Extended COTS rail computing platform includes onboard applications
27-04-2017 |
Artesyn Technologies
|
Subs & Systems
Artesyn Embedded Technologies has unveiled the latest in its portfolio of SIL4 COTS computing systems for rail safety applications, the ControlSafe Carborne Platform. Designed for onboard applications such as automatic train protection (ATP), automatic train operation (ATO), and positive train control (PTC), the new platform can also be used in wayside train control and rail signaling implementations. The platform leverages the same safety architecture and technologies as the company’s ControlSafe Platform and ControlSafe Expansion Box Platform, to provide a highly integrated and cost-effective solution for rail system integrators and rail application providers.
Housed in a compact 4U chassis with front access I/O and a DC power supply, the ControlSafe Carborne Platform can accommodate up to 12 I/O modules and a variety of I/O types. An innovative data lock step architecture, used in all Artesyn ControlSafe Platforms, allows customers to make seamless technology upgrades while a hardware-based voting mechanism allows for application software transparency. Designed to meet rail functional safety, reliability and availability requirements, the platform is ideal for deployment in safety application environments and can save customers a significant amount of time, cost and risk associated with the system development and certification process by using a COTS product.
"We have a customer who has adopted the ControlSafe Platform and estimates that they have saved millions of dollars and many years of development time," said Qianqian Shao, marketing manager for Artesyn Embedded Technologies. "A shared safety architecture makes it easy to transfer applications between systems and deploy as a common platform. This innovative data lock-step architecture and hardware-based voting mechanism supports high performance modern processors, and is modular, scalable and designed to seamlessly accommodate additional I/O interfaces as well as new processor architectures that will be required throughout the product life cycle."