📌 Join us at the 33rd International Symposium on Industrial Electronics (IEEE ISIE 2024), June 18–21, at UECO, Ulsan, South Korea 📢 We are pleased to announce that the third tutorial "Empowering e-Mobility: Wireless Charging Strategies, Coil Design, and Advanced Power Converters" will be presented by Prof. Sheldon Williamson, Professor and Canada Research Chair, Ontario Tech University, Oshawa, Canada 👨🏫 The topic of wireless charging strategies, coil design, and advanced power converters holds immense significance within the IEEE Industrial Electronics Society (IES) community due to its pivotal role in advancing the field of industrial electronics, particularly in the context of electric mobility. As the world shifts towards sustainable transportation solutions, the demand for efficient and user-friendly charging infrastructure for electric vehicles (EVs) has become increasingly urgent. Wireless charging technology presents a promising technology for meeting this demand, offering convenience, flexibility, and enhanced user experience while minimizing the need for physical connections. By delving into the intricacies of wireless charging systems tailored specifically for e-mobility applications, this tutorial addresses a critical need within the IES community to stay at the forefront of technological advancements driving industrial innovation. Through comprehensive discussions on charging strategies, coil design, and advanced power converters, participants will gain invaluable insights and practical skills essential for designing, optimizing, and deploying wireless charging solutions in industrial settings. Furthermore, the tutorial will facilitate knowledge exchange and collaboration among researchers, engineers, practitioners, and decision- makers, fostering a vibrant ecosystem of innovation and driving the development of sustainable transportation infrastructure worldwide. Overall, this tutorial promises to empower participants with the knowledge, skills, and insights needed to drive innovation and progress in the field of industrial electronics, particularly in the domain of electric mobility and wireless charging infrastructure. By fostering collaboration and knowledge exchange within the IES community, this tutorial aims to catalyze advancements that will shape the future of sustainable transportation worldwide. 🏡 More information at ISIE 2024 homepage: https://lnkd.in/gTyBidfX ISIE - IEEE International Symposium on Industrial Electronics IEEE Industrial Electronics Society (IES) #isie2024 #ieee #ies #industrial_electronics #tutorials #electric_vehicles #ulsan
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📌 Join us at the 33rd International Symposium on Industrial Electronics (IEEE ISIE 2024), June 18–21, at UECO, Ulsan, South Korea 📢 We are pleased to announce that the second tutorial "Advanced Methods for Condition Monitoring of Electric Motors Based on Transient Analysis" will be presented by Prof. Jose Antonino-Daviu, Universitat Politecnica de Valencia, Spain 👨🏫 Due to the importance of electric motors maintenance in the industry, many researchers both in academia and industry are investigating on new techniques that can enhance the detectability of failures in these machines. In different technical committees of IEEE IES (including EMC or PE), many researchers are involved in this area, having published valuable related contributions in IEEE IES journals. This tutorial will provide insights about the state of the art in the area and introduce the most recent methods relying on the analysis of electrical quantities under transient regimes. These methods have proven to bring important advantages versus classical approaches nowadays used in industry and have drawn the attention of many researchers in the IES Society and IEEE in general. The learning outcomes of the tutorial are: 🎯 Comprehension of the most common faults in induction motors 🎯 Limits of the standards 🎯 Knowledge of the main available technique for condition monitoring 🎯 Understanding of the foundations and main advantages of current and stray-flux analysis 🎯 Comprehension of the classical methods based on the analysis of electrical quantities 🎯 Understanding of the disadvantages of the classical methods 🎯 Comprehension of the operation of recent transient-based tools 🎯 Knowledge of available tools for transient analysis 🎯 Knowledge of new smart sensors based on merging the information of electrical quantities 🏡 More information at ISIE 2024 homepage: https://lnkd.in/gTyBidfX #isie2024 #ieee #ies #industrial_electronics #tutorials #electric_motor #ulsan
