公开(公告)号：US20050133491A1

公开(公告)日：2005-06-23

申请号：US10951422

申请日：2004-09-28

Applicant: Jhy-Chain Lin ,  Ga-Lane Chen

Inventor： Jhy-Chain Lin ,  Ga-Lane Chen

IPC: F27B17/02 ,  F27D11/00 ,  F27D19/00 ,  F27D21/00 ,  G01N25/18 ,  H01L23/34

CPC classification number: F27B17/02 ,  F27D19/00 ,  F27D21/0014 ,  H01L23/34 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A heat generator includes a cubic heat generating member for outputing heat flow. The heat generating member includes a heat flow output face and five heat flow insulation faces. Five thermoelectric coolers are attached on the five heat flow insulation faces respectively. A heat flow compensating circuit is electrically connected between each heat flow insulation face and a corresponding thermoelectric cooler. The circuit is capable of controlling heat generated by the thermoelectric cooler to cause the temperature of the heating face of the thermoelectric cooler to be equal to the temperature of the heat flow insulation face which results in the heat energy of the heat flow outputing from the heat flow output face of the heat generating member substantially equal to the heat energy of the heat generated by the heat generating member.

Abstract translation: 发热体包括用于输出热流的立方体发热体。 发热件包括热流输出面和五个热流绝缘面。 五个热电冷却器分别连接在五个热流绝缘面上。 热流补偿电路电连接在每个热流绝缘面和相应的热电冷却器之间。 该电路能够控制由热电冷却器产生的热量，使得热电冷却器的加热面的温度等于热流绝缘面的温度，导致从热量输出的热流的热能 发热构件的流量输出面基本上等于由发热构件产生的热量的热能。

公开(公告)号：US08071194B2

公开(公告)日：2011-12-06

申请号：US12354105

申请日：2009-01-15

Applicant: Jhy-Chain Lin ,  Ga-Lane Chen

Inventor： Jhy-Chain Lin ,  Ga-Lane Chen

IPC: B32B3/02 ,  B32B5/14

CPC classification number: F28D20/0056 ,  H01L23/3733 ,  H01L23/38 ,  H01L2924/0002 ,  Y02E60/142 ,  Y10S165/042 ,  Y10S165/907 ,  Y10S165/909 ,  Y10T428/21 ,  Y10T428/249961 ,  Y10T428/24997 ,  Y10T428/252 ,  Y10T428/254 ,  Y10T428/259 ,  Y10T428/31663 ,  H01L2924/00

Abstract: A heat collector includes a heat absorption surface, an opposite heat focus surface and one or more surrounding sides. A matrix of the heat collector is a thermally conductive material. There is a plurality of adiabatic pores mixed within the matrix. A relative concentration distribution of the adiabatic pores increases from the heat absorption surface to the heat focus surface, and decreases from the surrounding sides to a center of the heat collector. The shape of the heat collector can be rectangular, cylindrical, prismatic, plate-shaped, square, or polyhedral. The heat collector can draw heat generated from electrical components, and collect the generated heat for reuse in order to enhance energy efficiency.

Abstract translation: 集热器包括吸热表面，相对的热焦面和一个或多个周围的侧面。 集热器的基体是导热材料。 在基质内混合有多个绝热孔。 绝热孔的相对浓度分布从热吸收表面增加到热聚焦表面，并且从周围侧减少到集热器的中心。 集热器的形状可以是矩形，圆柱形，棱柱形，板状，正方形或多面体。 集热器可以吸收从电气部件产生的热量，并收集所产生的热量以便再利用，以提高能量效率。

公开(公告)号：US07301232B2

公开(公告)日：2007-11-27

申请号：US11044953

申请日：2005-01-27

Applicant: Charles Leu ,  Tai-Cherng Yu ,  Chuan-De Huang ,  Wen-Jeng Huang ,  Jhy-Chain Lin ,  Ga-Lane Chen

Inventor： Charles Leu ,  Tai-Cherng Yu ,  Chuan-De Huang ,  Wen-Jeng Huang ,  Jhy-Chain Lin ,  Ga-Lane Chen

