Patents by Inventor Yi-Ying Lin
Yi-Ying Lin 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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Patent number: 9891745Abstract: An in-cell mutual-capacitive touch panel having low RC loading and its trace layout are disclosed. A first conductive layer and a second conductive layer are used as bridge of TX electrode and MFL electrode above an active area of in-cell mutual-capacitive touch panel. The second conductive layer and a transparent conductive layer are used as bridge of TX electrode and MFL electrode at the lower-side out of the active area. Cooperated with at least one driving IC having more than two sets of TX electrode pins and MFL electrode pins and the number of the at least one driving IC is determined according to the size of the in-cell mutual-capacitive touch panel. At the same time, the second conductive layer has traces in parallel distributed in the same electrode area of the active area. Therefore, the RC loading of the in-cell mutual-capacitive touch panel of the invention can be largely reduced.Type: GrantFiled: September 18, 2015Date of Patent: February 13, 2018Assignee: Raydium Semiconductor CorporationInventors: Kun-Pei Lee, Yu-Chin Hsu, Yi-Ying Lin
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Patent number: 9817385Abstract: A machining assistance method and an apparatus using the same are provided. The machining assistance method comprises following steps. Firstly, a circle correction path is received for driving a platform to perform a circular motion. Next, a driving torque of the server driver driving the platform is obtained. Then, whether the driving torque is changed to 0 is determined; if yes, a first position of the platform is recorded. Then, whether the driving torque is changed to a peak is determined; if yes, a second position of the platform is recorded. After that, the server driver is controlled to drive the platform according to a first position and a second position in a machining process.Type: GrantFiled: December 26, 2014Date of Patent: November 14, 2017Assignee: Industrial Technology Research InstituteInventors: Shih-Je Shiu, Chien-Yi Lee, Yi-Ying Lin, Po-Hsun Wu, Tsung-Yi Bai
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Patent number: 9815161Abstract: A backlash automatic detection system comprises a control device and a machine tool. The machine tool comprises a servo driver, a lead screw, a nut seat and a platform. The method comprises: entering an initial state and outputting a control command to the servo driver through the control device; driving the lead screw by the servo driver to move the nut seat towards a first direction and changing the movement direction of the nut seat towards a reverse second direction by the servo driver; defining a backlash phenomenon period according to one time point at which the nut seat starts to move towards the second direction and another time point at which the platform is driven to move by the nut seat; defining the displacement of the nut seat corresponding to the backlash phenomenon period as a backlash value.Type: GrantFiled: December 26, 2014Date of Patent: November 14, 2017Assignee: Industrial Technology Research InstituteInventors: Yi-Ying Lin, Shih-Je Shiu, Che-Wei Hsu, Po-Hsun Wu, Chien-Yi Lee
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Patent number: 9772618Abstract: A cutting tool controller and method of controlling are provided. The method includes providing a swing angle for the cutting tool, obtaining a swing vector of the cutting tool through kinematics calculation according to the swing angle, using the swing vector of the cutting tool to calculate a set of possible solutions of a swaying angle of the cutting tool, selecting a possible solution satisfying an operation condition of the machine from the set of possible solutions, using the selected possible solution to calculate an offset of positions of the cutting tool before and after swaying, so as to generate a compensation vector, calculating required compensation values for three axes of the machine according to the compensation vector, and outputting a control command including the compensation values, such that the cutting tool of the machine or a working table for placing the workpiece thereon of the machine moves correspondingly.Type: GrantFiled: December 29, 2014Date of Patent: September 26, 2017Assignee: Industrial Technology Research InstituteInventors: Che-Wei Hsu, Chien-Yi Lee, Yi-Ying Lin, Shih-Je Shiu, Yung-Ming Kao