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IEEE Education Week - 14-20 April 2024 Here's a quote Dr. Jennifer Bauman, member of the IEEE Transportation Electrification Council, during the IEEE Education Week celebrations! "Sustainable transportation systems are a key enabler to achieving a clean and green future. While much progress has been made, there are still many challenges to overcome relating to hybrid electric vehicles (HEVs), electric vehicles (EVs), and fuel cell hybrid electric vehicles (FCHEVs). Some urgent issues that need further research and development include: the limited range of EVs and FCHEVs, the impact on the grid of EV charging (especially fast charging), hydrogen fueling infrastructure for FCHEVs, improving the energy efficiency of HEVs, resource limitations for critical minerals related to batteries, and developing low-cost and high-efficiency power electronics. Be a part of the IEEE and help work on these important issues!" IEEE Education Week is a weeklong celebration of educational opportunities provided by IEEE and its many organizational units, societies, and councils from around the world. #IEEE #IEEEWIE #STEM
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Thrilled to share with our community the latest milestone in our journey—the publication of our research on a groundbreaking DC/DC interleaved boost converter in the esteemed IEEE Transactions on Power Electronics. This novel approach employs a reinforcement learning-based linear quadratic regulator, distinguished by its high energy efficiency, model-free control, and the unique advantage of enabling online optimal control gain updates without the need for offline pre-training. Our method stands out for its ability to adapt in real-time to changes, ensuring robust performance across various operational conditions. This flexibility is particularly beneficial in industrial applications where parameters can vary, demonstrating superior performance compared to traditional model-based controls. We invite our peers, industry professionals, and anyone intrigued by advancements in power electronics and control systems to delve into our work. Your insights, feedback, and potential collaborations could pave the way for new innovations and applications. Check out the paper here: 10.1109/TPEL.2024.3366543 I would also like to extend my gratitude to the entire PACE team from UWA and the funding body—Future Battery Industries Cooperative Research Centre. Let's continue pushing the boundaries of what's possible in power electronics together. Here's to many more breakthroughs and shared successes! #PowerElectronics #IEEE #Innovation #Research #EngineeringCommunity
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🎉 My research paper titled "Overvoltage and Undervoltage Protection of Load using GSM Modem SMS Alert" has been officially published in IEEE! 📊🔒 I am thrilled to share the culmination of months of hard work and dedication in the field of Electrical and Electronics Engineering. This paper explores innovative solutions for overvoltage and undervoltage protection of loads, with a focus on leveraging GSM modem SMS alerts for efficient monitoring. 🔍 Key Highlights: Title: Overvoltage and Undervoltage Protection of Load using GSM Modem SMS Alert Publisher: IEEE Published in: 2nd IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES) The integration of GSM modem technology enhances real-time monitoring capabilities, providing a reliable mechanism for immediate alerts and proactive measures. I extend my gratitude to my co-authors, mentors, and everyone who contributed to the success of this research endeavor. This achievement wouldn't have been possible without your support. For those interested in delving into the details, you can access the full paper on the IEEE platform. The full paper can be accessed here: https://lnkd.in/gM3PyyPt #Research #IEEE #ElectricalEngineering #PublishedPaper #GSMModem #SMSAlert #Innovation #Engineering #Collaboration
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What a unique Christmas gift this year, my first Journal paper published in the January 2024 issue of IEEE Trans. on Power Electronics 🎄✨ https://lnkd.in/g8SyNbgn This paper tackles the question: Can your electric vehicle charge your home? 🚗⚡Yes, thanks to bidirectional EV chargers 🚀 But are these already inside our cars, or what's holding up their development? Find out in this paper! Besides providing all the background you need to know about the topic, I analysed all the cutting-edge bidirectional onboard chargers that exist, based on >500 publications. ➡️ This identifies the key trends, challenges, and research opportunities that will influence next-generation of electric vehicle chargers: ⚡ The rise of high-voltage batteries 🧩 The trend of powertrain integration 🔬 The growing adoption of wide-bandgap semiconductors 🧲 The use of integrated planar magnetic components ... Check it out on https://lnkd.in/g8SyNbgn Wilmar Martinez #PhD #IEEE #TPEL #evcharging KU Leuven Faculty of Engineering Technology - Diepenbeek Campus #merrychristmas
