公开(公告)号：US10788164B1

公开(公告)日：2020-09-29

申请号：US16424475

申请日：2019-05-28

Applicant: Wenbo Ma ,  Qiurong Liao ,  Yu Li ,  Kuo-Hsin Chang ,  Chung-Ping Lai

Inventor： Wenbo Ma ,  Qiurong Liao ,  Yu Li ,  Kuo-Hsin Chang ,  Chung-Ping Lai

IPC: F21K9/232 ,  F21K9/235 ,  H01L33/50 ,  H01L25/075 ,  F21K9/64

Abstract: A light-emitting diode (LED) emitter and a LED lamp having the same are revealed. The LED emitter includes a first LED chip string, a second LED chip string, a substrate, two electrodes, a high-color-temperature phosphor layer and a low-color-temperature phosphor layer. The substrate where the first LED chip string and the second LED chip string are arranged is electrically connected to the two electrodes. The high-color-temperature phosphor layer and low-color-temperature phosphor layer cover the first LED chip string and the second LED chip string respectively. The total resistance value of the first LED chip string is different from the total resistance value of the second LED chip string.

公开(公告)号：US20170046610A1

公开(公告)日：2017-02-16

申请号：US14824083

申请日：2015-08-12

Applicant: Konstantin NOVOSELOV ,  Chung Ping LAI ,  Kuo-Hsin CHANG ,  Jia-Cing CHEN

Inventor： Konstantin NOVOSELOV ,  Chung Ping LAI ,  Kuo-Hsin CHANG ,  Jia-Cing CHEN

IPC: G06K19/077

CPC classification number: G06K19/0776 ,  G06K19/0717 ,  G06K19/07773 ,  G06K19/07775 ,  H04Q9/00 ,  H04Q2209/47 ,  H05K3/12

Abstract: A printed radio frequency sensor structure contains: a substrate, a RF antenna arranged on a top surface of the substrate, and a protection layer covering on the RF antenna arranged, wherein plural sensing materials are directly introduced into a RF antenna mixture of the RF antenna. A method of preparing a RFID sensor tag comprising steps of: A). Printing conductive sensing ink/glue on substrate; B. Drying, curing and compressing the conductive sensing ink/glue to form a conductive antenna mixture with plural sensing materials; C). Bonding a chip on a RFID sensing antenna to form a RFID sensor tag; and D). Coating a protection layer on a top of the RFID sensor tag. Here note protection coating can fully, partially or no cover the conductive sensing antenna.

Abstract translation: 一种印刷射频传感器结构包括：衬底，布置在衬底的顶表面上的RF天线和覆盖在所述RF天线上的保护层，其中多个感测材料被直接引入到RF天线的RF天线混合物中 。 一种制备RFID传感器标签的方法，包括以下步骤：A）。 在基板上印刷导电传感油墨/胶水; B.干燥，固化和压缩导电感测油墨/胶，以形成具有多种感测材料的导电天线混合物; C）。 将RFID芯片贴在RFID感应天线上以形成RFID传感器标签; 和D）。 在RFID传感器标签的顶部涂覆保护层。 这里注意保护涂层可以完全，部分或不覆盖导电感应天线。

公开(公告)号：US20220026249A1

公开(公告)日：2022-01-27

申请号：US16936422

申请日：2020-07-23

Applicant: Guo-Hao Wang ,  Bing Wang ,  Kuo-Hsin Chang ,  Chung-Ping Lai

Inventor： Guo-Hao Wang ,  Bing Wang ,  Kuo-Hsin Chang ,  Chung-Ping Lai

IPC: G01F1/56 ,  F17D3/01 ,  G08C17/02

Abstract: A device and a method for detecting a blockage position in a pipeline by RFID technology is disclosed. An RFID tag is disposed in a pipe of a pipeline first, the RFID tag is read with a predetermined single or double frequencies, and finally whether the position of the pipe at which the RFID tag is located is blocked or not can be judged by the difference between the echo signals sent from the RFID tag. By the RFID technology, a contactless and non-destructive approach of detecting a blockage in a pipeline is implemented.

