公开(公告)号：US10411646B2

公开(公告)日：2019-09-10

申请号：US16013917

申请日：2018-06-20

Applicant: CHROMA ATE INC.

Inventor： Cheng-Ting Tsai ,  Lan-Sheng Yang

IPC: H02S50/10 ,  G02B27/30 ,  H01L31/048 ,  H01L31/0224 ,  H02S50/15

Abstract: A method for inspecting a solar cell and configured to inspect a peeling state of a three-dimensional pattern of the solar cell includes obliquely illuminating the three-dimensional pattern of the solar cell using a light beam. An image of the solar cell is normally captured. An intensity of the light beam is increased to increase a contrast between the three-dimensional pattern and a shadow of the three-dimensional pattern in the image and increase a contrast between an ink pattern of the solar cell and the shadow in the image to overexpose the ink pattern in the image. Determine if the three-dimensional pattern is peeling according to the shadow of the three-dimensional pattern in the image.

公开(公告)号：US11300491B2

公开(公告)日：2022-04-12

申请号：US16676458

申请日：2019-11-07

Applicant: CHROMA ATE INC.

Inventor： Cheng-Ting Tsai ,  Lan-Sheng Yang ,  Shao-En Chung

IPC: F28B1/06 ,  G01N13/00

Abstract: A condensing system is used to generate a condensing layer on a surface of a test object. The condensing system includes airflow generating device and a passage device. The airflow generating device is used to generate condensing airflow. The condensing airflow has a dew point higher than a temperature of the surface of the test object. The passage device is connected to the airflow generating device, and the condensing airflow flows from the airflow generating device into the passage device. The passage device includes a flow-uniforming module. The flow-uniforming module includes at least one uniforming board. Each of the at least one uniforming board has at least a first hole.

公开(公告)号：US10989660B2

公开(公告)日：2021-04-27

申请号：US16260743

申请日：2019-01-29

Applicant: CHROMA ATE INC.

Inventor： Chien-Hsun Chu ,  Lan-Sheng Yang

IPC: G01N21/64 ,  C12Q1/6816 ,  C12Q1/686

Abstract: An automatic fluorescence detection system includes a base and an optical assembly. The base has a detecting region. The optical assembly includes a fluorescent image-capturing device, an illumination device and a field lens. The illumination device includes a first annular illumination module and a second annular illumination module surrounding a center axis of the fluorescent image-capturing device. Lights emitted by the first annular illumination module and the second annular illumination module travel along a light-traveling path to project onto the detecting region. A distance between the first annular illumination module and the center axis is smaller than that between the second annular illumination module and the center axis. The field lens is disposed in correspondence with the detecting region. Spacing between the field lens and the detecting region is ranged from 15.0 cm to 30.0 cm.

公开(公告)号：US09234933B2

公开(公告)日：2016-01-12

申请号：US13716100

申请日：2012-12-15

Applicant: Chroma ATE Inc.

Inventor： Lan-Sheng Yang ,  I-Shih Tseng ,  Ching-Lin Lee ,  Ming-Chieh Lin ,  Yi-Lung Weng

IPC: G01R31/26 ,  H02S50/10 ,  F21S8/00 ,  F21Y101/02

CPC classification number: G01R31/2607 ,  F21S8/006 ,  F21Y2115/10 ,  H02S50/10

Abstract: A solar cell testing system includes a multifunctional testing light source, a measuring unit, and an arithmetic unit. The multifunctional testing light source is configured to be switched to output a simulated solar light to a solar cell or asynchronously output a plurality of narrowband lights to the solar cell. The measuring unit is coupled to the solar cell and measures the solar cell's response to the simulated solar light and response to the asynchronously outputted narrowband lights. The arithmetic unit is coupled to the multifunctional testing light source and the measuring unit; it determines the solar cell's conversion efficiency and spectral response based on the solar cell's response to the simulated solar light and response to the asynchronously outputted narrowband lights.

Abstract translation: 太阳能电池测试系统包括多功能测试光源，测量单元和运算单元。 多功能测试光源被配置为切换以将模拟的太阳光输出到太阳能电池，或者将多个窄带光异步输出到太阳能电池。 测量单元耦合到太阳能电池并且测量太阳能电池对模拟的太阳光的响应以及对异步输出的窄带光的响应。 算术单元耦合到多功能测试光源和测量单元; 它基于太阳能电池对模拟的太阳光的响应和对异步输出的窄带光的响应来确定太阳能电池的转换效率和光谱响应。

公开(公告)号：US10436580B2

公开(公告)日：2019-10-08

申请号：US16190112

申请日：2018-11-13

Applicant: CHROMA ATE INC.

Inventor： Yi-Chang Chiu ,  Cheng-Ting Tsai ,  Shih-Yao Pan ,  Lan-Sheng Yang ,  Hsiu-Wei Kuo ,  Shao-En Chung

IPC: G01B11/30 ,  G01N21/51 ,  G01N21/958 ,  G01N21/47

Abstract: A surface measurement system is configured to measure a sample with a low reflectivity surface. The surface measurement system includes a condensation device and a measurement device. The condensation device is configured to form a liquid layer on the surface of the sample. The condensation device includes a chamber, a temperature controlling gas source, and a humidification gas source. The chamber is configured to accommodate the sample. The temperature controlling gas source is connected to the chamber to provide temperature controlling gases to the chamber, so as to control the temperature of the sample. The humidification gas source is connected to the chamber to provide water vapor to the chamber, so as to form the liquid layer on the surface of the sample. The measurement device includes a plate, a light source, and an image capturing device.