IPC: H01L23/34 ,  H01L23/373 ,  H01L23/367 ,  H01L21/02 ,  B29C47/00

CPC classification number: B82Y10/00 ,  H01L23/373 ,  H01L2224/32225 ,  H01L2924/15311 ,  H01L2924/15312 ,  H01L2924/16152

Abstract: An integrated circuit package includes a die mounted on a substrate, an integrated heat spreader set above the die, and an array of carbon nanotubes mounted between the die and the integrated heat spreader. The integrated heat spreader is fixed on the substrate, and includes an inner face. The array of carbon nanotubes is formed on the inner face of the integrated heat spreader. Top and bottom ends of the carbon nanotubes perpendicularly contact the integrated heat spreader and the die respectively. Each carbon nanotube can be capsulated in a nanometer-scale metal having a high heat conduction coefficient.

Abstract translation: 集成电路封装包括安装在基板上的管芯，位于管芯上方的集成散热器，以及安装在管芯和集成散热器之间的碳纳米管阵列。 集成散热器固定在基板上，并且包括内表面。 碳纳米管阵列形成在集成散热器的内表面上。 碳纳米管的顶端和底端分别与集成散热器和模具垂直接触。 每个碳纳米管可以被封装在具有高导热系数的纳米级金属中。

公开(公告)号：US20060278264A1

公开(公告)日：2006-12-14

申请号：US11433244

申请日：2006-05-12

Applicant: Jhy-Chain Lin

Inventor： Jhy-Chain Lin

IPC: H01L35/28

CPC classification number: H01L23/34 ,  B29C33/08 ,  B29C43/021 ,  B29C43/52 ,  B29C43/58 ,  B29C2043/5816 ,  B29L2011/0016 ,  H01L23/38 ,  H01L2924/0002 ,  H01L2924/00

Abstract: An temperature control apparatus includes a temperature detecting element (50), a control circuit (60), and a thermoelectric unit (70). The temperature detecting element contacts to a first surface (82) of a predetermined target (800). The control circuit is electrically connected to the temperature detecting element. The thermoelectric unit is electrically connected to the control circuit, and contacts a second surface of the predetermined target. The temperature detecting element detects a temperature signal. The temperature signal is input into the control circuit. The control circuit changes the temperature signal into an electrical current signal, and the electrical current signal drives the thermoelectric unit to control the temperature of the predetermined target.

Abstract translation: 温度控制装置包括温度检测元件（50），控制电路（60）和热电单元（70）。 温度检测元件接触预定靶（800）的第一表面（82）。 控制电路电连接到温度检测元件。 热电单元电连接到控制电路，并接触预定目标的第二表面。 温度检测元件检测温度信号。 温度信号输入到控制电路。 控制电路将温度信号变为电流信号，电流信号驱动热电单元来控制预定目标的温度。

公开(公告)号：US06984809B2

公开(公告)日：2006-01-10

申请号：US10977723

申请日：2004-10-29

Applicant: Jhy-Chain Lin ,  Charles Leu

Inventor： Jhy-Chain Lin ,  Charles Leu

IPC: H05B3/28 ,  H05B1/02 ,  G01N25/18

CPC classification number: H05B3/10 ,  G01N25/18

Abstract: A heat generator includes a heat generating member and a temperature compensating member made from different material. The heat generating member includes a heat flow output face for outputing heat flow and five heat flow insulation faces. The temperature compensating member encloses and contacts the heat generating member except the heat flow output face. A heat flow compensating circuit is electrically connected between the temperature compensating member and the heat generating member for maintaining a state of no heat flow flowing between the heat generating member and the temperature compensating member, whereby the heat energy of the heat flow outputing from the heat flow output face is equal to the heat energy of heat generated by the heat generating member.

