The MVME7100 increases performance and functionality while protecting the underlying investment in the VMEbus and related technologies

Up to 1.3GHz system-on-chip NXP MPC864xD, featuring dual PowerPC® e600

processor cores, dual integrated memory controllers, DMA engine, PCI Express

interface, Ethernet and local I/O

Extended temperature (-40 °C to +71 °C) and ruggedised board variants available

Four Gigabit Ethernet ports

Up to 2GB of DDR2 ECC memory, 128MB NOR flash and 2GB, 4GB or 8GB NAND flash

USB 2.0 controller for cost-effective peripheral integration (commercial temperature only)

2eSST VME bus protocol with 20MB/s VME bus transfer rate

Dual 33/66/100 MHz PMC-X interfaces, expandable with industry-standard modules

The MVME7100 provides a development path for VMEbus customers with applications on previous generation VMEs, in particular the MPC74xx processor. The system-on-chip implementation offers power/heat dissipation, reliability and lifecycle benefits that are typically found in other architectures.

which are typically not found in other architectures.

The SMART EC MVME7100 single board computer (SBC) helps OEMs of industrial, medical and defence/aerospace equipment to increase performance and functionality

to increase competitive advantage while protecting www.cniacs.com the underlying investment in the VMEbus and related technologies.

Customers can retain their VMEbus infrastructure (chassis, backplanes and other VMEbus and PMC boards) while improving performance and extending lifecycles.

In addition, the extended lifecycle of SMART EC computing products helps to minimise disruption to development and support due to frequent product replacement.

The combination of faster processors and the 2eSST VMEbus interface provides significant performance improvements. New cost-effective peripherals can be easily integrated using the USB interface.

The extended temperature (-40 °C to +71 °C) variant supports a wide range of operating and storage temperatures, in addition to increased shock tolerance.

This enables the board to operate in harsh environments while maintaining structural and operational integrity.