公开(公告)号：US09888578B2

公开(公告)日：2018-02-06

申请号：US14952942

申请日：2015-11-26

Applicant: Chung-Ping Lai ,  Kuo-Hsin Chang ,  Jia-Cing Chen

Inventor： Chung-Ping Lai ,  Kuo-Hsin Chang ,  Jia-Cing Chen

IPC: H05K3/00 ,  H05K3/22

CPC classification number: H05K3/1283 ,  H01Q1/273 ,  H05K1/038 ,  H05K1/0386 ,  H05K1/0393 ,  H05K1/097 ,  H05K2201/0116 ,  H05K2201/0245 ,  H05K2201/0323 ,  H05K2201/10098 ,  H05K2203/0143 ,  H05K2203/0278

Abstract: A printed graphene-based laminate for wireless wearable communications can be processed at low temperature so that it is compatible with heat-sensitive flexible materials like papers and textiles. The printed graphene-based laminate is of high conductivity, high flexibility, light weight and low cost, making it perfect candidate for wireless wearable devices. As a proof of concept, printed graphene-based laminate enabled transmission lines (TLs) and antennas were designed, fabricated and characterized. To explore its potentials in wearable communications applications, mechanically flexible transmission lines and antennas under various bended cases were experimentally studied. The measurement results demonstrate that the printed graphene laminate can be used for RF signal transmitting, radiating and receiving, which represents some of the essential functionalities of RF signal processing in wireless wearable communications systems. This work brings a step closer the prospect to implement all graphene enabled wireless wearable communications systems in the near future.

公开(公告)号：US20170073553A1

公开(公告)日：2017-03-16

申请号：US14854062

申请日：2015-09-15

Applicant: Kuo-Hsin CHANG ,  Jia-Cing CHEN ,  Ching-Yu LU

Inventor： Kuo-Hsin CHANG ,  Jia-Cing CHEN ,  Ching-Yu LU

IPC: C09J9/02 ,  C09K5/14 ,  B05D3/00 ,  C09J1/00

CPC classification number: C09J9/02 ,  B05D3/007 ,  C09J1/00 ,  C09K5/14

Abstract: Graphene glue contains graphene which is directly used as adhesives to bind different components/materials together. Materials such as metal powders, carbon powders, metal oxides, polymers, cellulose, and bio-molecules can all be glued by graphene glue on substrates. Graphene glue as binders can exhibit both the benefits of graphene and the glued materials, showing perfect accumulative effects. Compression can enhance the adhesion, electronic and thermal conductivity of graphene glue.

Abstract translation: 石墨烯含有石墨烯，它直接用作粘合剂将不同组分/材料结合在一起。 诸如金属粉末，碳粉，金属氧化物，聚合物，纤维素和生物分子的材料都可以通过石墨烯胶粘在基材上。 作为粘合剂的石墨烯胶可以显示出石墨烯和胶合材料的优点，显示出完美的累积效果。 压缩可增强石墨烯胶的附着力，电子和导热性。

公开(公告)号：US10204295B1

公开(公告)日：2019-02-12

申请号：US15702128

申请日：2017-09-12

Applicant: Kuo-Hsin Chang ,  Jia-Cing Chen ,  Chung-Ping Lai

Inventor： Kuo-Hsin Chang ,  Jia-Cing Chen ,  Chung-Ping Lai

IPC: G06K19/06 ,  G06K19/077 ,  C09D11/52 ,  C09D11/30

Abstract: A RFID security structure for a document contains: a RFID antenna and a RFID chip. The RFID antenna is made of conductive inks printed on the document, and the RFID chip is attached on and is electrically connected with the RFID antenna. When the covering layer is removed from the document, the RFID antenna is broken. Accordingly, a portion of the RFID antenna attaches on the covering layer, and the other portion of the PRID antenna remains on the RFID security document or the substrate, hence the RFID security document is not tampered or is not imitated.

公开(公告)号：US20170239854A1

公开(公告)日：2017-08-24

申请号：US15049019

申请日：2016-02-20

Applicant: Jingyu ZHANG ,  Kuo-Hsin CHANG ,  Jia-Cing CHEN ,  Chung-Ping LAI

Inventor： Jingyu ZHANG ,  Kuo-Hsin CHANG ,  Jia-Cing CHEN ,  Chung-Ping LAI

IPC: B29C41/24 ,  B05D3/12

CPC classification number: B29C41/24 ,  B29K2105/16 ,  B29K2509/00 ,  B29K2995/0006 ,  B29K2995/0013 ,  B29L2007/008 ,  C01B21/064 ,  H01L21/4807

Abstract: A method of manufacturing hexagonal boron nitride laminates contains steps of: a) Dissolving dielectric polymers in solvent. b) Mixing h-BN powder to form a well-mixed h-BN coating slurry. c) Coating slurry on substrates and dried at 100 to 150° C. d-1) For free standing h-BN film, peel off h-BN dielectric polymer layer from substrate in water batch by roll to roll process. d-2) For h-BN film on substrates, heat compression of the substrates and hBN laminates at 100 to 250° C. for multi-layer structures. Thereby, hexagonal boron nitride laminates exhibit thermal conductivity of 10 to 40 W/m·K, which is significantly larger than that currently used in thermal management. In addition, thermal conductivity of hexagonal boron nitride laminates increases with the increasing mass density, which opens a way of fine tuning of its thermal properties.

