公开(公告)号：US20080253752A1

公开(公告)日：2008-10-16

申请号：US11756373

申请日：2007-05-31

Applicant: Janq-Yann Lin ,  Yong-Lin Kuo ,  Yaw-Nan Lee ,  Yann-Shuoh Sun ,  Ching-Chi Liao

Inventor： Janq-Yann Lin ,  Yong-Lin Kuo ,  Yaw-Nan Lee ,  Yann-Shuoh Sun ,  Ching-Chi Liao

IPC: H02P7/288 ,  G01R27/00 ,  G06F19/00

CPC classification number: H02P7/288

Abstract: A method for detecting and controlling output characteristics of a DC motor is provided in the present invention, wherein an input impedance related to the DC motor is measured for analyzing the output characteristics of the DC motor so that the output characteristics of the DC motor is capable being controlled according to the requirement of usage. By means of the foregoing method, the present invention further provides a self-propelled apparatus which functions to detect and control the output of the DC motor for maintaining the moving speed according to the environment status and road condition.

Abstract translation: 在本发明中提供了一种用于检测和控制DC电动机的输出特性的方法，其中测量与直流电动机相关的输入阻抗，以分析直流电动机的输出特性，使得直流电动机的输出特性能够 根据使用要求进行控制。 通过上述方法，本发明还提供了一种自推进装置，用于根据环境状况和道路状况检测和控制直流电动机的输出，以保持移动速度。

公开(公告)号：US20070183347A1

公开(公告)日：2007-08-09

申请号：US11709263

申请日：2007-02-22

Applicant: Jiongjiong Gu ,  Chunhui Zhao ,  Yunxia Cai ,  Zhenhua Liu ,  Hanbing Chen ,  Changcheng Guo ,  Yong Zhong ,  Yong Lin ,  Weiqiang Zhou

Inventor： Jiongjiong Gu ,  Chunhui Zhao ,  Yunxia Cai ,  Zhenhua Liu ,  Hanbing Chen ,  Changcheng Guo ,  Yong Zhong ,  Yong Lin ,  Weiqiang Zhou

IPC: H04L12/28

CPC classification number: H04W24/04 ,  H04L69/40 ,  H04W88/14

Abstract: The invention discloses a method for implementing dual-homing, including: setting each one of any two core control equipment as a standby for each other, connecting a network entity belonging to one of the core control equipment with the two core control equipment through a primary link and a standby link respectively; setting the primary link connected with the core control equipment as activated, and setting the standby link connected with the core control equipment inactive; determining whether the core control equipment corresponding to the primary link is out of service, if the core control equipment corresponding to the primary link is out of service, activating the standby link; otherwise, continuously determining whether the core control equipment corresponding to the primary link is out of service. The invention also discloses another method for implementing dual-homing, by which the reliability of the network can be improved.

Abstract translation: 本发明公开了一种实现双归属的方法，包括：将两个核心控制设备中的每个核心控制设备相互备用，将属于一个核心控制设备的网络实体与两个核心控制设备通过主要 链路和备用链路; 将与核心控制设备连接的主链路设置为激活，并将与核心控制设备连接的备用链路设置为无效; 确定对应于主链路的核心控制设备是否停止服务，如果与主链路对应的核心控制设备不在服务中，则激活备用链路; 否则，连续确定与主链路相对应的核心控制设备是否失效。 本发明还公开了实现双归属的另一种方法，通过该方法可以提高网络的可靠性。

公开(公告)号：US20060144757A1

公开(公告)日：2006-07-06

申请号：US11266726

申请日：2005-11-03

Applicant: Todd Steffens ,  Rathna Davuluri ,  Thomas Hewitt ,  Christopher Smalley ,  Robert Johnson ,  Phillip Niccum ,  Richard Miller ,  Eusebius Gbordzoe ,  Yong-Lin Yang

Inventor： Todd Steffens ,  Rathna Davuluri ,  Thomas Hewitt ,  Christopher Smalley ,  Robert Johnson ,  Phillip Niccum ,  Richard Miller ,  Eusebius Gbordzoe ,  Yong-Lin Yang

IPC: C10G11/00 ,  B01J8/18

CPC classification number: B01F5/20 ,  B01J4/002 ,  B01J8/1818 ,  B01J8/1827 ,  B01J8/1872 ,  C10G11/18 ,  C10G11/187

Abstract: This invention relates to an apparatus and process for injecting a petroleum feed. More particularly, a liquid petroleum feed is atomized with a nozzle assembly apparatus in which the apparatus has injection nozzles that produce a spray pattern of finely dispersed feed. The injection nozzles are each designed such that the overall effect of the different spray patterns from the individual nozzles provides a more uniform feed coverage across the catalyst stream, provided that at least one spray pattern is not substantially flat.

