Overview of ISO 13849
ISO 13849 is an international standard that focuses on the safety of machinery and ensures that safety-related control systems are designed, implemented, and maintained effectively. It provides guidelines for the design and integration of control systems that help protect people from harm when interacting with machinery.
Overview of ISO 13849
DO-178 is a vital standard in ensuring the safety and reliability of software used in aviation systems. By following its structured processes, developers can reduce risks and create software that meets the strict safety standards necessary for certification. Understanding why DO-178 is needed, what it entails, and how to apply it helps ensure that software used in airborne systems is safe, reliable, and ready for certification.
Overview of Railway Standards EN 50126, EN 50128, and EN 50129
In the railway industry, safety, reliability, and efficiency are non-negotiable. To achieve these goals, various international standards have been developed, and among the most important are EN 50126, EN 50128, and EN 50129. These European standards provide the necessary frameworks for managing risks, ensuring safety, and guaranteeing the performance of railway systems.
overview-of-robotics-standard
Robots are transforming industries, with applications in manufacturing, logistics, healthcare, and beyond. As robots increasingly operate alongside humans, ensuring their safety, reliability, and interoperability becomes critical. Robotics standards offer a structured approach to achieve these objectives. This blog will explore robotics standards through the lens of why they matter, what they cover, and how they are implemented.
Functional Safety in Battery Chemistries
What Is Functional Safety in Battery Chemistries?
Functional safety refers to the ability of a battery system to maintain safe operation even when certain failures or faults occur. In simple terms, it’s about designing batteries and their management systems to automatically take corrective actions or shut down safely when something goes wrong.
Functional safety refers to the ability of a battery system to maintain safe operation even when certain failures or faults occur. In simple terms, it’s about designing batteries and their management systems to automatically take corrective actions or shut down safely when something goes wrong.
FMEA: A Guide to Enhancing Reliability and Safety
Overview of IEC 61508
IEC 61508 is an international standard for the functional safety of electrical, electronic, and programmable electronic systems. It provides guidelines for designing, implementing, and maintaining safety systems that protect people, property, and the environment from hazards caused by system failures.
Overview of ISO 26262
ISO 26262 is an international standard for the functional safety of electrical, electronic, and programmable electronic systems in road vehicles. It provides a structured approach to ensuring the safety of automotive systems, from the design phase through to decommissioning, by addressing the risks that arise from potential system failures. This standard is particularly important for systems that affect the vehicle’s safety, such as braking, steering, and collision avoidance systems.
Overview of Medical standard
Several international standards govern the safety, performance, and lifecycle of medical devices. Here are the most significant ones:
a) IEC 60601 – Safety of Medical Electrical Equipment
This is the primary standard for medical electrical devices, covering aspects like electrical safety, electromagnetic compatibility (EMC), and essential performance.
It ensures that devices are safe for both patients and operators by defining limits for electrical currents, leakage, and environmental factors.
a) IEC 60601 – Safety of Medical Electrical Equipment
This is the primary standard for medical electrical devices, covering aspects like electrical safety, electromagnetic compatibility (EMC), and essential performance.
It ensures that devices are safe for both patients and operators by defining limits for electrical currents, leakage, and environmental factors.
functional safety in energy storage system
What is Functional Safety in Energy Storage Systems?
Functional safety in Energy Storage Systems is a structured approach that ensures the system operates safely in both normal and abnormal conditions. It is achieved through the design, integration, and operation of safety features that prevent accidents, mitigate risks, and respond to system faults effectively.
Functional safety in Energy Storage Systems is a structured approach that ensures the system operates safely in both normal and abnormal conditions. It is achieved through the design, integration, and operation of safety features that prevent accidents, mitigate risks, and respond to system faults effectively.
Predictive Analytics in BMS thermal runaways
What Is Predictive Analytics in BMS?
Predictive analytics in BMS involves using advanced algorithms to analyze battery data and forecast potential failures. This approach leverages real-time monitoring and machine learning to identify patterns and predict conditions that could lead to thermal runaway.
Predictive analytics in BMS involves using advanced algorithms to analyze battery data and forecast potential failures. This approach leverages real-time monitoring and machine learning to identify patterns and predict conditions that could lead to thermal runaway.
Overview of DO 254
Modern aircraft rely heavily on electronic systems to ensure safe and efficient operations. The RTCA DO-254 standard, also known as “Design Assurance Guidance for Airborne Electronic Hardware,” provides a framework for certifying the safety and reliability of complex electronic hardware in avionics. This blog explores DO-254 in a structured format.