公开(公告)号：US09160057B2

公开(公告)日：2015-10-13

申请号：US13304698

申请日：2011-11-28

Applicant: I-Shan Chen ,  Jia-Fong Wu ,  Chia-Hong Lin ,  Cheng-Hsiung Hsu ,  Chao-Chun Lin

Inventor： I-Shan Chen ,  Jia-Fong Wu ,  Chia-Hong Lin ,  Cheng-Hsiung Hsu ,  Chao-Chun Lin

IPC: H01Q9/16 ,  H01Q1/24 ,  H01Q9/26 ,  H01Q5/357

CPC classification number: H01Q1/243 ,  H01Q5/357 ,  H01Q9/26

Abstract: An unsymmetrical dipole antenna includes a grounding element, a radiating element, and a feed-in wire. The grounding element includes a first short side metal plane and a first long side metal plane. The radiating element includes a second short side metal plane and a second long side metal plane. The feed-in wire includes a metal wire, coupled to the second short side metal plane for transmitting a feed-in signal; an insulation layer, covering the metal wire; a metal weave, covering the insulation layer, having one terminal coupled to the first short side metal plane of the grounding element, and another terminal coupled to a system ground of the wireless communication device; and a protective layer, covering the metal weave. A size of the grounding element and a size of the radiating element are irrelative.

Abstract translation: 非对称偶极天线包括接地元件，辐射元件和馈入线。 接地元件包括第一短边金属平面和第一长边金属平面。 辐射元件包括第二短边金属平面和第二长边金属平面。 馈入线包括耦合到第二短边金属平面的金属线，用于传送馈入信号; 绝缘层，覆盖金属线; 覆盖绝缘层的金属组织，具有耦合到接地元件的第一短边金属平面的一个端子和耦合到无线通信设备的系统接地的另一个端子; 和保护层，覆盖金属编织。 接地元件的尺寸和辐射元件的尺寸是不相关的。

公开(公告)号：US20090091888A1

公开(公告)日：2009-04-09

申请号：US11868970

申请日：2007-10-09

Applicant: Chao-Chun Lin ,  Shih-Hong Chen ,  Cheng-Hsiung Hsu ,  Tsung-Ying Chung

Inventor： Chao-Chun Lin ,  Shih-Hong Chen ,  Cheng-Hsiung Hsu ,  Tsung-Ying Chung

IPC: H05K7/20

CPC classification number: H05K9/0032 ,  H01L23/367 ,  H01L23/552 ,  H01L2924/0002 ,  H01L2924/00

Abstract: The present invention discloses an EMI shielding and heat dissipating structure for dissipating heat generated by a chip inside a portable electronic device. The EMI shielding and heat dissipating structure includes an EMI shielding housing for shielding the chip. A first opening is formed on the EMI shielding housing. The EMI shielding and heat dissipating structure further includes a thermal pad disposed on the chip, and an EMI shielding gasket installed on the EMI shielding housing. A second opening is formed on the EMI shielding gasket and located in a position corresponding to the first opening. The EMI shielding and heat dissipating structure further includes a heat-dissipating component installed on the EMI shielding gasket and connected to the thermal pad for dissipating the heat transmitted from the thermal pad.

Abstract translation: 本发明公开了一种用于散发由便携式电子设备内的芯片产生的热量的EMI屏蔽和散热结构。 EMI屏蔽和散热结构包括用于屏蔽芯片的EMI屏蔽外壳。 第一开口形成在EMI屏蔽壳体上。 EMI屏蔽和散热结构还包括设置在芯片上的热垫，以及安装在EMI屏蔽外壳上的EMI屏蔽垫。 第二开口形成在EMI屏蔽垫片上并且位于与第一开口相对应的位置。 EMI屏蔽和散热结构还包括安装在EMI屏蔽垫上并连接到散热垫的散热部件，用于耗散热垫传递的热量。

