Nuclear Reactor Control
The control of nuclear reactors requires computer systems with the highest level of safety, reliability and availability, calling for electronics qualified for very harsh industrial environments and redundant system design. These systems must guarantee the safety of men and the availability of machines while protecting the environment on a daily basis. They are installed in on-board reactors (naval), test, experimental and low-power reactors.
The computing heart in this application is a COTS VMEbus single-board computer in double Eurocard format. It is based on an MPC 8245 PowerPC with 603e core. The required reliability on the hardware level is guaranteed by having each system consist of three independent single-board computer units, identically configured and built up with the same combination of M-Modules.
The communication between the units is done via a fiber-optic network, realized with a PMC module plugged on the CPU card. A selection of different M-Modules is used for the real-world I/O functions like optically isolated binary wide range inputs or relay outputs. Another M-Module extends the 4 COMs on the CPU card by 4 more high-performance serial interfaces that are optically isolated. 3M-Modules can be mounted on the CPU card itself. For the remaining M-Modules a customized carrier board supporting 500 V isolation voltage has been designed. The complete computer system is qualified for an operation temperature between -40 and +85°C.
Standard Components Used in this Example
The A21B is a PowerPC based embedded computer for industrial automation. The SBC features an NXP single-core P1013 or dual-core P1022 QorIQ processor and M-Module mezzanine slots.
The A21C is a PowerPC based embedded computer for industrial automation. The SBC features an NXP single-core P1013 or dual-core P1022 QorIQ processor and PMC / XMC mezzanine slots.