Regarding power conversion, the needs for high power converters catered to particular uses are always changing. The RECOM team explores this ever-changing environment and provides a wealth of perceptive blog entries addressing many facets of power conversion. From enlightening case studies to educational “quick guides” covering key issues, the material offered clarifies the subtleties of power conversion.
The blog stands out for its message straight from RECOM owner Karsten Bier, which offers his thoughts on the effects of the COVID-19 epidemic and how RECOM is helping medical equipment manufacturers get through these difficult circumstances. These blogs provide not only insightful material but also a window into RECOM’s proactive approach to meet sector demands.
The blog advises readers looking for in-depth technical knowledge to review white papers, technical reports, FAQs, Steve Roberts’ “AC/DC Book of Knowledge,” and “DC/DC Book of Knowledge”. For both experts and fans, these materials provide a thorough guide to help them to grasp power conversion technologies and trends.
Presenting DCDC Module for Improved Efficiency of Power System
Advances in material science are absolutely essential in the search for better performance and higher efficiency in power supplies. The incorporation of creative materials into the design of power sources creates fresh opportunities to improve efficiency in several sectors. Using innovative material science developments will help power supply designers meet the growing needs of contemporary power systems by reaching higher performance levels.
Moreover, the development of artificial intelligence (AI) has transformed PCB designing and opened the path for AI-assisted design methods. Using artificial intelligence, platforms like the CELUS Design Platform simplify PCB design processes and provide engineers and developers with a flawless and quick design experience. In the field of power supply design, designers can release fresh possibilities and hasten the rate of innovation by adopting artificial intelligence technologies.
Enabling Advanced Power Supply Designs to Empower Wireless Charging Applications
For power supply designers, the field of wireless power transfer (WPT) offers special possibilities as well as difficulties. The ability to send electrical power without physical connections marks a new era of convenience and adaptability in power supply. Customizing power supply solutions for wireless charging uses calls for a thorough awareness of the complex interactions among power conversion technologies and wireless communication protocols.
Moreover, the spread of Edge artificial intelligence brings fresh issues into power system architecture. Direct deployment of AI models on edge devices allows companies to maximize power system designs and lessen dependency on cloud computing resources. This paradigm change towards Edge AI emphasizes the need of strong and effective power supply designs to support the changing scene of artificial intelligence applications.
Revolutionizing SiC Drive Applications with Separate DC/DC Converters
Wide bandgap (WBG) technologies such silicon carbide (SiC) have changed the uses for power electronics. SiC drive applications prefer SiC transistors since they have better performance traits. Addition of isolated DC/DC converters with programmable outputs improves the adaptability and efficiency of SiC-based power systems by meeting the various needs of industrial, automotive, and inverter uses.
In essence, the dynamic development of power conversion technologies calls for constant creativity and adaptation to satisfy changing needs for particular applications. Embracing innovative ideas like the DCDC module and using material science and artificial intelligence will help power supply designers negotiate the complexity of modern power systems with confidence and efficiency, so advancing the frontiers of power conversion excellence.
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