung-Chuan Mai, Kuan-Chieh Huang, Shao-Ying Ting
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Publication number: 20180261727Abstract: The invention provides an LED including a first-type semiconductor layer, an emitting layer, a second-type semiconductor layer, a first electrode, a second electrode, a Bragg reflector structure, a conductive layer and insulation patterns. The first electrode and the second electrode are located on the same side of the Bragg reflector structure. The conductive layer is disposed between the Bragg reflector structure and the second-type semiconductor layer. The insulation patterns are disposed between the conductive layer and the second-type semiconductor layer. Each insulating layer has a first surface facing toward the second-type semiconductor layer, a second surface facing away from the second-type semiconductor layer, and an inclined surface. The inclined surface connects the first surface and the second surface and is inclined with respect to the first surface and the second surface.Type: ApplicationFiled: May 16, 2018Publication date: September 13, 2018Applicant: Genesis Photonics Inc.Inventors: Yi-Ru Huang, Tung-Lin Chuang, Yan-Ting Lan, Sheng-Tsung Hsu, Chih-Ming Shen, Jing-En Huang, Teng-Hsien Lai, Hung-Chuan Mai, Kuan-Chieh Huang, Shao-Ying Ting, Cheng-Pin Chen, Wei-Chen Chien, Chih-Chin Cheng, Chih-Hung Tseng
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Publication number: 20180248078Abstract: Provided is a light-emitting diode chip including a semiconductor device layer, a first electrode, a current-blocking layer, a current-spreading layer, and a second electrode. The semiconductor device layer includes a first-type doped semiconductor layer, a second-type doped semiconductor layer, and a light-emitting layer therebetween. The first electrode is electrically connected to the first-type doped semiconductor layer. The current-blocking layer is on the second-type doped semiconductor layer. The current-blocking layer is between the current-spreading layer and the second-type doped semiconductor layer. The second electrode is on the current-spreading layer and electrically connected to the second-type doped semiconductor layer. The current-blocking layer has a first surface facing the semiconductor device layer, a second surface back on to the semiconductor device layer, and a first inclined surface.Type: ApplicationFiled: April 30, 2018Publication date: August 30, 2018Inventors: Yu-Chen Kuo, Teng-Hsien Lai, Kai-Shun Kang, Yan-Ting Lan, Jing-En Huang, Cheng-Pin Chen, Wei-Chen Chien, Chih-Chin Cheng, Chih-Hung Tseng
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Patent number: 10050173Abstract: A light emitting device includes a semiconductor light emitting unit and a light-transmitting substrate. The light-transmitting substrate includes an upper surface having two long sides and two short sides and a side surface, and the semiconductor light emitting unit is disposed on the upper surface. The side surface includes two first surfaces, two second surfaces, and rough micro-structures. Each of the first surfaces is connected to one of the long sides of the upper surface, and each of the second surfaces is connected to one of the short sides of the upper surface. The rough micro-structures are formed on the first surfaces and the second surfaces, a covering rate of the rough micro-structures on each of the first surfaces is greater than or equal to a covering rate of the rough micro-structures on each of the second surfaces. A manufacturing method of the light emitting device is also provided.Type: GrantFiled: February 17, 2016Date of Patent: August 14, 2018Assignee: Genesis Photonics Inc.Inventors: Jing-En Huang, Kai-Shun Kang, Yu-Chen Kuo, Fei-Lung Lu, Teng-Hsien Lai
