公开(公告)号：US09127980B2

公开(公告)日：2015-09-08

申请号：US13960176

申请日：2013-08-06

Applicant: Huawei Device Co., LTD

Inventor： Leilei Pang ,  Hui Shao

IPC: H05B37/02 ,  H05B39/04 ,  G01J1/02 ,  G02F1/1333 ,  G09G5/10 ,  G01J1/04 ,  G01J1/42 ,  H04M1/02

CPC classification number: G01J1/0233 ,  G01J1/0474 ,  G01J1/4204 ,  G02F1/13338 ,  G09G5/10 ,  H04M1/026 ,  H04M2250/12

Abstract: A method and a structure are provided to increase a receiving angle of an optical sensor. The structure includes touchscreen glass, an optical sensor, and a main board. An ambient light hole is provided on the touchscreen glass. The optical sensor is disposed between the touchscreen glass and the main board. A light uniformizing film is disposed between the touchscreen glass and the optical sensor, is in contact with the touchscreen glass, and completely covers the ambient light hole. A handheld terminal includes the foregoing structure.

Abstract translation: 提供了一种方法和结构来增加光学传感器的接收角度。 该结构包括触摸屏玻璃，光学传感器和主板。 触摸屏玻璃上设有环境光孔。 光学传感器设置在触摸屏玻璃和主板之间。 触摸屏玻璃和光学传感器之间设置有光均匀化膜，与触摸屏玻璃接触，并且完全覆盖环境光孔。 手持终端包括上述结构。

公开(公告)号：US20150211921A1

公开(公告)日：2015-07-30

申请号：US14681563

申请日：2015-04-08

Applicant: Dawn Hollingsworth

Inventor： Dawn Hollingsworth

IPC: G01J1/42 ,  G01J1/02

CPC classification number: G01J1/0219 ,  G01J1/0233 ,  G01J1/0247 ,  G01J1/0271 ,  G01J1/0411 ,  G01J2001/0257

Abstract: A system for measuring light intensity of a specific location and wirelessly transferring the light intensity data contains at least one light intensity sensing assembly and a computing device. The light intensity data is recorded by the light intensity sensing assembly and is wirelessly transferred to the computing device. The light intensity sensing assembly contains a dome lens, a photocell, a processing unit, a wireless data-transferring module, and a portable power source. The photocell is centrally mounted within the dome lens in order to receive a maximum amount of light. The photocell is electronically connected to the processing unit. In order to transmit the light intensity data, the processing unit is electronically connected to the wireless data transfer module. The photocell, the processing unit, and the wireless data-transferring module are powered by the portable power source.

Abstract translation: 用于测量特定位置的光强度并且无线传送光强度数据的系统包含至少一个光强感测组件和计算装置。 光强度数据由光强感测组件记录，并被无线传送到计算设备。 光强感测组件包括圆顶透镜，光电管，处理单元，无线数据传输模块和便携式电源。 光电管中央安装在圆顶透镜内，以便接收最大量的光。 光电池电连接到处理单元。 为了传输光强度数据，处理单元电连接到无线数据传输模块。 光电管，处理单元和无线数据传输模块由便携式电源供电。

公开(公告)号：US20150211920A1

公开(公告)日：2015-07-30

申请号：US14415513

申请日：2013-07-12

Applicant: OSRAM OPTO SEMICONDUCTORS GMBH

Inventor： Dirk Sossenheimer ,  Hubert Halbritter

IPC: G01J1/42 ,  G01J1/02 ,  G01J1/44

CPC classification number: G01J1/4204 ,  G01J1/0233 ,  G01J1/16 ,  G01J1/4257 ,  G01J1/44 ,  G01J2001/0257 ,  G01J2001/4247 ,  H05B37/0218 ,  Y02B20/46

Abstract: Fluctuation frequency (F) of an ambient light (S) is identified by: A) specifying first frequency (F1) and second frequency (F2), higher than said first frequency; B) measuring an optical power of the ambient light with a signal receiver (2) over a measuring time interval (Ti) during a total measuring time (T), which is shorter than or equal to a first cycle duration (P1) belonging to the first frequency; C) detecting the optical power of the ambient light in a time series over the total measuring time; D) determining at least one detection feature for identifying the fluctuation frequency by evaluating the time series; and E) identifying the fluctuation frequency of the ambient light as the first frequency or as the second frequency by means of the at least one detection feature.