Abstract translation: 发热体包括发热元件和由不同材料制成的温度补偿元件。 发热件包括用于输出热流的热流输出面和五个热流绝缘面。 除了热流输出面以外，温度补偿部件包围并接触发热部件。 热流补偿电路电连接在温度补偿部件和发热部件之间，用于保持在发热部件和温度补偿部件之间不产生热流的状态，从而从热量输出的热流的热能 流量输出面等于由发热件产生的热量。

公开(公告)号：US20050271883A1

公开(公告)日：2005-12-08

申请号：US11046954

申请日：2005-01-31

Applicant: Charles Leu ,  Ching-Yen Lee ,  Tai-Cheng Yu ,  Jhy-Chain Lin ,  Ga-Lane Chen

Inventor： Charles Leu ,  Ching-Yen Lee ,  Tai-Cheng Yu ,  Jhy-Chain Lin ,  Ga-Lane Chen

IPC: B05D5/06 ,  B32B9/00 ,  B32B27/40 ,  G02B1/04 ,  G02B1/10 ,  G02F1/1333

CPC classification number: G02B1/10 ,  Y10T428/265 ,  Y10T428/31573

Abstract: A light-transmitting element (10) includes a substrate (12) made of polymethyl methacrylate, and at least one coating film (14). The substrate has a first surface (122), and a second surface (124) opposite to the first surface. The coating film is deposited on at least one of the surfaces of the substrate by electron beam evaporation. The coating film is selected from the group consisting of a single layer and a plurality of layers, and comprises a material selected from the group consisting of tantalum pentoxide, magnesium fluoride, silicon oxide, and any mixture or combination thereof. The light-transmitting element provides improved light transmittance for an imaging system. A method for making the light-transmitting element is also provided.

Abstract translation: 透光元件（10）包括由聚甲基丙烯酸甲酯制成的基底（12）和至少一个涂膜（14）。 衬底具有第一表面（122）和与第一表面相对的第二表面（124）。 通过电子束蒸发将涂膜沉积在基板的至少一个表面上。 涂膜选自单层和多层，并且包括选自五氧化二钽，氟化镁，氧化硅及其任何混合物或组合的材料。 透光元件为成像系统提供改善的透光率。 还提供了制造透光元件的方法。

公开(公告)号：US20050190579A1

公开(公告)日：2005-09-01

申请号：US11021185

申请日：2004-12-23

Applicant: Jhy-Chain Lin

Inventor： Jhy-Chain Lin

IPC: F21V8/00 ,  G02B6/00 ,  F21V7/04

CPC classification number: G02B6/004 ,  G02B6/0036

Abstract: A light guide plate (300) includes a light incidence surface (310) for receiving light beams, a light-emitting surface (320) for guiding light beams out of the light guide plate, and a bottom surface (330) reflecting and scattering light beams in directions toward the light-emitting surface. The bottom surface includes scattering-dots (341), and a predetermined region of the bottom surface also includes sub-scattering-dots (342). At least one sub-scattering-dot is disposed around each scattering-dot. The sub-scattering-dots are smaller than the scattering-dots. With this micro-configuration, intensities of light beams output from the light guide plate are uniform and bright.

Abstract translation: 导光板（300）包括用于接收光束的光入射表面（310），用于将光束引导出导光板的发光表面（320）和反射和散射光的底表面（330） 沿朝向发光表面的方向射束。 底面包括散射点（341），并且底面的预定区域也包括分散点（342）。 每个散射点周围设置至少一个子散射点。 子散射点小于散射点。 利用这种微型结构，从导光板输出的光束的强度是均匀和明亮的。

公开(公告)号：US20050139586A1

公开(公告)日：2005-06-30

申请号：US10951360

申请日：2004-09-28

Applicant: Jhy-Chain Lin ,  Ga-Lane Chen

Inventor： Jhy-Chain Lin ,  Ga-Lane Chen

IPC: G01N25/18 ,  H05B3/10 ,  F28D7/02

CPC classification number: G01N25/18 ,  H05B3/10

Abstract: A heat generator includes a heat generating member including a heat flow output face, a heat flow insulative member attachably surrounding the heat generating member except the heat flow output face for insulating the heat generating member except the heat flow output face, a heat flow compensating member attachably surrounding the heat flow insulative member but exposing the heat flow output face to allow it contacting with a specimen, and a heat flow compensating circuit connected between the heat flow insulative member and the heat flow compensating member. The circuit is capable of controlling heat generated by the heat flow compensating member to cause no heat flow flowing between the heat flow compensating member and the heat flow insulative member whereby the heat energy of the heat flow outputing from the heat flow output face of the heat generating member is equal to the heat energy of heat generated by the heat generating member.