Abstract translation: 本发明涉及一种用于注入石油进料的设备和方法。 更具体地，液体石油进料用喷嘴组合装置雾化，其中该装置具有产生细分散进料的喷射图案的喷嘴。 注射喷嘴各自被设计成使得来自各个喷嘴的不同喷射图案的整体效果提供跨越催化剂流的更均匀的进料覆盖，只要至少一个喷雾图案基本上不平坦。

公开(公告)号：USD960984S1

公开(公告)日：2022-08-16

申请号：US29781507

申请日：2021-04-30

Applicant: Yong Lin

Designer： Yong Lin

公开(公告)号：US09887356B2

公开(公告)日：2018-02-06

申请号：US15003198

申请日：2016-01-21

Applicant: Michael C. McAlpine ,  Yong Lin Kong

Inventor： Michael C. McAlpine ,  Yong Lin Kong

IPC: H01L21/00 ,  H01L51/00 ,  H01L51/56 ,  B29C64/106 ,  B29C64/386 ,  H01L51/50 ,  G02C7/04 ,  G02C11/00 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y50/02 ,  B29K79/00 ,  B29K105/00 ,  B29K25/00 ,  B29K81/00 ,  B29K83/00 ,  B33Y80/00 ,  H01L33/00

CPC classification number: H01L51/0004 ,  B29C64/106 ,  B29C64/209 ,  B29C64/386 ,  B29K2025/06 ,  B29K2079/00 ,  B29K2081/00 ,  B29K2083/00 ,  B29K2105/0073 ,  B29K2995/0005 ,  B33Y10/00 ,  B33Y30/00 ,  B33Y50/02 ,  B33Y80/00 ,  G02C7/04 ,  G02C11/10 ,  H01L33/005 ,  H01L51/0012 ,  H01L51/0037 ,  H01L51/0059 ,  H01L51/502 ,  H01L51/56 ,  Y02E10/549

Abstract: Disclosed is a process whereby diverse classes of materials can be 3D printed and fully integrated into device components with active properties. An exemplary embodiment shows the seamless interweaving of five different materials, including (1) emissive semiconducting inorganic nanoparticles, (2) an elastomeric matrix, (3) organic polymers as charge transport layers, (4) solid and liquid metal leads, and (5) a UV-adhesive transparent substrate layer, demonstrating the integrated functionality of these materials. Further disclosed is a device for printing these fully integrated 3D devices.

公开(公告)号：US09517128B2

公开(公告)日：2016-12-13

申请号：US14203523

申请日：2014-03-10

Applicant: Michael C. McAlpine ,  Manu Sebastian-Mannoor ,  Yong Lin Kong ,  Blake N Johnson

Inventor： Michael C. McAlpine ,  Manu Sebastian-Mannoor ,  Yong Lin Kong ,  Blake N Johnson

IPC: A61F2/70 ,  B29C45/16 ,  A61F2/50 ,  A61F2/18 ,  B29C67/00 ,  B33Y80/00 ,  A61L27/14 ,  A61L27/38 ,  A61L27/54

CPC classification number: A61F2/18 ,  A61F2002/183 ,  A61L27/14 ,  A61L27/38 ,  A61L27/54 ,  A61L2300/252 ,  A61L2300/258 ,  B29C64/112 ,  B29C67/0059 ,  B33Y80/00 ,  H04R2225/77

Abstract: A bioelectronic device and method of making is disclosed. The device includes a scaffold formed via 3D printing. The device also includes a biologic and an electronic device formed via 3D printing, the biologic and electronic device being interweaved with or coupled to the scaffold. The electronic component may e.g., include at least one of hard conductors, soft conductors, insulators and semiconductors. The scaffold may be formed of at least one of synthetic polymers and natural biological polymers. The biologic may include at least one of animal cells, plant cells, cellular organelles, proteins and DNA (including RNA).

Abstract translation: 公开了一种生物电子装置和制造方法。 该装置包括通过3D打印形成的脚手架。 该装置还包括通过3D打印形成的生物和电子装置，所述生物和电子装置与支架交织或耦合。 电子部件可以例如包括硬导体，软导体，绝缘体和半导体中的至少一个。 支架可以由合成聚合物和天然生物聚合物中的至少一种形成。 生物学可以包括动物细胞，植物细胞，细胞器，蛋白质和DNA（包括RNA）中的至少一个。

公开(公告)号：US20140182667A1

公开(公告)日：2014-07-03

申请号：US13733362

申请日：2013-01-03

Applicant: Benjamin C. Richards ,  Yong Lin ,  Paul R. Sharps ,  Pravin Patel

Inventor： Benjamin C. Richards ,  Yong Lin ,  Paul R. Sharps ,  Pravin Patel

IPC: H01L31/0304 ,  H01L31/18 ,  H01L31/0725

CPC classification number: H01L31/18 ,  B82Y20/00 ,  H01L31/035236 ,  H01L31/0725 ,  H01L31/075 ,  H01L31/078 ,  H01L31/1852 ,  Y02E10/52 ,  Y02E10/544 ,  Y02E10/548 ,  Y02P70/521

Abstract: A multijunction photovoltaic cell including a top subcell; a second subcell disposed immediately adjacent to the top subcell and producing a first photo-generated current; and including a sequence of first and second different semiconductor layers with different lattice constant; and a lower subcell disposed immediately adjacent to the second subcell and producing a second photo-generated current substantially equal in amount to the first photo-generated current density.

