Products being used within their end-product application can suffer systematic or random failures. Functional safety standards are designed to help influence the reduction of potential risks of ...

Functional safety engineers follow the ISA/IEC 61511 standard and perform calculations based on random hardware failures. These result in very low failure probabilities, which are then combined with ...

Members can download this article in PDF format. Intelligent robotic systems are bringing great gains in productivity to the factory floor. However, they also present collision hazards that could ...

Functional safety issues have long been an important part of product development wherever machine operations that are potentially dangerous for humans are carried out unattended. However, in terms of ...

Developing functional safety systems, including all the components such as the system-on-chip (SoC) and IP, hinges on the ability to meet the stringent automotive functional safety requirements such ...

To a machine designer, “stay safe” is not just a cheerful slogan or wishful thinking. Operator safety is a central design issue. The international standard, ISO 12100:2010 Safety of machinery – ...

Based on the foundational IEC 61508 standard’s essential requirements, high-performance supervisory circuits can facilitate functional-safety compliance in safety instrumented systems and other ...

Functional safety is about ensuring that products operate safely and do so even when they go wrong. Here’s why you can’t choose to ignore it. The automotive industry has entered a period of rapid ...

Functional safety standards are designed to help influence the reduction of potential risks of physical injury to people and property damage due to product failures within the end product application ...

In vehicles equipped with Advanced Driver Assistance Systems (ADAS) or in Autonomous Driving (AD) vehicles, the human driver relies on electrical/electronic systems for control of the vehicle. The ...