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📌 Join us at the 33rd International Symposium on Industrial Electronics (IEEE ISIE 2024), June 18–21, at UECO, Ulsan, South Korea 📢 We are pleased to announce that the first tutorial "Electromagnetic Compatibility of Switched-Mode Power Supplies" will be presented by Prof. Dr.-Ing. Günter Keller, Faculty of Electrical Engineering and Media Technology, Deggendorf Institute of Technology, Germany 👨🏫 The topic is relevant for the industrial IES community because the legal regulations. Industrial electronics have to fulfill the standards on one the hand side and on the other hand nearly every electronic device is supplied by a power supply. Power supplies nowadays work with switching semiconductors. The switching transient and the related waveforms cause a high frequency content and the excitation of parasitic resonant circuits of active and passive components and PCB structures. Therefore power converters are sources of electromagnetic noise. Against the background of the emission limits of the standards the developing process of a switched-mode power supply has to consider the emission characteristics of the circuit. For a better understanding of a low-noise design the following prerequisites are necessary. The attendees will have an overview of the following topics: 👉 Standard overview 👉 Limits of the standards 👉 Set-up for measuring emissions and their parameters 👉 Coupling mechanisms 👉 Difference between common-mode and differential-mode 👉 Origins of electromagnetic noise in switched-mode power supplies 🏡 More information at ISIE 2024 homepage: https://lnkd.in/gTyBidfX #isie2024 #ieee #ies #industrial_electronics #tutorials #electromagnetic_compatibility #ulsan
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🚗 Reminder to All Colleagues and Fans of Electrical Engineering! ⚡ I would like to remind everyone about the upcoming Special Session SS-EMCPE-I: "EMC for Power Electronic Systems in Electrified Transportation Systems," taking place on 04 September at the EMC Europe 2024 - International Symposium on Electromagnetic Compatibility in Bruges, Belgium. This session will provide a comprehensive overview of the Electromagnetic Compatibility (EMC) and Electromagnetic Interference (EMI) challenges caused by power electronics devices in electrified transportation systems, specifically focusing on the low-frequency range. It is an excellent opportunity for researchers and industry professionals to come together and explore potential collaborations in this crucial area. We'll delve into topics such as the development of in-situ detection mechanisms for common-mode choke saturation, S-parameters characterization for EMI filters, and Thevenin black box modeling for DC/AC converters in aerospace applications. Additionally, presentations will cover the sensitivity of traction current distribution models in rail networks, techniques for reducing common-mode radiation in electrical drive systems with multi-level topology inverters. We'll also compare electromagnetic parameters of nanocrystalline cores and study propagation path analysis methods for radiated emissions from EV high voltage systems. We'll hear from experts across academia and industry, including representatives from: - University of Twente - ONERA - The French Aerospace Lab - Ukrainian State University of Science and Technologies - Helmut-Schmidt-University - Hyundai Motor Group - Chungnam National University This is a must-attend session for anyone interested in the latest advancements and challenges in EMC for electrified transportation! For more details, including the session timing, please refer to the technical program of the conference: https://lnkd.in/eTEEWv6T. If you have any questions, feel free to reach out to the session chairs: Ivan Struzhko and Erjon Ballukja. Looking forward to engaging discussions and potential collaborations. #EMCEurope2024 #ElectromagneticCompatibility #PowerElectronics #ElectrifiedTransportation #EMI #Collaboration #Research #Industry #Innovation #ETUT #UniversityofTwente #EMC #MSCA #Horizon2020 #ElectricalEngineering #Sustainability #Research #Energy #Collaboration #Symposium #together #EMC_Europe_2024 #EMC_EU_24 #Bruges #Belgium MSCA ITN EJD ETUT University of Twente European Research Executive Agency (REA) European Commission