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Patent number: 10038121Abstract: A light emitting diode including a first-type semiconductor layer, an emitting layer, a second-type semiconductor layer, a first electrode, a second electrode, and a Bragg reflector structure. The emitting layer is configured to emit a light beam and is located between the first-type semiconductor layer and the second-type semiconductor layer. The light beam has a peak wavelength in a light emitting wavelength range. The first-type semiconductor layer, the emitting layer, and the second-type semiconductor layer are located on a same side of the Bragg reflector structure. A reflectance of the Bragg reflector structure is greater than or equal to 95% in a reflective wavelength range at least covering 0.8X nm to 1.8X nm, and X is the peak wavelength of the light emitting wavelength range.Type: GrantFiled: February 17, 2016Date of Patent: July 31, 2018Assignee: Genesis Photonics Inc.Inventors: Yi-Ru Huang, Tung-Lin Chuang, Yan-Ting Lan, Sheng-Tsung Hsu, Chih-Ming Shen, Jing-En Huang, Teng-Hsien Lai, Hung-Chuan Mai, Kuan-Chieh Huang, Shao-Ying Ting
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Publication number: 20170062653Abstract: A light-emitting diode including a semiconductor epitaxial layer, a first electrode, and a second electrode is provided. The semiconductor epitaxial layer includes a first-type doped semiconductor layer, a second-type doped semiconductor layer, and a quantum well layer. A recessed portion is formed in the semiconductor epitaxial layer. The recessed portion separates the second-type doped semiconductor layer, the quantum well layer, and a portion of the first-type doped semiconductor layer and defines a first region and a second region on the semiconductor epitaxial layer. The first electrode is located in the first region and electrically connected to at least a portion of the first-type doped semiconductor layer and at least a portion of the second-type doped semiconductor layer. The second electrode is located in the second region and electrically connected to the second-type doped semiconductor layer.Type: ApplicationFiled: September 2, 2016Publication date: March 2, 2017Applicant: Genesis Photonics Inc.Inventors: Tsung-Syun Huang, Jing-En Huang, Yu-Chen Kuo, Yan-Ting Lan, Kai-Shun Kang, Fei-Lung Lu, Teng-Hsien Lai, Yi-Ru Huang
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Publication number: 20160329461Abstract: The invention provides an LED including a first-type semiconductor layer, an emitting layer, a second-type semiconductor layer, a first electrode, a second electrode, a Bragg reflector structure, a conductive layer and insulation patterns. The first electrode and the second electrode are located on the same side of the Bragg reflector structure. The conductive layer is disposed between the Bragg reflector structure and the second-type semiconductor layer. The insulation patterns are disposed between the conductive layer and the second-type semiconductor layer. Each insulating layer has a first surface facing toward the second-type semiconductor layer, a second surface facing away from the second-type semiconductor layer, and an inclined surface. The inclined surface connects the first surface and the second surface and is inclined with respect to the first surface and the second surface.Type: ApplicationFiled: April 22, 2016Publication date: November 10, 2016Inventors: Yi-Ru Huang, Tung-Lin Chuang, Yan-Ting Lan, Sheng-Tsung Hsu, Chih-Ming Shen, Jing-En Huang, Teng-Hsien Lai, Hung-Chuan Mai, Kuan-Chieh Huang, Shao-Ying Ting, Cheng-Pin Chen, Wei-Chen Chien, Chih-Chin Cheng, Chih-Hung Tseng
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Publication number: 20160315238Abstract: Provided is a light-emitting diode chip including a semiconductor device layer, a first electrode, a current-blocking layer, a current-spreading layer, and a second electrode. The semiconductor device layer includes a first-type doped semiconductor layer, a second-type doped semiconductor layer, and a light-emitting layer therebetween. The first electrode is electrically connected to the first-type doped semiconductor layer. The current-blocking layer is on the second-type doped semiconductor layer. The current-blocking layer is between the current-spreading layer and the second-type doped semiconductor layer. The second electrode is on the current-spreading layer and electrically connected to the second-type doped semiconductor layer. The current-blocking layer has a first surface facing the semiconductor device layer, a second surface back on to the semiconductor device layer, and a first inclined surface.Type: ApplicationFiled: April 22, 2016Publication date: October 27, 2016Inventors: Yu-Chen Kuo, Teng-Hsien Lai, Kai-Shun Kang, Yan-Ting Lan, Jing-En Huang, Cheng-Pin Chen, Wei-Chen Chien, Chih-Chin Cheng, Chih-Hung Tseng