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Publication number: 20170262108Abstract: A capacitive touch panel is disclosed. A touch sensing module in its laminated structure includes same touch sensor patterns. Each touch sensor pattern includes a first electrode, a second electrode and a bridge structure. The first electrode includes a first sub-electrode˜a fourth sub-electrode and the second electrode includes a fifth sub-electrode˜an eighth sub-electrode formed by sections of conductive material having different slopes. First sub-electrode and second sub-electrode are symmetrical to a first direction of a first axis; third sub-electrode and fourth sub-electrode are symmetrical to a second direction of first axis. Fifth sub-electrode and sixth sub-electrode are symmetrical to a third direction of a second axis; seventh sub-electrode and eighth sub-electrode are symmetrical to a fourth direction of second axis. The bridge structure disposed at intersection of first axis and second axis bridges second electrode and provides insulation between second electrode and first electrode.Type: ApplicationFiled: March 6, 2017Publication date: September 14, 2017Inventors: Yi-Ying LIN, Hsin-Wei Shieh
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Patent number: 9746978Abstract: A capacitive touch panel is disclosed. The capacitive touch panel includes a laminated structure. The laminated structure includes a liquid crystal displaying module, a single-layer touch sensor, and a polarizing module. The single-layer touch sensor is disposed on the liquid crystal displaying module. The polarizing module is disposed on the single-layer touch sensor. The single-layer touch sensor includes a plurality of first electrodes and a plurality of second electrodes. The first electrodes and the second electrodes are configured in an asymmetric electrode arranging way, so that one of the first electrodes will be arranged corresponding to at least two of the second electrodes.Type: GrantFiled: September 28, 2015Date of Patent: August 29, 2017Assignee: Raydium Semiconductor CorporationInventors: Yi-Ying Lin, Kun-Pei Lee, Hsin-Wei Shieh
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Publication number: 20170223070Abstract: A user electronic device includes a storage unit, a processing unit, a networking unit and a screen. The screen displays a chat room interface for interacting with a group. The chat room interface has a first window, a function bar and a second window. The first window displays operating information of a device identity of the group. The second window displays chat content. The function bar has a chat function bar and a device instruction bar. The chat function bar is used for inputting the chat content. The device instruction bar is used for providing a control key set corresponding to the device identity, and the control key set is used for generating one or more control signal.Type: ApplicationFiled: May 17, 2016Publication date: August 3, 2017Inventor: Yi-Ying Lin
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Patent number: 9696851Abstract: An on-cell capacitive touch panel is disclosed. Its laminated structure includes a LCD module, a touch sensing module, and a polarizing module. The touch sensing module is disposed on the LCD module. The polarizing module is disposed on the touch sensing module. The touch sensing module includes a touch sensor pattern having a single-layer ITO structure. The touch sensor pattern includes a first pattern unit and a second pattern unit which are the same and both have at least one first electrode, second electrode, and extending electrode. The first electrode is arranged along a first direction and the second electrode is arranged along a second direction. The first direction and second direction are vertical. The first electrode crosses the second electrode via a bridge structure. The extending electrode surrounds the first electrode and it is arranged along the first direction.Type: GrantFiled: January 31, 2017Date of Patent: July 4, 2017Assignee: Raydium Semiconductor CorporationInventors: Yi-Ying Lin, Kuan-Ming Lin, Hsin-Wei Shieh, Kun-Pei Lee
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Publication number: 20170139543Abstract: An on-cell capacitive touch panel is disclosed. Its laminated structure includes a LCD module, a touch sensing module, and a polarizing module. The touch sensing module is disposed on the LCD module. The polarizing module is disposed on the touch sensing module. The touch sensing module includes a touch sensor pattern having a single-layer ITO structure. The touch sensor pattern includes a first pattern unit and a second pattern unit which are the same and both have at least one first electrode, second electrode, and extending electrode. The first electrode is arranged along a first direction and the second electrode is arranged along a second direction. The first direction and second direction are vertical. The first electrode crosses the second electrode via a bridge structure. The extending electrode surrounds the first electrode and it is arranged along the first direction.Type: ApplicationFiled: January 31, 2017Publication date: May 18, 2017Inventors: Yi-Ying LIN, Kuan-Ming Lin, Hsin-Wei Shieh, Kun-Pei Lee
