b'Partner News Summer 2022 13Academicto 200 kHz. The DPT is a purely electrical method to measure the losses within a power device, and utilising DPT allows the computation of the on-state conduction loss and switching losses from both voltage and current to be analysed separately by measuring the waveforms from an oscilloscope.The calorimetric method will measure the loss of the device. This method involves enclosing the device within a thermal chamber, so the losses of the entire system can be calculatedthe temperature will vary from the ambient to 150C. Currently, the students have finished the simulation and started the practical testing. The next phase is to prepare the formal report and the symposium poster, which will be in May 2022. A sample of the results isFigure 1: The team and DPT circuit shown in the group picture, as illustrated in the Oscilloscope. This project will lead to a series of future projects which will cover other areas such as biomedical and aerospace. The engagement of the students through this project and the skills gained are in line with the Driving Electric Revolution UK funds who are pushing for more talented and well-prepared graduates to go into the Power Electronics, Machines and Drives market.University of SheffieldThe aim is to contribute to our graduatesUniversity of Sheffield will tackle these tasks knowledge and bring awareness to ourunder the supervision of Dr Masoud, and final year students about some recentwill receive external support and technical advancements in the power electronicsguidance from Dr Issa.Students will conduct testing on some power switches in the switches that consider the knowledgemarket to compare the Si MOSFET, Si IGBT, and SiC MOSFETsrequirement by some industry recruiters likeThe manufacturer models for the MOSFET Dynex, Nexperia and MaxPower.will be simulated using LTspice and MATLAB/SIMULINK. Experimental tests will be The initiative includes activities for selectedconducted under different conditions of students to conduct testing on somevoltage, current and temperature to help power switches in the market to comparethe students recognise and identify the the Si MOSFET, Si IGBT, and SiC MOSFETs,advantages of each one. using simulation and experimentation methods to determine the individual deviceDouble pulse testing (DPT) compares device characteristics. Three students from theswitching loss for a frequency range up'