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Publication number: 20160247972Abstract: A light-emitting diode chip including a semiconductor device layer, a first electrode, a current-blocking layer, a current-spreading layer, and a second electrode is provided. The semiconductor device layer includes a first-type doped semiconductor layer, a second-type doped semiconductor layer, and a light-emitting layer located between the first-type and second-type doped semiconductor layers. The first electrode is electrically connected to the first-type doped semiconductor layer. The current-blocking layer is disposed on the second-type doped semiconductor layer, and the current-blocking layer includes a main body and an extension portion extended from the main body. The current-spreading layer covers the current-blocking layer.Type: ApplicationFiled: February 17, 2016Publication date: August 25, 2016Inventors: Yu-Chen Kuo, Teng-Hsien Lai, Kai-Shun Kang, Yan-Ting Lan, Jing-En Huang
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Publication number: 20160247985Abstract: A light emitting device includes a semiconductor light emitting unit and a light-transmitting substrate. The light-transmitting substrate includes an upper surface having two long sides and two short sides and a side surface, and the semiconductor light emitting unit is disposed on the upper surface. The side surface includes two first surfaces, two second surfaces, and rough micro-structures. Each of the first surfaces is connected to one of the long sides of the upper surface, and each of the second surfaces is connected to one of the short sides of the upper surface. The rough micro-structures are formed on the first surfaces and the second surfaces, a covering rate of the rough micro-structures on each of the first surfaces is greater than or equal to a covering rate of the rough micro-structures on each of the second surfaces. A manufacturing method of the light emitting device is also provided.Type: ApplicationFiled: February 17, 2016Publication date: August 25, 2016Inventors: Jing-En Huang, Kai-Shun Kang, Yu-Chen Kuo, Fei-Lung Lu, Teng-Hsien Lai
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Publication number: 20160247974Abstract: A light emitting diode including a first-type semiconductor layer, an emitting layer, a second-type semiconductor layer, a first electrode, a second electrode, and a Bragg reflector structure. The emitting layer is configured to emit a light beam and is located between the first-type semiconductor layer and the second-type semiconductor layer. The light beam has a peak wavelength in a light emitting wavelength range. The first-type semiconductor layer, the emitting layer, and the second-type semiconductor layer are located on a same side of the Bragg reflector structure. A reflectance of the Bragg reflector structure is greater than or equal to 95% in a reflective wavelength range at least covering 0.8X nm to 1.8X nm, and X is the peak wavelength of the light emitting wavelength range.Type: ApplicationFiled: February 17, 2016Publication date: August 25, 2016Inventors: Yi-Ru Huang, Tung-Lin Chuang, Yan-Ting Lan, Sheng-Tsung Hsu, Chih-Ming Shen, Jing-En Huang, Teng-Hsien Lai, Hung-Chuan Mai, Kuan-Chieh Huang, Shao-Ying Ting
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Publication number: 20160240741Abstract: A light emitting component includes an epitaxial structure, a first electrode, a conducting layer and a second electrode. The epitaxial structure includes a substrate, a first semiconductor layer, a light emitting layer and a second semiconductor layer. The first electrode is disposed on the first semiconductor layer. The conducting layer is disposed on the second semiconductor layer and includes a first conducting area and a second conducting area, wherein a resistance of the first conducting area is smaller than a resistance of the second conducting area. The second electrode is disposed on the conducting layer and has an extension portion, wherein the extension portion extends toward the first electrode and the first conducting area overlaps at least a part of the extension portion.Type: ApplicationFiled: February 17, 2016Publication date: August 18, 2016Inventors: Yu-Chen Kuo, Yan-Ting Lan, Jing-En Huang, Teng-Hsien Lai, Kai-Shun Kang