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1.发明授权Method of non-contact measuring electrical conductivity of electrolytes with using primary measuring transformer 失效使用主要测量变压器非接触式测量电解质电导率的方法公开(公告)号:US07071684B2
公开(公告)日:2006-07-04
申请号:US10898446
申请日:2004-07-23
Applicant: Volodymyr Red'ko , Volodymyr Khandetskyy , Elena Shembel , Peter Novak
Inventor: Volodymyr Red'ko , Volodymyr Khandetskyy , Elena Shembel , Peter Novak
CPC classification number: G01N27/07 , G01N27/023 , G01N27/06 , G01R27/22
Abstract: A method of noncontact measuring the electrical conductivity of electrolytes using a primary measuring transformer includes placing the electrolyte in a sampler, exciting an alternating magnetic field using an axisymmetrical eddy current sensor, switching to the sensor a capacitor of variable capacitance, tuning of the formed circuit in resonance with the frequency of the generator of harmonic oscillations, and recording the change in the introduced active resistance of the parametric eddy current sensor rated against its own inductive resistance.
Abstract translation: 使用主要测量变压器测量电解质的电导率的非接触测量方法包括将电解质放置在采样器中,使用轴对称涡流传感器激励交变磁场,将传感器切换成可变电容的电容器,形成的电路的调谐 与谐波振荡发生器的频率谐振,并记录参数涡流传感器的引入有功电阻的变化,其额定值为其自身的电感电阻。
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2.发明申请Method of non-contact measuring electrical conductivity of electrolytes with using primary measuring transformer 失效使用主要测量变压器非接触式测量电解质电导率的方法公开(公告)号:US20050156604A1
公开(公告)日:2005-07-21
申请号:US10898446
申请日:2004-07-23
Applicant: Volodymyr Red'ko , Volodymyr Khandetskyy , Elena Shembel , Peter Novak
Inventor: Volodymyr Red'ko , Volodymyr Khandetskyy , Elena Shembel , Peter Novak
CPC classification number: G01N27/07 , G01N27/023 , G01N27/06 , G01R27/22
Abstract: A method of noncontact measuring the electrical conductivity of electrolytes using a primary measuring transformer includes placing the electrolyte in a sampler, exciting an alternating magnetic field using an axisymmetrical eddy current sensor, switching to the sensor a capacitor of variable capacitance, tuning of the formed circuit in resonance with the frequency of the generator of harmonic oscillations, and recording the change in the introduced active resistance of the parametric eddy current sensor rated against its own inductive resistance.
Abstract translation: 使用主要测量变压器测量电解质的电导率的非接触测量方法包括将电解质放置在采样器中,使用轴对称涡流传感器激励交变磁场,将传感器切换成可变电容的电容器,形成的电路的调谐 与谐波振荡发生器的频率谐振,并记录参数涡流传感器的引入有功电阻的变化,其额定值为其自身的电感电阻。
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3.发明申请Method of non-contact measuring electrical conductivity of polymer electrolyte thin films with using combined sensor 审中-公开使用组合传感器测量聚合物电解质薄膜的非接触式测量电导率的方法公开(公告)号:US20050116724A1
公开(公告)日:2005-06-02
申请号:US10898397
申请日:2004-07-23
Applicant: Volodymyr Red'ko , Volodymyr Khandetskyy , Elena Shembel , Peter Novak
Inventor: Volodymyr Red'ko , Volodymyr Khandetskyy , Elena Shembel , Peter Novak
CPC classification number: G01N27/023
Abstract: A method and integrated probe for non-contact measuring electrical conductivity of polymer electrolyte films includes placing the film on a flat dielectric substrate, exciting a probing eddy-current magnetic field using an inductance coil at a series of discrete frequencies, and measuring its impedance at these frequencies while the operating end face of the coil is located on the film surface and on the substrate.
Abstract translation: 聚合物电解质膜的非接触测量导电性的方法和集成探针包括将膜放置在平坦的电介质基底上,使用一系列离散频率的电感线圈激发探测涡流磁场,并测量其在 这些频率,而线圈的操作端面位于膜表面和基板上。
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