公开(公告)号：US20170198187A1

公开(公告)日：2017-07-13

申请号：US14990807

申请日：2016-01-08

Applicant: Chung-Ping LAI ,  Kuo-Hsin CHANG ,  Jia-Cing CHEN

Inventor： Chung-Ping LAI ,  Kuo-Hsin CHANG ,  Jia-Cing CHEN

IPC: C09K5/14 ,  C09D7/12

CPC classification number: C09K5/14 ,  C08K3/04 ,  C08K3/042 ,  C08K3/08 ,  C08K2003/385 ,  C09D5/00 ,  C09D7/45 ,  C09D7/70

Abstract: A graphene baking varnish consists of: graphene, fillers, at least one dispersants, binders, and solvent. The graphene includes graphene nanoflakes and accounts for 20 to70 wt % of solid composition of a graphene baking varnish. The fillers are heat dissipation filler including natural graphite, carbon black, boron nitride, copper (Cu), tin (Sn), iron (Fe), zinc (Zn), nickel (Ni), and sliver (Ag). The at least one dispersant is non-ionic or ionic dispersant. The binder is made of thermoplastic polymers. The solvent possesses one or more carriers. Accordingly, the graphene baking varnish enhances adhesion and improves heat dissipation rate by convection and radiation.

公开(公告)号：US20170156215A1

公开(公告)日：2017-06-01

申请号：US14952942

申请日：2015-11-26

Applicant: Chung-Ping LAI ,  Kuo-Hsin CHANG ,  Jia-Cing CHEN

Inventor： Chung-Ping LAI ,  Kuo-Hsin CHANG ,  Jia-Cing CHEN

IPC: H05K3/00 ,  H05K3/22

CPC classification number: H05K3/1283 ,  H01Q1/273 ,  H05K1/038 ,  H05K1/0386 ,  H05K1/0393 ,  H05K1/097 ,  H05K2201/0116 ,  H05K2201/0245 ,  H05K2201/0323 ,  H05K2201/10098 ,  H05K2203/0143 ,  H05K2203/0278

Abstract: A printed graphene-based laminate for wireless wearable communications can be processed at low temperature so that it is compatible with heat-sensitive flexible materials like papers and textiles. The printed graphene-based laminate is of high conductivity, high flexibility, light weight and low cost, making it perfect candidate for wireless wearable devices. As a proof of concept, printed graphene-based laminate enabled transmission lines (TLs) and antennas were designed, fabricated and characterized. To explore its potentials in wearable communications applications, mechanically flexible transmission lines and antennas under various bended cases were experimentally studied. The measurement results demonstrate that the printed graphene laminate can be used for RF signal transmitting, radiating and receiving, which represents some of the essential functionalities of RF signal processing in wireless wearable communications systems. This work brings a step closer the prospect to implement all graphene enabled wireless wearable communications systems in the near future.

公开(公告)号：US09639800B2

公开(公告)日：2017-05-02

申请号：US14824083

申请日：2015-08-12

Applicant: Konstantin Novoselov ,  Chung Ping Lai ,  Kuo-Hsin Chang ,  Jia-Cing Chen

Inventor： Konstantin Novoselov ,  Chung Ping Lai ,  Kuo-Hsin Chang ,  Jia-Cing Chen

IPC: G06K19/077 ,  H05K3/12

CPC classification number: G06K19/0776 ,  G06K19/0717 ,  G06K19/07773 ,  G06K19/07775 ,  H04Q9/00 ,  H04Q2209/47 ,  H05K3/12

Abstract: A printed radio frequency sensor structure contains: a substrate, a RF antenna arranged on a top surface of the substrate, and a protection layer covering on the RF antenna arranged, wherein plural sensing materials are directly introduced into a RF antenna mixture of the RF antenna. A method of preparing a RFID sensor tag comprising steps of: A). Printing conductive sensing ink/glue on substrate; B. Drying, curing and compressing the conductive sensing ink/glue to form a conductive antenna mixture with plural sensing materials; C). Bonding a chip on a RFID sensing antenna to form a RFID sensor tag; and D). Coating a protection layer on a top of the RFID sensor tag. Here note protection coating can fully, partially or no cover the conductive sensing antenna.