Abstract translation: 发热体包括发热体，该发热体包括热流输出面，热流绝缘构件，除了热流输出面以外的热流输出面，除了热流输出面之外，还包围发热体，热流补偿构件 可靠地围绕热流绝缘构件，但暴露出热流输出面以允许其与试样接触，以及连接在热流绝缘构件和热流补偿构件之间的热流补偿电路。 该电路能够控制由热流补偿部件产生的热量，不会在热流补偿部件与热流绝缘部件之间产生热流的流动，从而从热流输出面的热量输出热量 发电部件等于由发热部件产生的热量。

公开(公告)号：US20050122743A1

公开(公告)日：2005-06-09

申请号：US10970916

申请日：2004-10-22

Applicant: Jhy-Chain Lin

Inventor： Jhy-Chain Lin

IPC: F21V8/00 ,  G02B6/00 ,  F21V7/04

CPC classification number: G02B6/0043 ,  G02B6/0046

Abstract: A light guide plate (12) has a light incidence surface (121) for receiving light, a light emitting surface (123) for emitting light, and a bottom surface (122). The bottom surface has a plurality of diffusion elements (124) arranged thereat. Each diffusion element defines a diffraction grating unit (125) therein. A grating direction of each diffraction grating unit is substantially perpendicular to a main direction of light beams received by the diffraction grating unit. Areas of the diffraction grating units progressively increase with increasing distance away from the light incidence surface. Diffractive capabilities of the diffraction grating units progressively increase with increasing distance away from the light incidence surface. These features improve the overall efficiency of utilization of light, and enable the light emitting surface to output highly uniform light.

Abstract translation: 导光板（12）具有用于接收光的光入射面（121），用于发光的发光面（123）和底面（122）。 底面具有布置在其上的多个扩散元件（124）。 每个扩散元件在其中限定衍射光栅单元（125）。 每个衍射光栅单元的光栅方向基本上垂直于由衍射光栅单元接收的光束的主方向。 衍射光栅单元的区域随着距离光入射面的距离的增加而逐渐增加。 衍射光栅单元的衍射能力随着远离光入射面的距离的增加而逐渐增加。 这些特征提高了光的利用的总体效率，并且使得发光表面能够输出高度均匀的光。

公开(公告)号：US20050092467A1

公开(公告)日：2005-05-05

申请号：US10950083

申请日：2004-09-24

Applicant: Jhy-Chain Lin ,  Ga-Lane Chen

Inventor： Jhy-Chain Lin ,  Ga-Lane Chen

IPC: C09K5/10 ,  F28D15/02 ,  F28D15/04 ,  F28D15/00

CPC classification number: B82Y30/00 ,  C09K5/10 ,  F28D15/0233 ,  F28D15/046

Abstract: A heat pipe (20) includes a pipe (21), a wick (22), and an operating fluid. The wick is a capillary structure including a carbon nanotube layer, and is fixed to an inside wall of the pipe. The operating fluid is sealed in the pipe and soaks into the wick. The operating fluid includes a pure liquid, and a plurality of nanometer-scale particles uniformly suspended in the pure liquid. The nanometer-scale particles can be carbon nanocapsules (30) or particles of a metal (32) with high thermal conductivity. Each carbon nanocapsule can further have a metal with high thermal conductivity filled therein. The carbon nanotube layer contains carbon nanotubes of small size and high thermal conductivity, therefore the capillary performance of the wick is good. Further, because the operating fluid includes nanometer-scale particles with high thermal conductivity, this ensures that the operating fluid has high thermal conductivity.

Abstract translation: 热管（20）包括管（21），芯（22）和工作流体。 芯是包括碳纳米管层的毛细结构，并且被固定到管的内壁。 工作流体被密封在管道中并浸泡到芯中。 工作流体包括纯液体和均匀悬浮在纯液体中的多个纳米级颗粒。 纳米级颗粒可以是具有高导热性的碳纳米胶囊（30）或金属（32）的颗粒。 每个碳纳米胶囊还可以具有填充有高导热性的金属。 碳纳米管层含有尺寸小，导热性高的碳纳米管，因此芯的毛细管性能良好。 此外，由于工作流体包括具有高导热性的纳米级颗粒，因此确保了工作流体具有高导热性。