Abstract translation: 通过以下方式来识别环境光（S）的波动频率（F）：A）指定高于所述第一频率的第一频率（F1）和第二频率（F2） B）在总测量时间（T）期间测量环境光的光功率与信号接收器（2）在测量时间间隔（Ti）之间，该总测量时间（T）小于或等于属于第一周期持续时间（P1）的总测量时间 第一个频率; C）在总测量时间内以时间序列检测环境光的光功率; D）通过评估时间序列来确定用于识别波动频率的至少一个检测特征; 以及E）通过所述至少一个检测特征来识别环境光的波动频率作为第一频率或第二频率。

公开(公告)号：US20150177059A1

公开(公告)日：2015-06-25

申请号：US14576011

申请日：2014-12-18

Applicant: Jie Lian ,  Nabyl Bennouri ,  Nattapon Chaimanonart

Inventor： Jie Lian ,  Nabyl Bennouri ,  Nattapon Chaimanonart

IPC: G01J1/42 ,  G01J1/44

CPC classification number: G01J1/429 ,  A61B5/441 ,  G01J1/0219 ,  G01J1/0233 ,  G01J1/0403 ,  G01J1/44 ,  G01J2001/4266 ,  G01J2001/444 ,  G01T1/02 ,  G06F1/163

Abstract: A UV exposure dosimetry system includes at least one UV sensor that accurately measures the UV irradiance intensity. The UV dosimetry system integrates the measured UV irradiance intensity over time to calculate the real-time UV dosage and the vitamin D production by taking into account factors comprising UV sensor location, body surface area, clothing coverage, and sunscreen usage. Based on the measurement, the system can predict the time remaining to skin burn and the time remaining to reach daily goal of vitamin D production. The system can also estimate UV intensity for a time in the future at a geographic location based on the forecast UV index data, and predict UV dose and vitamin D generation for the user corresponding to user defined scenarios. The UV dosimetry system supports multi-user control through an advanced and user friendly input and output interface.

Abstract translation: UV曝光剂量测定系统包括至少一个UV传感器，其精确地测量紫外线辐照强度。 UV剂量测定系统通过考虑到UV传感器位置，体表面积，衣物覆盖率和防晒霜使用量的因素，将测量的紫外线辐照度随时间整合，以计算实时紫外线剂量和维生素D的生产。 基于测量，该系统可以预测皮肤灼伤的时间和剩余的时间达到维生素D生产的每日目标。 该系统还可以基于预测的UV指数数据估计未来一段时间内的UV强度，并且根据用户定义的场景预测用户的UV剂量和维生素D生成。 UV剂量测定系统通过先进且用户友好的输入和输出接口支持多用户控制。

公开(公告)号：US20150177058A1

公开(公告)日：2015-06-25

申请号：US14575952

申请日：2014-12-18

Applicant: Jie Lian ,  Nabyl Bennouri ,  Nattapon Chaimanonart

Inventor： Jie Lian ,  Nabyl Bennouri ,  Nattapon Chaimanonart

IPC: G01J1/42 ,  G06F1/16 ,  A61B5/00 ,  G01J1/44

CPC classification number: G01J1/429 ,  A61B5/441 ,  G01J1/0219 ,  G01J1/0233 ,  G01J1/0403 ,  G01J1/44 ,  G01J2001/4266 ,  G01J2001/444 ,  G01T1/02 ,  G06F1/163

Abstract: A UV exposure dosimetry system includes at least one UV sensor that accurately measures the UV irradiance intensity. The UV dosimetry system integrates the measured UV irradiance intensity over time to calculate the real-time UV dosage and the vitamin D production by taking into account factors comprising UV sensor location, body surface area, clothing coverage, and the effective sun protection factor of the applied sunscreen. Based on the measurement, the system can predict the time remaining to skin burn and the time remaining to reach daily goal of vitamin D production. The UV dosimetry system supports multi-user control through an advanced and user friendly input and output interface.

Abstract translation: UV曝光剂量测定系统包括至少一个UV传感器，其精确地测量紫外线辐照强度。 紫外线剂量测定系统将测量的紫外线辐射强度随时间整合，通过考虑包括紫外线传感器位置，体表面积，衣物覆盖度和有效防晒因子的因素来计算实时紫外线剂量和维生素D生产 应用防晒霜。 基于测量，该系统可以预测皮肤灼伤的时间和剩余的时间达到维生素D生产的每日目标。 UV剂量测定系统通过先进且用户友好的输入和输出接口支持多用户控制。

公开(公告)号：US09046421B2

公开(公告)日：2015-06-02

申请号：US13716495

申请日：2012-12-17

Applicant: Apple Inc.

