Posts tagged Impedance measurement

Multiplexed Impedance Measurements with the MFIA

on 17.06.2020 at 13:43 by Meng on Blog of Meng Li
Introduction Having more impedance measurement channels is often desirable in many applications. For instance, in electrical impedance tomography (EIT), it is common to have many channels to achieve enough spatial resolution (144 electrodes on the thorax) [1]. Naturally, this can […]

Humidity Sensors: Resistive or Capacitive? The MFIA can tell the Answer.

on 15.06.2020 at 15:31 by Meng on Blog of Meng Li
Introduction Humidity sensors (also known as hygrometers) are commonly used in applications ranging from everyday sensing to lab research [1]. They are typically placed in an enclosed chamber, such as a car or a glovebox, where they are used to […]

5个优化您的阻抗测量的小技巧

on 11.05.2020 at 09:25 by Meng on Blog of Meng Li
阻抗测量可能有诸多不同的要求,但是最终共同的目标都一致,即获得最高的准度,精度和可重复性。本篇博文将指导您如何通过最佳的设置来提升您的阻抗测量结果。5个小技巧包括:1.确保仪器和待测器件之间的接线最佳; 2.使用用户补偿功能提升测量准度;3.选择正确的检测端子配置; 4.尽可能的使用自动输入量程模式; 5.优化平衡测量的速度和精度。

Electrochemical Impedance Spectroscopy of Tap Water with the MFIA

on 06.01.2020 at 18:09 by Meng on Blog of Meng Li
Introduction Electrochemical impedance spectroscopy (EIS) is a popular non-destructive technique to characterize the physicochemical properties of materials, particularly at the solid-liquid (or electrode-electrolyte) interface. Despite the complexity of the measured data, EIS can be used to study many electrochemical devices […]

使用MFIA阻抗分析仪测量DC-Link电容器的低串联等效电阻(ESR)和低串联等效电感(ESL)

on 17.07.2019 at 14:59 by Meng on Blog of Meng Li
直流支撑电容器(DC-link 电容器)本身和接口的ESL和ESR对绝缘栅双极晶体管(IGBT)开关模组的性能有着很大的影响。当IGBT模组关闭时,瞬时产生的电压浪涌会储存在寄生电感之中。为了降低或者消除此电压浪涌的影响,设计低ESL的直流支撑电容器至关重要。在本文中,我们将使用MFIA阻抗分析仪和专用的低ESL阻抗测试夹具来验证标称的器件参数。在1 kHz到5 MHz的测试频率范围内,最低的串联等效电感(ESL)仅为9.5 nH (742 kHz),而最低的串联等效电阻(ESR)仅为0.7 mOhm (11 kHz)。

使用MFIA阻抗分析仪表征超级电容器的串联等效电阻(ESR)

on 27.05.2019 at 14:48 by Meng on Blog of Meng Li
超级电容器(简称:超电容器)是应用广泛的储能装置,从小到SRAM,大到高铁都有应用。它的能量密度一般是传统电解质电容器的10−100倍以上。而和锂离子电池相比,虽然超级电容器的能量密度较低,但是功率密度却非常优秀。对电容器而言最主要的是以下三个参数:电容,漏电流,和串联等效电阻(ESR)。其中ESR能够反映器件自身发热。同时它还能显示器件的剩余寿命。在本文中,我们将使用MFIA阻抗分析仪,测量超级电容器在mHz到kHz频率范围段的动态ESR。使用阻抗分析对超级电容器造成的损耗较小,同时还能获取更多关于超级电容器内部工作原理的信息。与其他的阻抗分析仪相比,MFIA本身并不需要桥电路反馈,而是通过直接测量电流和电压来推导阻抗。这使得它能够轻易测量到低频率(mHz级别)的信号。ESR的最低值在46 Hz时仅0.33 mOhm。

Categories