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🌍 Navigating the Future of EV Charging: Insights from Recent Challenges 🚗🔋 As an engineering student specializing in Electronics and Telecommunication. I’ve been following the advancements and challenges in the EV industry closely. A recent article from the Economic Times highlights some critical issues that need addressing in EV charging infrastructure. The article emphasizes that while EV adoption is on the rise, the charging ecosystem faces deeper, more complex problems than we might realize. From inadequate charging infrastructure to inefficiencies in current technology, these issues highlight the need for innovative solutions. In my journey through engineering, I’m keenly aware of the role that emerging technologies and sustainable practices will play in overcoming these challenges. As we work towards a greener future, it’s crucial for professionals and innovators to address these deep-rooted issues. I’m excited about the potential to contribute to this evolving field and explore how we can enhance EV infrastructure and support the transition to electric mobility. Let’s connect and discuss how we can drive these changes forward! #EVCharging #Sustainability #Engineering #Electronics #Telecommunication #Innovation #FutureTech
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🚀 Proud to Announce! 🚀 Our latest research paper, "Artwork Transport Tracking: Empowering Reliability Through Smart Packaging," has been published and is now accessible on the IEEE website! This study focuses on enhancing the safety and reliability of transporting valuable artworks. By employing smart packaging equipped with self-powered sensors, we can continuously monitor crucial environmental parameters, track GPS positions, and detect shocks and vibrations. Our hybrid energy harvesting approach ensures that the sensors remain powered through kinetic and solar energy, providing a sustainable solution for real-time tracking and monitoring. Special thanks to my professor Carlo Trigona, and my co-authors: Giuliano A. Salerno, Anna Maria Gueli, and Giuseppe Politi. It's been an incredible journey collaborating with such a dedicated team. The full paper is available on IEEE Xplore: [https://lnkd.in/deAcdFfd] #Research #ArtConservation #SmartPackaging #EnergyHarvesting #IEEE #Engineering #Electronics #PiezoElectric #GPSTracking #ElectricalEngineering #ElectronicEngineering #EnergyConversion
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Registration (free of charge) form: https://lnkd.in/dt2abzQt CNR-IEIIT "Thursday seminars" Tuesday 6 June 2024 at 17:30 (CET, UTC +1) the on-line seminar will take place which will have Dr.-Ing. Antonio Molfese (STMicroelectronics) as speaker with the following contribution: Speaker: Dr.-Ing. Antonio Molfese (STMicroelectronics) Title: Advancing Innovation through Smart Power Technology R&D Abstract: The realm of Smart Power technologies stands at the forefront of modern electrical engineering, merging the prowess of power electronics with intelligent control systems. In this field, Bipolar-CMOS-DMOS (BCD) integration stands out as a cornerstone of innovation, blending the strengths of three distinct fabrication processes to create versatile and efficient power management devices. Research and Development (R&D) in BCD technology is pivotal to addressing the ever-increasing demand for smarter, smaller, and more energy-efficient electronic components. The continuous push for innovation in Smart Power technology involves enhancing performance parameters such as power density, thermal management, and reliability. R&D teams work tirelessly to refine process technologies, develop new materials, and create design methodologies that lead to breakthroughs in device architecture. Such innovations not only improve existing products but also unlock new market opportunities and applications. Moreover, Smart Power technology R&D is instrumental in meeting the challenges of sustainable development. By enabling more efficient power conversion and reducing energy wastage, BCD devices contribute to a greener electronics industry. The integration of Smart Power technology into renewable energy solutions exemplifies the commitment to environmental stewardship within the semiconductor sector. In conclusion, Smart Power technology R&D is a driving force behind the evolution of the semiconductor industry, fostering innovation that leads to high-performance, cost-effective, and environmentally conscious electronic solutions. #SMART #Power #RandD #CNR #Technology #Innovation #BCD #CMOS
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Adhoc Faculty@NIT- Andhra Pradesh|Researcher in Wireless Charging, Electric Vehicles and Power Electronics
6moAmazing!