Inventor： Brian R. Land ,  Steven P. Hotelling

IPC: G01J1/44 ,  G01J1/02

CPC classification number: G01J1/44 ,  G01J1/0219 ,  G01J1/0228 ,  G01J1/0233 ,  G01J1/0271 ,  G01J1/0437 ,  G01J1/0488 ,  G01J1/4204 ,  G01J1/4228 ,  G01S7/4811 ,  G01S7/4813 ,  G01S17/026

Abstract: Electronic devices may include light sensors. A light sensor may be an ambient light sensor that is mounted adjacent to an aperture in an opaque structure. An ambient light sensor may include active light sensor elements located adjacent to the aperture and inactive light sensor elements located adjacent to the opaque structure. Signal processing circuitry may be interposed between the light sensor elements and a summing circuit that sums light signals from the light sensor elements to form an ambient light signal. The signal processing circuitry may include a switch and an amplifier associated with each light sensor element. The switch associated with each element may be used to selectively activate or inactivate that element. The amplifier associated with each element may be used to amplify the light signal from that element by a gain factor that depends on the location of that element with respect to the aperture.

Abstract translation: 电子设备可以包括光传感器。 光传感器可以是与不透明结构中的孔相邻地安装的环境光传感器。 环境光传感器可以包括邻近孔的有源光传感器元件和位于不透明结构附近的不活动光传感器元件。 信号处理电路可以插入在光传感器元件和加法电路之间，该求和电路将来自光传感器元件的光信号相加以形成环境光信号。 信号处理电路可以包括与每个光传感器元件相关联的开关和放大器。 与每个元件相关联的开关可以用于选择性地激活或者去激活该元件。 与每个元件相关联的放大器可用于通过取决于该元件相对于孔的位置的增益因子来放大来自该元件的光信号。

公开(公告)号：US09024250B2

公开(公告)日：2015-05-05

申请号：US13606726

申请日：2012-09-07

Applicant: Ian A. Spraggs ,  Michael B. Wittenberg ,  Jared M. Kole ,  Ashutosh Y. Shukla

Inventor： Ian A. Spraggs ,  Michael B. Wittenberg ,  Jared M. Kole ,  Ashutosh Y. Shukla

IPC: G01J1/02 ,  G01J1/04 ,  G01J1/42 ,  H04M1/02

CPC classification number: G01J1/0437 ,  G01J1/0219 ,  G01J1/0233 ,  G01J1/0247 ,  G01J1/0266 ,  G01J1/0271 ,  G01J1/0488 ,  G01J1/4204 ,  G01J2001/0257 ,  H04M1/026 ,  H04M2250/12 ,  Y10T29/49826

Abstract: Electronic devices may include light sensors. The light sensors may include alignment features. The light sensors may be optically aligned with an aperture in an opaque structure. The opaque structure may be formed from an opaque material or a transparent material with an opaque coating. The light sensor may be mounted in a support structure that has been optically aligned with the aperture. The light sensor or the support structure may include extended portions that are transparent to ultraviolet light. Ultraviolet light may be transmitted through the extended portions to cure adhesive that attaches the light sensor or the support structure to the opaque structure. The light sensor may be optically aligned with the aperture by viewing the aperture through an opening in the support structure, by viewing the alignment features on the light sensor through the aperture or by gathering alignment data using the light sensor during alignment operations.

Abstract translation: 电子设备可以包括光传感器。 光传感器可以包括对准特征。 光传感器可以与不透明结构中的孔光学对准。 不透明结构可以由不透明材料或具有不透明涂层的透明材料形成。 光传感器可以安装在已经与孔光学对准的支撑结构中。 光传感器或支撑结构可以包括对紫外线透明的延伸部分。 紫外光可以通过延伸部分传播，以固化将光传感器或支撑结构附接到不透明结构的粘合剂。 通过在对准操作期间通过观察光传感器上通过孔的对准特征或通过采集光传感器收集对准数据，光传感器可以通过观察通过支撑结构中的开口的孔与光学对准。

