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
    • TURBIDITY SENSOR WITH IMPROVED NOISE REJECTION
    • 具有改进的噪声抑制的涡街传感器
    • WO2006034170A1
    • 2006-03-30
    • PCT/US2005/033434
    • 2005-09-16
    • ROSEMOUNT ANALYTICAL INC.REZVANI, BehzadLOMIBAO, Jeffrey
    • REZVANI, BehzadLOMIBAO, Jeffrey
    • G01N21/51
    • G01N21/49G01N21/51
    • A turbidity sensor (300, 340) includes a sensor body (302), a primary illuminator (306), a scattered light detector (310) and a bubble illuminator (314) . The sensor body (302) is disposed to contact a liquid sample (304). The primary illumination source (306) is disposed to direct illumination into the liquid sample (304). The scattered illumination detector (310) is disposed proximate a portion of the sensor body (302) that is straight in at least one dimension, and the detector (310) is configured to detect illumination from the primary illumination source (306) that is scattered within the liquid sample (302). A bubble illuminator (314) is disposed to direct illumination along the at least one dimension. Scattered light that originates from the bubble illuminator (314) is detected by the scattered light detector (310) and provides an indication of bubbles (312) proximate the scattered light detector (310). Methods of filtering and selectively updating a running average of turbidity readings are also disclosed.
    • 浊度传感器(300,340)包括传感器主体(302),主照明器(306),散射光检测器(310)和气泡照明器(314)。 传感器主体(302)设置成接触液体样品(304)。 主照明源(306)设置成将照明引导到液体样品(304)中。 散射照明检测器(310)设置在传感器主体(302)的至少一个维度上是直的部分附近,并且检测器(310)被配置为检测来自散射的主照明源(306)的照明 在液体样品(302)内。 设置气泡照明器(314)以沿着至少一个维度引导照明。 由散射光检测器(310)检测来自气泡照明器(314)的分散光,并提供靠近散射光检测器(310)的气泡(312)的指示。 还公开了滤波和选择性地更新浊度读数的运行平均值的方法。
    • 6. 发明申请
    • IN SITU FLUE GAS ANALYZER WITH IMPROVED PROCESS COMMUNICATION
    • 在具有改进过程通信的现场燃气分析仪中
    • WO2014160944A1
    • 2014-10-02
    • PCT/US2014/032181
    • 2014-03-28
    • ROSEMOUNT ANALYTICAL, INC.
    • NEMER, Joseph, C.REZVANI, BehzadWEY, Anni, S.KRAMER, James, D.
    • G01N27/407G08C19/00F23N5/00F23N1/00F23N3/00
    • F23N5/006
    • An in situ flue gas analyzer (10) includes a probe (12) extendable into a flue. The probe (12) has a measurement cell providing a signal responsive to a concentration of a gas within the flue. A controller (52) is coupled to the probe (12) and configured to provide an output based on the signal from the measurement cell. A first media access unit (54) is coupled to the controller (52) and is operably coupleable to a first process communication link. The first media access unit (54) is configured to communicate in accordance with an all- digital process communication protocol. A second media access unit (56) is coupled to the controller (52) and is operably coupleable to a second process communication link. The second media access (56) unit is configured to communicate in accordance with a second process communication protocol that is different than the all-digital process communication protocol. The first and second media access units (54, 56) are enabled simultaneously.
    • 原位烟气分析仪(10)包括可延伸到烟道中的探针(12)。 探针(12)具有提供响应于烟道内的气体浓度的信号的测量池。 控制器(52)耦合到探头(12)并且被配置为基于来自测量单元的信号提供输出。 第一媒体访问单元(54)耦合到控制器(52)并且可操作地耦合到第一进程通信链路。 第一媒体接入单元(54)被配置为根据全数字过程通信协议进行通信。 第二媒体访问单元(56)耦合到控制器(52)并且可操作地耦合到第二进程通信链路。 第二媒体接入(56)单元被配置为根据与全数字过程通信协议不同的第二进程通信协议进行通信。 第一和第二媒体访问单元(54,56)被同时启用。
    • 7. 发明申请
    • LOW-CONDUCTIVITY CONTACTING-TYPE CONDUCTIVITY MEASUREMENT
    • 低电导率接触型电导率测量
    • WO2013109816A1
    • 2013-07-25
    • PCT/US2013/022042
    • 2013-01-18
    • ROSEMOUNT ANALYTICAL, INC.
    • REZVANI, BehzadLOMIBAO, Jeffrey
    • G01N27/06
    • G01N27/06
    • A method (100) of measuring low conductivity of a liquid sample using a contacting- type conductivity sensor is provided. The method (100) includes applying a first excitation current (102) to a contacting-type conductivity sensor at a first drive frequency. A first voltage response to the first excitation current is determined (104). A second excitation current (106) is applied to the contacting-type conductivity sensor at a second drive frequency higher than the first drive frequency. A second voltage response to the second excitation current is determined (108). A conductivity output is provided based, at least in part, on the first and second voltage responses (110). A system for measuring conductivity of a liquid at or below 100 μ8/αη is also provided (10).
    • 提供了使用接触型电导率传感器测量液体样品的低电导率的方法(100)。 方法(100)包括以第一驱动频率向接触型电导率传感器施加第一激励电流(102)。 确定对第一激励电流的第一电压响应(104)。 第二激励电流(106)以高于第一驱动频率的第二驱动频率施加到接触型电导率传感器。 确定对第二激励电流的第二电压响应(108)。 至少部分地基于第一和第二电压响应(110)提供电导率输出。 还提供了一种用于测量液体的电导率的系统,该液体在等于或低于100μM/αeta(10)。