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Publication number: 20170115812Abstract: A capacitive force sensing touch panel is disclosed. The capacitive force sensing touch panel includes pixels. A laminated structure of each pixel includes a first substrate, a TFT layer, a first conductive layer, a second conductive layer, a third conductive layer and a second substrate. The TFT layer is disposed above the first substrate. The first conductive layer is disposed above the TFT layer. The second conductive layer is disposed above the first conductive layer. The third conductive layer corresponds to the second conductive layer and the third conductive layer is disposed above the second conductive layer. The second substrate is disposed above the third conductive layer.Type: ApplicationFiled: October 26, 2016Publication date: April 27, 2017Inventors: Yi-Ying Lin, Hsin-Wei Shieh, Chang-Ching Chiang, Kun-Pei Lee
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Patent number: 9612699Abstract: An on-cell capacitive touch panel is disclosed. Its laminated structure includes a LCD module, a touch sensing module, and a polarizing module. The touch sensing module is disposed on the LCD module. The polarizing module is disposed on the touch sensing module. The touch sensing module includes a touch sensor pattern having a single-layer ITO structure. The touch sensor pattern includes a first pattern unit and a second pattern unit which are the same and both have at least one first electrode, second electrode, and extending electrode. The first electrode is arranged along a first direction and the second electrode is arranged along a second direction. The first direction and second direction are vertical. The first electrode crosses the second electrode via a bridge structure. The extending electrode surrounds the first electrode and it is arranged along the first direction.Type: GrantFiled: July 9, 2015Date of Patent: April 4, 2017Assignee: Raydium Semiconductor CorporationInventors: Yi-Ying Lin, Kuan-Ming Lin, Hsin-Wei Shieh, Kun-Pei Lee
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Publication number: 20170075493Abstract: A capacitive force sensing touch panel is disclosed. The capacitive force sensing touch panel includes pixels. A laminated structure of each pixel includes a first substrate, an anode layer, an OLED layer, a cathode layer, a second substrate, a first conductive layer and a second conductive layer. The anode layer is disposed above the first substrate. The OLED layer is disposed above the anode layer. The cathode layer is disposed above the OLED layer. The second substrate is disposed above the cathode layer. The first conductive layer and the second conductive layer are disposed on a first plane and a second plane above the OLED layer respectively and selectively driven to be a touch sensing electrode or force sensing electrode.Type: ApplicationFiled: August 22, 2016Publication date: March 16, 2017Inventors: Kun-Pei LEE, Chen-Wei Yang, Hsin-Wei Shieh, Yi-Ying Lin, Chang-Ching Chiang
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Publication number: 20170045992Abstract: A capacitive force sensing touch panel is disclosed. The capacitive force sensing touch panel includes a plurality of pixels. A laminated structure of each pixel includes a first plane, a second plane, at least a first electrode and at least a second electrode. The second plane is disposed above the first plane and parallel to the first plane. The at least one first electrode is disposed on the first plane. The at least one second electrode is disposed on the second plane. The at least one first electrode and the at least one second electrode are selectively driven as touch sensing electrodes or force sensing electrodes respectively.Type: ApplicationFiled: August 10, 2016Publication date: February 16, 2017Inventors: Kun-Pei Lee, Yi-Ying Lin, Hsin-Wei Shieh, Chang-Ching Chiang, Yu-Chin Hsu
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Publication number: 20170025480Abstract: An in-cell touch panel is disclosed. The in-cell touch panel includes a plurality of pixels. A laminated structure of each pixel includes a substrate, an OLED layer, an encapsulation layer, a light-blocking layer, a first conductive layer and a second conductive layer. The OLED layer is disposed above the substrate. The encapsulation layer is disposed above the OLED layer opposite to the substrate. The first conductive layer is disposed under the light-blocking layer. The second conductive layer is disposed under the encapsulation layer.Type: ApplicationFiled: June 1, 2016Publication date: January 26, 2017Inventors: Chang-Ching CHIANG, Yi-Ying LIN, Kun-Pei LEE