公开(公告)号：US20140232694A1

公开(公告)日：2014-08-21

申请号：US13770259

申请日：2013-02-19

Applicant: MOTOROLA MOBILITY LLC

Inventor： Rachid Mohsen Alameh ,  Patrick J. Cauwels ,  Timothy Dickinson ,  Kenneth A. Paitl

IPC: G06F3/042 ,  G01J5/20

CPC classification number: G06F3/042 ,  G01J1/0204 ,  G01J1/0214 ,  G01J1/0233 ,  G01J1/0403 ,  G01J1/0407 ,  G01J1/0411 ,  G01J1/08 ,  G01J5/20 ,  G06F3/0428 ,  G06F2203/0339

Abstract: An infrared sensing strip includes a substantially linear substrate board, a receiver diode, and a plurality of light emitting diodes (LEDs) linearly aligned along the linear substrate board. Each of the LEDs is operative to transmit in a different direction. The infrared sensing strip utilizes prismatic films arranged to refract light from each of the LEDs in different directions. In one embodiment, the receiver diode is positioned centrally on the linear substrate board, and includes at least four LEDs, with two of each being disposed on either side of the receiver diode. Four prismatic films each cover a respective one of the LEDs and are arranged to refract light from each respective LED in one of four different directions. The small scale of the infrared sensing strip enables various applications including a scroll control, volume control, a heart rate monitor and various transmit and receive features.

Abstract translation: 红外感测条包括基本上线性的基板，接收二极管和沿着线性基板线性对准的多个发光二极管（LED）。 每个LED可操作以沿不同的方向传输。 红外感测条使用棱镜膜，其布置成在不同方向上折射来自每个LED的光。 在一个实施例中，接收器二极管位于线性衬底板的中心位置，并且包括至少四个LED，其中两个LED设置在接收器二极管的两侧。 四个棱镜膜各自覆盖相应的一个LED，并且布置成在四个不同方向之一上折射来自每个相应LED的光。 红外感应条的小尺寸可实现各种应用，包括滚动控制，音量控制，心率监测器以及各种发送和接收功能。

公开(公告)号：US20130314699A1

公开(公告)日：2013-11-28

申请号：US13845017

申请日：2013-03-17

Applicant: Roger L. Jungerman ,  Randall King

Inventor： Roger L. Jungerman ,  Randall King

IPC: G01J1/02

CPC classification number: G01J1/0266 ,  G01J1/0233 ,  G01J1/0242 ,  G01J2001/4266

Abstract: A solar resource measurement system captures an orientation-referenced image within a field of view of a tilted surface that includes a skyline, detects the skyline within the orientation-referenced image to establish a set of zenith angles as a function of azimuth angles associated with the skyline, and determines a solar resource for the tilted surface from the orientation-referenced image and the set of zenith angles as the function of azimuth angles that are associated with the skyline.

Abstract translation: 太阳能资源测量系统捕获包括天际线的倾斜表面的视野内的取向参考图像，检测取向参考图像内的天际线，以建立与天线相关联的方位角的函数的一组天顶角度 并且根据与天际线相关联的方位角的函数，从取向参考图像和顶点角度确定用于倾斜表面的太阳能资源。

公开(公告)号：US08487256B2

公开(公告)日：2013-07-16

申请号：US13240187

申请日：2011-09-22

Applicant: Kelvin Kwong ,  Richard Hung Minh Dinh ,  Benjamin John Pope

Inventor： Kelvin Kwong ,  Richard Hung Minh Dinh ,  Benjamin John Pope

IPC: G01J5/00

CPC classification number: H01L31/02162 ,  G01J1/0214 ,  G01J1/0233 ,  G01J1/0271 ,  G01J1/0488 ,  G01J1/06 ,  G01S7/4811 ,  G01S17/026 ,  H01L31/02325 ,  H01L31/167 ,  H01L31/173 ,  Y10T29/49117 ,  Y10T29/49204

Abstract: A proximity sensor for use in a portable computing device is described. In particular various embodiments of a proximity sensor which fit in an extremely small portion of a cellular phone, and accurately determine the presence of a user's head in close proximity to a surface of the cellular phone.

Abstract translation: 描述了用于便携式计算设备的接近传感器。 特别是适合蜂窝电话的极小部分的接近传感器的各种实施例，并且准确地确定用户头部在蜂窝电话的表面附近的存在。