As we look at the school year ahead, there are myriad challenges both K-12 and university campuses face when designing systems to protect the students, administrators, educators and general public who ...

Reliability and safety are two inter-relatable terms that define the overall effectiveness of any working system ― be it an electrical system, mechanical system, or a combination of both. The concept ...

Next-generation detection technology and human-first design are turning safety into a performance advantage, giving operators greater confidence and improving workflow efficiency. It may sound like an ...

Combustion equipment safety is essential for the daily operation of facilities and safety of plant personnel. Safety protocols and mechanisms in industrial plants have improved drastically in the last ...

The ISA-84 series of standards and technical reports provide detailed guidance for every phase of the safety instrumented system (SIS) lifecycle, to make sure systems are designed, verified and ...

During the design process, failure modes and effects analysis (FMEA) is typically used to assess how equipment and machinery might fail. Recent functional safety design legislation in the EU has ...

Accelerating adoption of artificial intelligence (AI) and machine learning (ML) technologies in increasingly autonomous systems is driving requirements for smarter safety systems across a variety of ...

Part 3 is the last part in this article series discussing how Analog Devices’ safety application notes provide critical information needed for technical safety analysis by system integrators designing ...

Production-grade Rust is here and it looks to meet the requirement of safety-critical industries. While Rust’s memory-safety guarantees are compelling, certification demands far more than safe code.

Treating compressed air as a design element is the key to unlocking the next generation of manufacturing innovation.