会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明申请
    • MULTIPLEXED SENSOR ARRAY
    • 多路传感器阵列
    • WO2012000079A1
    • 2012-01-05
    • PCT/CA2011/000589
    • 2011-05-19
    • EXCELITAS CANADA INC.HOOD, Sheldon, James
    • HOOD, Sheldon, James
    • G08C15/00G01J5/12
    • H04N5/3765G01J5/14G01J5/22H04N5/33H04N5/355H04N5/357H04N5/378
    • A sensor array, comprising: a plurality of sensors electrically connected in series or in parallel, each of the plurality of sensors operable to generate an individual electrical signal; a multiplexing scheme generator operable to generate a multiplexing scheme; a modulation system connected to the multiplexing scheme generator and operable to selectively reverse the polarity of each of the plurality of sensors for each of a plurality of samples; a readout device operable to sequentially read a plurality of output signals of the plurality of electrically connected sensors, wherein the number of samples is greater than or equal to the number of sensors and wherein one or more electrical signals of the plurality of sensors are readout as one electrical signal; and a demultiplexer operable to receive the output electrical signals and to determine the individual electrical signals of each of the plurality of sensors based on the multiplexing scheme.
    • 一种传感器阵列,包括:串联或并联电连接的多个传感器,所述多个传感器中的每一个可操作以产生单独的电信号; 可操作以产生复用方案的复用方案发生器; 连接到所述多路复用方案生成器的调制系统,用于选择性地反转所述多个传感器中的每一个的多个样本中的每一个的极性; 读出装置,其可操作以顺序地读取多个电连接的传感器的多个输出信号,其中样本的数量大于或等于传感器的数量,并且其中多个传感器中的一个或多个电信号被读出为 一个电信号; 以及解复用器,其可操作以基于所述复用方案来接收所述输出电信号并确定所述多个传感器中的每一个的各个电信号。
    • 4. 发明申请
    • MICROBOLOMETER SEMICONDUCTOR MATERIAL
    • 微电极半导体材料
    • WO2010147532A1
    • 2010-12-23
    • PCT/SE2010/000168
    • 2010-06-17
    • MALM, Gunnar
    • MALM, Gunnar
    • G01J5/20H01L31/0352H01L31/09H01L27/146H01L31/028H01L31/0312
    • G01J5/22G01J5/02G01J5/0215G01J5/024G01J5/046H01L27/14649H01L31/022408H01L31/09H01L31/1035H01L31/108H01L31/1085H01L31/1804H01L31/1812H01L31/1892Y02E10/547Y02P70/521
    • A sensor for detecting intensity of radiation such as of infrared radiation includes an ROIC substrate (9) and a resistance element (1) arranged at a distance of the surface of the ROIC substrate. The resistance element comprises one more semiconducting layers such as a silicon semiconducting layer and a semiconducting layer of a silicon-germanium alloy forming a heterojunction. The semiconducting layer or layers can be doped with one or more impurity dopants, the doping level or levels selected so that the layer retains the basic crystallographic properties of the respective material such as those of monosilicon or a monocrystalline silicon-germanium alloy. The impurity dopants are selected from the elements in groups IE, IV, and V, in particular among boron, aluminium, indium, arsenic, phosphorous, antimony, germanium, carbon and tin. The doping can be abrupt so that there is an interior layer inside said semiconducting layer or layers having a significantly higher doping level.
    • 用于检测诸如红外辐射的辐射强度的传感器包括ROIC衬底(9)和布置在ROIC衬底表面一定距离处的电阻元件(1)。 电阻元件包括一个更多的半导体层,例如硅半导体层和形成异质结的硅 - 锗合金的半导体层。 半导体层可以掺杂有一种或多种杂质掺杂剂,所选择的掺杂水平或级别使得该层保留各种材料的基本晶体学性质,例如单晶硅或单晶硅 - 锗合金的基本晶体学性质。 杂质掺杂剂选自组IE,IV和V中的元素,特别是硼,铝,铟,砷,磷,锑,锗,碳和锡中的元素。 掺杂可以是突变的,使得在所述半导体层内部存在内层,或者具有显着更高掺杂水平的层。
    • 5. 发明申请
    • FOCAL PLANE ANTENNA TO SENSOR INTERFACE FOR AN ULTRA-SENSITIVE BOLOMETER BASED SENSOR
    • 用于基于超声波传感器的传感器接口的FOCAL PLANE天线
    • WO2006039571A3
    • 2006-08-03
    • PCT/US2005035333
    • 2005-09-30
    • NORTHROP GRUMMAN CORPBLUZER NATHAN
    • BLUZER NATHAN
    • G01J5/22G01J5/08
    • G01J5/08G01J5/0837G01J5/20G01J5/22G01J5/24G01K17/003
    • An electrical interface between a scene to be imaged and a bolometer type sensor is disclosed. Efficiency is improved by means of a thermal energy concentrator including a lens and an antenna. Where a plurality of bolometer pixels are located in an array, a microantenna is provided for each pixel in the array with a common lens being provided to focus and channel incoming radiation to each microantenna. Radiation from a scene is further coupled by means of a lens and microantenna to the absorbing element of each bolometer through an AC coupling circuit including an electronic chopper implemented by means of a PIN diode, the conductivity of which is varied so as to affect the reflection coefficient of the input signal supplied through the microantenna.
    • 公开了要成像的场景与测辐射热计型传感器之间的电接口。 通过包括透镜和天线的热能集中器来提高效率。 在多个测辐射热计像素位于阵列中的情况下,为阵列中的每个像素提供微天线,其中提供有共同的透镜以将入射的辐射聚焦并传播到每个微天线。 来自场景的辐射通过透镜和微天线通过AC耦合电路进一步耦合到每个测辐射热计的吸收元件,AC耦合电路包括通过PIN二极管实现的电子斩波器,其电导率被改变以影响反射 通过微天线提供的输入信号的系数。
    • 7. 发明申请
    • FOCAL PLANE ANTENNA TO SENSOR INTERFACE FOR AN ULTRA-SENSITIVE SILICON SENSOR
    • 用于超声波传感器的传感器接口的FOCAL PLANE天线
    • WO2006039571A2
    • 2006-04-13
    • PCT/US2005/035333
    • 2005-09-30
    • NORTHROP GRUMMAN CORPORATIONBLUZER, Nathan
    • BLUZER, Nathan
    • G01J5/22G01J5/08
    • G01J5/08G01J5/0837G01J5/20G01J5/22G01J5/24G01K17/003
    • An electrical interface between a scene to be imaged and a bolometer type sensor is disclosed. Efficiency is improved by means of a thermal energy concentrator including a lens and an antenna. Where a plurality of bolometer pixels are located in an array, a microantenna is provided for each pixel in the array with a common lens being provided to focus and channel incoming radiation to each microantenna. Radiation from a scene is further coupled by means of a lens and microantenna to the absorbing element of each bolometer through an AC coupling circuit including an electronic chopper implemented by means of a PIN diode, the conductivity of which is varied so as to affect the reflection coefficient of the input signal supplied through the microantenna.
    • 公开了要成像的场景与测辐射热计型传感器之间的电接口。 通过包括透镜和天线的热能集中器来提高效率。 在多个测辐射热计像素位于阵列中的情况下,为阵列中的每个像素提供微天线,其中提供有共同的透镜以将入射的辐射聚焦并传播到每个微天线。 来自场景的辐射通过透镜和微天线通过AC耦合电路进一步耦合到每个测辐射热计的吸收元件,AC耦合电路包括通过PIN二极管实现的电子斩波器,其电导率被改变以影响反射 通过微天线提供的输入信号的系数。