Keng-Yu
Keng-Yu Chen, Tainan City TW
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20150115381 | MECHANISMS FOR FORMING RADIO FREQUENCY (RF) AREA OF INTEGRATED CIRCUIT STRUCTURE - Embodiments of mechanisms of forming a radio frequency area of an integrated circuit are provided. The radio frequency area of an integrated circuit structure includes a substrate, a buried oxide layer formed over the substrate, and an interface layer formed between the substrate and the buried oxide layer. The radio frequency area of an integrated circuit structure also includes a silicon layer formed over the buried oxide layer and an interlayer dielectric layer formed in a deep trench. The radio frequency area of an integrated circuit structure further includes the interlayer dielectric layer extending through the silicon layer, the buried oxide layer and the interface layer. The radio frequency area of an integrated circuit structure includes an implant region formed below the interlayer dielectric layer in the deep trench and a polysilicon layer formed below the implant region. | 04-30-2015 |
20150206902 | SEMICONDUCTOR DEVICE AND METHOD FOR FORMING THE SAME - Embodiments for forming a semiconductor device structure are provided. The semiconductor device structure includes a substrate and a buried oxide layer formed over the substrate. An interface layer is formed between the substrate and the buried oxide layer. The semiconductor device structure also includes a silicon layer formed over the buried oxide layer; and a polysilicon layer formed over the substrate and in a deep trench. The polysilicon layer extends through the silicon layer, the buried oxide layer and the interface layer. | 07-23-2015 |
Keng-Yu Chen, Taoyuan City TW
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20150205763 | METHOD FOR UPDATING PAGE OF ELECTRONIC DEVICE - A method for updating a page of an electronic device is provided. The page includes a first row and a second row. Each of the first row and the second row includes one or two tiles. Each tile comprises a picture. The method comprises the following steps. After an update that results in insertion of a plurality of new tiles into the page occurs, three new tiles of the plurality of new tiles are displayed by using either a first tile layout or a second tile layout in a third row and a fourth row. The number of tiles in the third row is one and the number of tiles in the fourth row is two in the first tile layout. The number of tiles in the third row is two and the number of tiles in the fourth row is one in the second tile layout. | 07-23-2015 |
Keng-Yu Chou, Kaoshiung City TW
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20110260280 | Back Side Defect Reduction For Back Side Illuminated Image Sensor - Provided is an image sensor device. The image sensor device includes a substrate having a front side and a back side. The image sensor also includes a radiation-detection device that is formed in the substrate. The radiation-detection device is operable to detect a radiation wave that enters the substrate through the back side. The image sensor further includes a recrystallized silicon layer. The recrystalized silicon layer is formed on the back side of the substrate. The recrystalized silicon layer has different photoluminescence intensity than the substrate. | 10-27-2011 |
20110298072 | RIDGE STRUCTURE FOR BACK SIDE ILLUMINATED IMAGE SENSOR - Provided is an image sensor device. The image sensor device includes a substrate having a front side and a back side. The image sensor includes first and second radiation-detection devices that are disposed in the substrate. The first and second radiation-detection devices are operable to detect radiation waves that enter the substrate through the back side. The image sensor also includes an anti-reflective coating (ARC) layer. The ARC layer is disposed over the back side of the substrate. The ARC layer has first and second ridges that are disposed over the first and second radiation-detection devices, respectively. The first and second ridges each have a first refractive index value. The first and second ridges are separated by a substance having a second refractive index value that is less than the first refractive index value. | 12-08-2011 |
Keng-Yu Lin, Taipei City TW
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20100124316 | METHOD, APPARATUS, AND COMPUTER READABLE MEDIUM THEREOF FOR ENABLING AN INTERNET EXTENSION TO RING A CONVENTIONAL EXTENSION - A method, an apparatus, and a computer program product thereof for enabling an Internet extension to ring a conventional extension are disclosed. The apparatus comprises an SIP proxy and an RTP relay. The SIP proxy receives a calling request from the Internet extension, substitutes an exchange number for a conventional extension number comprised in the calling request, and transmits the substituted calling request to a gateway, so that the substituted calling request can be transmitted to a voice automatic machine via a telephone exchange. The RTP relay transmits the conventional extension number in DTMF format to the gateway. Thus, this invention enables the Internet extension to ring the conventional extension with lower hardware costs. | 05-20-2010 |
Keng-Yu Lin, Taichung City TW
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20150108963 | VOLTAGE COMPENSATION CIRCUIT AND CONTROL METHOD THEREOF - A voltage compensation circuit and a control method thereof dynamically compensate a voltage drop caused by supplying power from a first power line to a function circuit. The voltage compensation circuit includes an amplifier, a detection module and a boosting module. The amplifier has an inverse input end coupled to the first power line and the function circuit to be supplied with a load voltage supplying to the function circuit, a non-inverse input end for being supplied with a reference voltage, and an output end coupled to the detection module to output a comparison signal. The boosting module is coupled between the detection module and the inverse input end of the amplifier. The detection module generates compensation voltage information according to the comparison signal. The boosting module outputs the compensation voltage to the inverse input end of the amplifier according to the compensation voltage information. | 04-23-2015 |