In this thesis the effect of DC voltage bias on the equivalent series resistance (ESR) and further on the losses of capacitors is investigated. Especially losses caused by piezoelectric resonances in capacitors with ferroelectric dielectric are investigated.
In this guide Dr. Tomasz Zawada from TOOsonix explains the most important parameters of piezoceramic components and how to measure them using the Bode 100
This information note contains calibration information as well as some checks which will help to decide if it is required to send the Bode 100 to OMICRON Lab for calibration. Additionally, the calibration handling is explained.
Measuring the plant of a digitally controlled converter is not as straightforward as in the analog case. The solution however is quite simple. Set the compensator to a constant value and measure the loop. Dr. Ali Shirsavar explains the details and how to connect the Bode 100 to perform the...
In this short video, Dr. Ali Shirsavar from Biricha describes the contents of TI's Digital Power Workshop. The video details the workshop content, the equipment used in the lab and what the attendees can expect to learn.
This collection of articles shows how the high-frequency behavior of electrical machines can be used to assess and monitor the insulation condition of the machine.
This Appnote explains how the Bode 100 can be used to measure cable parameters such as the cable's dielectric constant. Further on it is demonstrated how the Bode 100 can be used to determine the position of a cable break.
Very often it is useful to know the equivalent circuit of a certain component. This application note demonstrates a simple way to get the equivalent circuit of a quartz crystal using the Bode 100.
RFI (radio frequency interference) respectively EMI (electromagnetic interference) behavior is very important in nowadays electronic devices. We show how the characteristic of a standard RFI or EMI filter can be measured using the Bode 100.