Renesas Electronics Collaborates with Xilinx on Versal ACAP Reference Designs
High-Performance Timing and Power Solutions Support Versal ACAP Devices for Cloud, Network and Edge Applications
High-Performance Timing and Power Solutions Support Versal ACAP Devices for Cloud, Network and Edge Applications
Featuring Ferrite Core Technology, This Through-Hole Device Provides Low DCR to Reduce Power Losses and Increase Efficiency
Mouser Electronics, Inc., the New Product Introduction (NPI) leader empowering innovation, announces a new eBook…
Global authorized distributor Mouser Electronics, Inc. presents a new USB Type-C charging hub reference design…
For Bidirectional Switching in 24 V Systems, Device Features Best in Class RS-S(ON) Down to 10 mΩ Typical and Industry-Low RS-S(ON) per Area
Robust and Cost Efficient Tilt Monitoring POSITAL TILTIX inclinometers are now available with a new…
Light Guide Rods More and more cars today are equipped with light guide rods in…
The Weld-Immune range of inductive sensors now includes ceramic-coated types. In addition to mechanical shock…
Intelligent solutions: modern code readers identify the part type – laser scanners and light barriers…
Safety regulations have been in place for decades in the power industry and as we know only too well, have been through lots of revisions. And although each revision has made them more stringent and tailored to our businesses, frustratingly we have become familiar with designing products to conform to latest versions. So why do safety authorities change things that have been in place for so many years?
This is a question we hear so many times from power designers and without knowing the history and background it would be difficult to understand the motivation for IEC/EN 62368-1. Indeed, the transition from a well-established 1952 standard to something fundamentally different requires some explanation, which this article is about.