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Publication number: 20170024075Abstract: An in-cell touch panel is disclosed. The in-cell touch panel includes a plurality of pixels. A laminated structure of each pixel includes a substrate, an organic emissive layer, a spacer and a first conductive layer. The organic emissive layer is formed above the substrate. The spacer is formed above the substrate with a specific distribution density. The first conductive layer is formed above the organic emissive layer opposite to the substrate, wherein at least a part of the first conductive layer is not formed above the spacer.Type: ApplicationFiled: July 11, 2016Publication date: January 26, 2017Inventors: Chang-Ching Chiang, Yi-Ying Lin, Kun-Pei Lee
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Publication number: 20170024077Abstract: An in-cell touch panel driving method for driving an in-cell touch panel is disclosed. The in-cell touch panel driving method includes a step of driving a touch sensing mode and a display mode of the in-cell touch panel in a time-sharing way and operating the in-cell touch panel in the touch sensing mode during a blanking interval of a display period of the in-cell touch panel.Type: ApplicationFiled: July 21, 2016Publication date: January 26, 2017Inventors: Yi-Ying Lin, Kun-Pei Lee, Chen-Wei Yang, Chang-Ching Chiang
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Publication number: 20160364072Abstract: An in-cell touch panel is disclosed. The in-cell touch panel includes a plurality of pixels. A laminated structure of each pixel includes a substrate, a TFT layer, a liquid crystal layer, a color filter layer and a glass layer. The TFT layer is disposed on the substrate. A first conductive layer and a common electrode are disposed in the TFT layer. The first conductive layer is arranged in mesh type or arranged along a first direction within an active area of the in-cell touch panel. The liquid crystal layer is disposed above the TFT layer. The color filter layer is disposed above the liquid crystal layer. The glass layer is disposed above the color filter layer.Type: ApplicationFiled: June 8, 2016Publication date: December 15, 2016Inventors: Chang-Ching Chiang, Yi-Ying Lin, Kun-Pei Lee
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Patent number: 9501053Abstract: A goal-oriented numerical control automatic tuning system is used for a numerical controller of a machine tool to automatically tune the machine tool. The system includes a goal-oriented input module for receiving external goal values; a machining test path selecting module for receiving an external machining path; and an automatic machine-tuning equation module including a control equation with a predetermined equation coefficient for receiving the goal values and the machining path from the goal-oriented input module and the machining test path selecting module, respectively, such that an appropriate control parameter can be obtained by calculating the control equation based on the goal values and the machining path, and then this control parameter passed to a numerical controller in order to control actuation of the machine tool.Type: GrantFiled: May 17, 2013Date of Patent: November 22, 2016Assignee: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTEInventors: Chien-Yi Lee, Hung-Chieh Hsieh, Cheng-Yu Chen, Hao-Wei Nien, Yi-Ying Lin
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Publication number: 20160334660Abstract: An in-cell touch panel is disclosed. The in-cell touch panel includes a plurality of pixels. A laminated structure of each pixel includes a substrate, a TFT layer, a liquid crystal layer, a color filter layer, a glass layer and a second conductive layer. The TFT layer is disposed on the substrate. A first conductive layer and a common electrode are disposed in the TFT layer. The first conductive layer is arranged in mesh type. The liquid crystal layer is disposed above the TFT layer. The color filter layer is disposed above the liquid crystal layer. The glass layer is disposed above the color filter layer. The second conductive layer is disposed above the glass layer.Type: ApplicationFiled: May 13, 2016Publication date: November 17, 2016Inventors: Yi-Ying LIN, Kun-Pei LEE, Chang-Ching CHIANG
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Publication number: 20160328061Abstract: An in-cell touch panel is disclosed. The in-cell touch panel includes a plurality of pixels. Each pixel has a laminated structure bottom-up including a substrate, a TFT layer, a liquid crystal layer, a color filter layer, and a glass layer. The TFT layer is disposed on the substrate. A first conductive layer and a common electrode are disposed in the TFT layer. The first conductive layer is arranged in mesh type. The liquid crystal layer is disposed on the TFT layer. The color filter layer is disposed on the liquid crystal layer. The glass layer is disposed on the color filter layer. The design of touch electrodes and their trace layout in the in-cell touch panel of the application is simple and it can effectively reduce cost and reduce the RC loading of the common electrode.Type: ApplicationFiled: March 7, 2016Publication date: November 10, 2016Inventors: Chang-Ching CHIANG, Yi-Ying Lin, Kun-Pei LEE