Blogs

Compensating Cables for Accurate Impedance Measurements

19.01.2021

Measuring impedance accurately can be a challenge, especially when the device or material under test is located some distance away from the impedance analyzer at the end of cables. The phase delay and parasitic impedance of the cables can significantly reduce the accuracy of a measurement. This blog post seeks...

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5 Tips to Improve Your Impedance Measurements

02.04.2020

Impedance applications often have different requirements, but the common goals are similar; get the best possible accuracy, precision, and repeatability. This blog post will guide you to the best measurement settings to improve your impedance measurements. It will help you to get the best data and save your valuable time...

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Electrochemical Impedance Spectroscopy of Tap Water

06.01.2020

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 (batteries, supercapacitors and fuel cells), dielectric coatings, as well as microfluidic chips...

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Measuring Low ESL and Low ESR of a DC-Link Capacitor

10.06.2019

This blog post describes how the MFIA (and the MFLI with the MF-IA option) can characterize the equivalent series inductance (ESL) and equivalent series resistance (ESR) of a DC-Link capacitor typically used in power inverters for electric vehicles.

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Gated Data Transfer for Increased Data Sampling Rate

19.12.2018

Introduction For measurements of signals that change rapidly, for example, when measuring capacitance transients in deep level transient spectroscopy (DLTS), high temporal resolution is required. In its standard operating configuration, the MFIA (or the MFLI with the MF-IA option) can sample and transfer impedance data at a continuous rate of...

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Square pulses for DLTS Measurements on the MFIA

22.08.2018

Introduction This blog post shows how to produce square voltage pulses and capture the resulting capacitance transients on a short timescale (20 us), for example, for deep level transient spectroscopy (DLTS) measurements. Using the LabOne ® Threshold Unit (which comes as a standard with the MFIA), it's possible to produce...

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Kramers–Kronig Test Applied to Impedance Measurements of Electrical Circuits

25.09.2017

Introduction In this post, the Kramers-Kronig relations are used to verify the results of an impedance measurement experiment performed with the Zurich Instruments MFIA Impedance Analyzer or the MFLI Lock-in Amplifier equipped with the MF-IA option. The Kramers-Kronig relations state that the real part of the impedance can be obtained...

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The Nyquist Diagram for Electrical Circuits

11.01.2017

The Nyquist diagram of a transfer function is a parametric plot of its imaginary part versus real part as the frequency sweeps in a certain range. When dealing with electric circuits, the transfer function is the immittance of the circuit, i.e., it can be either the impedance or the admittance of the circuit...

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