公开(公告)号：US20100245635A1

公开(公告)日：2010-09-30

申请号：US12564154

申请日：2009-09-22

Applicant: Chao Chun Lin

Inventor： Chao Chun Lin

IPC: H04N5/202

CPC classification number: H04N1/4072 ,  G06T5/009 ,  G06T2207/20208

Abstract: A method of generating a high dynamic range (HDR) image and a digital image pickup device using the same are described. The digital image pickup device is employed to generate an HDR image according to a single digital image. The method includes the steps of obtaining an original image; performing a gray-scale processing to convert the original image into an original gray-scale pattern, in which each pixel in the original gray-scale pattern is assigned with a gray-scale value; performing a conversion procedure according to a gradient and a compensation value of the gray-scale value of each pixel in the original gray-scale pattern, and generating a high dynamic gray-scale pattern by using the gradients and the compensation values; and compensating the original image with the high dynamic gray-scale pattern, so as to generate the HDR image.

Abstract translation: 描述了生成高动态范围（HDR）图像的方法和使用其的数字图像拾取装置。 数字图像拾取装置用于根据单个数字图像生成HDR图像。 该方法包括获得原始图像的步骤; 执行灰度处理以将原始图像转换为原始灰度图案，其中原始灰度图案中的每个像素被分配灰度值; 根据原始灰度图案中的每个像素的灰度值的梯度和补偿值执行转换过程，并通过使用梯度和补偿值产生高动态灰度图案; 并用高动态灰度图案补偿原始图像，以便生成HDR图像。

公开(公告)号：US20130027266A1

公开(公告)日：2013-01-31

申请号：US13304698

申请日：2011-11-28

Applicant: I-Shan Chen ,  Jia-Fong Wu ,  Chia-Hong Lin ,  Cheng-Hsiung Hsu ,  Chao-Chun Lin

Inventor： I-Shan Chen ,  Jia-Fong Wu ,  Chia-Hong Lin ,  Cheng-Hsiung Hsu ,  Chao-Chun Lin

IPC: H01Q9/16

CPC classification number: H01Q1/243 ,  H01Q5/357 ,  H01Q9/26

Abstract: An unsymmetrical dipole antenna includes a grounding element, a radiating element, and a feed-in wire. The grounding element includes a first short side metal plane and a first long side metal plane. The radiating element includes a second short side metal plane and a second long side metal plane. The feed-in wire includes a metal wire, coupled to the second short side metal plane for transmitting a feed-in signal; an insulation layer, covering the metal wire; a metal weave, covering the insulation layer, having one terminal coupled to the first short side metal plane of the grounding element, and another terminal coupled to a system ground of the wireless communication device; and a protective layer, covering the metal weave. A size of the grounding element and a size of the radiating element are irrelative.

Abstract translation: 非对称偶极天线包括接地元件，辐射元件和馈入线。 接地元件包括第一短边金属平面和第一长边金属平面。 辐射元件包括第二短边金属平面和第二长边金属平面。 馈入线包括耦合到第二短边金属平面的金属线，用于传送馈入信号; 绝缘层，覆盖金属线; 覆盖绝缘层的金属组织，具有耦合到接地元件的第一短边金属平面的一个端子和耦合到无线通信设备的系统接地的另一个端子; 和保护层，覆盖金属编织。 接地元件的尺寸和辐射元件的尺寸是不相关的。

公开(公告)号：US20100246940A1

公开(公告)日：2010-09-30

申请号：US12549510

申请日：2009-08-28

Applicant: Chao-Chun Lin

Inventor： Chao-Chun Lin

IPC: G06K9/40 ,  G06K9/62

CPC classification number: G06T5/009 ,  G06T2207/20084 ,  G06T2207/20208

Abstract: A method of generating a high dynamic range image and an electronic device using the same are described. The method includes loading a brightness adjustment model created by a neural network algorithm; obtaining an original image; acquiring a pixel characteristic value, a first characteristic value in a first direction, and a second characteristic value in a second direction of the original image; and generating an HDR image through the brightness adjustment model according to the pixel characteristic value, the first characteristic value, and the second characteristic value of the original image. The electronic device includes a brightness adjustment model, a characteristic value acquisition unit, and a brightness adjustment procedure. The electronic device acquires a pixel characteristic value, a first characteristic value, and a second characteristic value of an original image through the characteristic value acquisition unit, and generates an HDR image from the original image through the brightness adjustment model.