Abstract translation: 一种包括顶部子电池的多结光伏电池; 第二子电池，其紧邻所述顶部子电池并且产生第一光生电流; 并且包括具有不同晶格常数的第一和第二不同半导体层的序列; 以及下部子电池，其紧邻所述第二子电池设置并且产生基本上等于所述第一光生电流密度的第二光生电流。

公开(公告)号：US20130256751A1

公开(公告)日：2013-10-03

申请号：US13990756

申请日：2010-12-01

Applicant: Aaron Joseph Ptak ,  Yong Lin ,  Andrew Norman ,  Kirstin Alberi

Inventor： Aaron Joseph Ptak ,  Yong Lin ,  Andrew Norman ,  Kirstin Alberi

IPC: H01L21/02 ,  H01L29/04

CPC classification number: H01L21/0242 ,  C30B23/025 ,  C30B25/183 ,  C30B29/40 ,  H01L21/02439 ,  H01L21/02491 ,  H01L21/02521 ,  H01L21/0254 ,  H01L21/02543 ,  H01L21/02546 ,  H01L21/0256 ,  H01L21/02664 ,  H01L29/04

Abstract: A method of producing semiconductor materials and devices that incorporate the semiconductor materials are provided. In particular, a method is provided of producing a semiconductor material, such as a III-V semiconductor, on a spinel substrate using a sacrificial buffer layer, and devices such as photovoltaic cells that incorporate the semiconductor materials. The sacrificial buffer material and semiconductor materials may be deposited using lattice-matching epitaxy or coincident site lattice-matching epitaxy, resulting in a close degree of lattice matching between the substrate material and deposited material for a wide variety of material compositions. The sacrificial buffer layer may be dissolved using an epitaxial liftoff technique in order to separate the semiconductor device from the spinel substrate, and the spinel substrate may be reused in the subsequent fabrication of other semiconductor devices. The low-defect density semiconductor materials produced using this method result in the enhanced performance of the semiconductor devices that incorporate the semiconductor materials.

Abstract translation: 提供了一种制造半导体材料的方法以及结合半导体材料的器件。 特别地，提供了使用牺牲缓冲层在尖晶石衬底上制造诸如III-V半导体的半导体材料的方法，以及包含半导体材料的诸如光伏电池的器件。 可以使用晶格匹配的外延或重合位点晶格匹配外延沉积牺牲缓冲材料和半导体材料，导致用于各种材料组成的衬底材料和沉积材料之间的格子匹配的紧密程度。 可以使用外延剥离技术将牺牲缓冲层溶解，以便将半导体器件与尖晶石衬底分离，并且尖晶石衬底可以在随后制造其它半导体器件中重新使用。 使用这种方法制造的低缺陷密度半导体材料导致结合半导体材料的半导体器件的性能提高。

公开(公告)号：USD671328S1

公开(公告)日：2012-11-27

申请号：US29413661

申请日：2012-02-17

Applicant: Chung-Hu Hsiao ,  Den-Yong Lin

Designer： Chung-Hu Hsiao ,  Den-Yong Lin

公开(公告)号：US08246933B2

公开(公告)日：2012-08-21

申请号：US12324318

申请日：2008-11-26

Applicant: Xingmao Jiang ,  C. Jeffrey Brinker ,  Yong Lin ,  Yung-Sung Cheng

Inventor： Xingmao Jiang ,  C. Jeffrey Brinker ,  Yong Lin ,  Yung-Sung Cheng

IPC: A61K9/14 ,  A01N59/16

CPC classification number: A61K33/38 ,  A01N59/16 ,  A61K9/5115 ,  A61K9/5192 ,  A01N25/06 ,  A01N25/34 ,  A01N2300/00

Abstract: A method of forming and resulting nano-structured composite includes atomizing a mixture of an amount of each of aminopropyltriethoxysilane, AgNO3, DI water, and ethanol in a carrier gas; heating the atomized droplets at a selected temperature for a time sufficient to reduce the Ag to its elemental form in a silica matrix; and outputting the nano structured composite particles. A predetermined heating time is from about 0.01 to about 40 seconds and a selected heating temperature is from about 200 to about 800° C. The nano structured composite includes a plurality of nano particles at a contact surface of the composite, dispersed throughout and at a contact surface of the composite, or dispersed throughout the composite.

Abstract translation: 形成和得到的纳米结构复合材料的方法包括在载气中雾化一定量的氨基丙基三乙氧基硅烷，AgNO 3，去离子水和乙醇的混合物; 在所选择的温度下加热雾化的液滴足以将Ag还原成二氧化硅基质中其元素的时间; 并输出纳米结构复合颗粒。 预定的加热时间为约0.01至约40秒，选定的加热温度为约200至约800℃。纳米结构复合材料包括在复合材料的接触表面处的多个纳米颗粒，分散在整个和 复合材料的接触表面，或分散在整个复合材料中。