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27.9 A 200kS/s 13.5b integrated-fluxgate differential-magnetic-to-digital converter with an oversampling compensation loop for contactless current sensing

机译：27.9 A 200K / S 13.5B集成的浮雕差分 - 磁力 - 数字转换器，具有过采样补偿环路，用于非接触式电流检测

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High voltage applications such as electric motor controllers, solar panel power inverters, electric vehicle battery chargers, uninterrupted and switching mode power supplies benefit from the galvanic isolation of contactless current sensors (CCS) [1]. These include magnetic sensors that sense the magnetic field emanating from a current-carrying conductor. The offset and resolution of Hall-effect sensors is in the μT-level [1-3], in contrast to the μT-level accuracy of integrated-fluxgate (IFG) magnetometers [4]. Previously reported sampled-data closed-loop IFG readouts have limited BWs as their sampling frequencies (4) are limited to be less than or equal to the IFG excitation frequency, f [5-7]. This paper describes a differential closed-loop IFG CCS with f>f. The differential architecture rejects magnetic stray fields and achieves 750x larger BW than the prior closed-loop IFG readouts [6-7] with 10×better offset than the Hall-effect sensors [1-3].

机译：高压应用，如电动机控制器，太阳能电池逆变器，电动车电池充电器，不间断和开关模式电源的电力电机电源电池电源，可从非接触式电流传感器（CCS）的电流隔离中受益于非接触式电流传感器（CCS）[1]。这些包括感测从承载电流导体发出的磁场的磁传感器。霍尔效应传感器的偏移和分辨率在μT级[1-3]中，与集成浮雕（IFG）磁力计的μT级精度相比，μT级精度[4]。以前报告的采样数据闭环IFG读数具有限制BWS，因为它们的采样频率（4）限制为小于或等于IFG激励频率f [5-7]。本文介绍了具有F> F的差分闭环IFG CCS。差分架构拒绝磁场区域，并比现有的闭环IFG读出750x较大的BW，而是比霍尔效应传感器更好地偏移10×更好的偏移量[1-3]。

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《IEEE International Solid- State Circuits Conference》|2015年||共3页
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Kashmiri Mahdi; Kindt Wilko; Witte Frerik; Kearey Robin; Carbonell Daniel;
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中图分类半导体集成电路（固体电路）;
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机译：输入-输出-输出并联的模块化高频隔离式AC-AC转换器，具有内部电流环路的正补偿
2. Low cost inductor current sensing for power converters using feedback compensation [J] . Tsang KM, Chan WL Sensors and Actuators, A. Physical . 2009,第1期

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3. Self-Oscillating Resonant Converter With Contactless Power Transfer and Integrated Current Sensing Transformer [J] . Ligang Xu, Qianhong Chen, Xiaoyong Ren, IEEE Transactions on Power Electronics . 2017,第6期

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4. 27.9 A 200kS/s 13.5b integrated-fluxgate differential-magnetic-to-digital converter with an oversampling compensation loop for contactless current sensing [C] . Kashmiri Mahdi, Kindt Wilko, Witte Frerik, IEEE International Solid- State Circuits Conference . 2015

机译：27.9一个200kS / s 13.5b集成磁通门差分磁数字转换器，具有过采样补偿环路，用于非接触式电流检测
5. Investigation on Magnetoresistors as Contactless Current Sensors for High Frequency Power Electronic Converters. [D] . Nibir, Shahriar Jalal. 2017

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6. Fiber Loop Ringdown — a Time-Domain Sensing Technique for Multi-Function Fiber Optic Sensor Platforms: Current Status and Design Perspectives [O] . Chuji Wang 2009

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7. Low cost inductor current sensing for power converters using feedback compensation [O] . Tsang KM, Chan WL 2009

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27.9 A 200kS/s 13.5b integrated-fluxgate differential-magnetic-to-digital converter with an oversampling compensation loop for contactless current sensing

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