Abstract translation: 描述了生成高动态范围图像的方法和使用其的电子设备。 该方法包括加载由神经网络算法创建的亮度调整模型; 获得原始图像; 获取原始图像的像素特性值，第一方向上的第一特征值和第二方向上的第二特征值; 以及根据原始图像的像素特性值，第一特征值和第二特征值，通过亮度调整模型生成HDR图像。 电子设备包括亮度调节模型，特征值获取单元和亮度调节过程。 电子设备通过特征值获取单元获取原始图像的像素特征值，第一特征值和第二特征值，并通过亮度调整模型从原始图像生成HDR图像。

公开(公告)号：US20130050034A1

公开(公告)日：2013-02-28

申请号：US13253975

申请日：2011-10-06

Applicant: Yi-Cheng Wu ,  Yi-Jie Wang ,  Chao-Chun Lin ,  Cheng-Hsiung Hsu ,  I-Shan Chen ,  Ta-Wei Hsu

Inventor： Yi-Cheng Wu ,  Yi-Jie Wang ,  Chao-Chun Lin ,  Cheng-Hsiung Hsu ,  I-Shan Chen ,  Ta-Wei Hsu

IPC: H01Q1/32 ,  H01Q1/42

CPC classification number: H01Q1/3233 ,  H01Q1/42

Abstract: An automotive radar device and an antenna cover are disclosed. The automotive radar device includes a base, an antenna disposed on the base, and the antenna cover. The antenna cover includes a main portion and an engagement portion connected to the circumference of the main portion. The engagement portion can be engaged to the base such that the main portion covers the antenna. Therein, a thickness of the main portion along a radiation direction of the antenna is equal to half-wavelength corresponding to a center operation frequency of the antenna under a dielectric constant of the main portion. Thereby, energy radiated from the antenna can mostly pass through the main portion without excessive signal attenuation, which solves the insufficient signal intensity due to a protection cover in the prior art. Further, the main portion can be made of flexible and weather resistant material to improve its physical and chemical properties.

Abstract translation: 公开了一种汽车雷达装置和天线罩。 汽车雷达装置包括基座，设置在基座上的天线和天线盖。 天线罩包括主体部分和与主体部分的圆周连接的接合部分。 接合部分可以接合到基座，使得主要部分覆盖天线。 其中，沿着天线的辐射方向的主要部分的厚度等于在主要部分的介电常数下对应于天线的中心操作频率的半波长。 因此，从天线辐射的能量可以大部分通过主要部分而没有过多的信号衰减，这解决了现有技术中由于保护罩引起的信号强度不足。 此外，主要部分可以由柔性和耐候性材料制成，以改善其物理和化学性质。

公开(公告)号：US08159571B2

公开(公告)日：2012-04-17

申请号：US12564154

申请日：2009-09-22

Applicant: Chao-Chun Lin

Inventor： Chao-Chun Lin

IPC: H04N5/202 ,  H04N17/00 ,  H04N17/02 ,  G06K9/00

CPC classification number: H04N1/4072 ,  G06T5/009 ,  G06T2207/20208

Abstract: A method of generating a high dynamic range (HDR) image and a digital image pickup device using the same are described. The digital image pickup device is employed to generate an HDR image according to a single digital image. The method includes the steps of obtaining an original image; performing a gray-scale processing to convert the original image into an original gray-scale pattern, in which each pixel in the original gray-scale pattern is assigned with a gray-scale value; performing a conversion procedure according to a gradient and a compensation value of the gray-scale value of each pixel in the original gray-scale pattern, and generating a high dynamic gray-scale pattern by using the gradients and the compensation values; and compensating the original image with the high dynamic gray-scale pattern, so as to generate the HDR image.

Abstract translation: 描述了生成高动态范围（HDR）图像的方法和使用其的数字图像拾取装置。 数字图像拾取装置用于根据单个数字图像生成HDR图像。 该方法包括获得原始图像的步骤; 执行灰度处理以将原始图像转换为原始灰度图案，其中原始灰度图案中的每个像素被分配灰度值; 根据原始灰度图案中的每个像素的灰度值的梯度和补偿值执行转换过程，并通过使用梯度和补偿值产生高动态灰度图案; 并用高动态灰度图案补偿原始图像，以便生成HDR图像。