Python Power Electronics

Pleased to launch my webinar series on Python programming. This webinar series will start with the basics of Python programming and continue to certain advanced concepts such as data analysis with Pandas and visualization. The maximum limit of participants is 10 to ensure an interactive and lively session. For those who are busy and cannot commit to a 10 part webinar series, you can schedule individual sessions using this link: https://lnkd.in/g9CZp4WG With this, you will have the flexibility to learn at your pace and at the depth that you would like. This webinar series is only the beginning of my attempts at making online learning effective and helping engineers prepare both for their jobs and for studies/projects/thesis. With time, I hope to add advanced webinars on power electronics, signal processing, control systems and hardware design. Feel free to contact for more information and stay tuned for more updates. https://lnkd.in/grNajJwZ

In case you missed the recent sales on Udemy, I have created the following discount coupons. The coupons will be valid for five days. Control Analysis with Python for Grid Connected Converters https://lnkd.in/gFp98Wpj Simulating Power Electronic Circuits using Python https://lnkd.in/gkSibyPj Switching strategies for power electronic converters https://lnkd.in/gKVEa4q4 Basics of Digital Signal Processing for Power Engineers https://lnkd.in/g32eKUEG Simulation of Magnetics for Power Electronics using Python https://lnkd.in/gsmf5-86

Springer will be translating my books to German using AI. If you are a native German speaker and would prefer to read books in German, the books should be available by the end of the year.

One of the major drawbacks of my courses is the fact that I use the Python Power Electronics circuit simulator, which almost no one uses. For a lot of engineers, having to learn something on a simulation platform that is not used, makes the learning of little value. Over the next couple of months, I will be re-creating my online courses using QSPICE. QSPICE has been in the limelight for being a trending software with many on LinkedIn posting their simulation results. And the best part is that QSPICE is free to use. Stay tuned for more updates.

Until now, my approach to making education accessible in the field of power electronics has mainly been through online courses and books. Writing a book can take anywhere between 3 and 6 months depending on the contents, and once the book is done, creating an online course on the same topic can take 1 to 2 months. To accelerate the process, I have been considering recruiting researchers. However, their stipend will need to be paid from the revenue generated from book royalties and course enrollment. Unfortunately, these two have been limited sources of revenue. To recruit researchers on a regular basis, I am considering starting paid online sessions for teaching power electronics and also programming related to it such as simulation, microcontroller programming etc. These paid sessions will enable me to recruit researchers on a regular basis and write more books and create more courses. In the next few weeks, I will set up this platform and announce it here on this page. If you have benefitted from this project, please do consider either registering for these sessions or recommending them to your colleagues.

As a chess enthusiast myself, I too can vouch for the importance of learning chess.

In case you missed the recent sales on Udemy, the following discount coupons are active until the end of the month: Simulating Power Electronic Circuits using Python https://lnkd.in/g9w5wQrS Switching strategies for power electronic converters https://lnkd.in/gsJfiYvu Basics of Digital Signal Processing for Power Engineers https://lnkd.in/g965c8gC Control Analysis with Python for Grid Connected Converters https://lnkd.in/ggaFFxbY Simulation of Magnetics for Power Electronics using Python https://lnkd.in/g8wqnjZw

This poll is primarily for those whose first language is not English. One of the best aspects of teaching online on Udemy is being able to reach out to engineers all over the world. Udemy has auto captioning (subtitles) and also translates the subtitles into other languages. However, for many students, reading subtitles takes away the joy of watching instructional videos, as then one might as well just read text books. With the latest advances in AI based translation, particularly some of the promo videos related to Chat GPT, audio translation might be something that could become practical and implementable. From my analysis of student backgrounds, besides English, Spanish, Arabic and Portuguese form the three biggest language groups. It would be wonderful if students could watch videos with audio in their own languages. If anyone uses any translation apps, please feel free to comment.

Check out this article in case you find yourself stagnating and are wondering how to break free.

Small signal stability of a power converter determines its behavior during and after a disturbance. This analysis is critical in most cases, as any power electronics engineer needs to verify that the power converter returns to a suitable equilibrium point following a disturbance and within an acceptable time interval. In my next book on mathematical analysis for power electronics, I use Lyapunov's stability criteria in combination with linear algebra to determine the transient behavior of a converter, and using simulations can show that the theoretical results are accurate.