FPGA based motion -control platform to North American customers

Arrow Electronics, Altera and National Semiconductor have unveiled a jointly developed MotionFire motor-control development platform to North American customers. The FPGA-based MotionFire platform aids engineers to speed the design of motor applications for areas such as industrial, automotive, medical, instrumentation and consumer electronics equipment.

Launched in Europe in 2008, the MotionFire development platform is based on Altera's Cyclone III FPGA, delivering a flexible and power-saving motor-control environment that supports and bridges multiple industrial networking protocols and mitigates obsolescence risk. MotionFire comprises the FireFighter FPGA-based communication baseboard and the FireDriver motor driver power modules. The platform supports state-of-the-art motor-control algorithms and communications IP, and can be used to control various motor types, including stepper, servo, and AC and DC motors, demonstrating the value FPGAs provide in multi-axis motor-control applications.

"After a successful launch in Northern Europe, we're pleased to be able to offer this technology to our North American customers," said Robert Behn, vice president supplier marketing, Arrow Electronics. "Working in tandem with Altera and National, Arrow can now offer a new level of performance and efficiency in a comprehensive motion-control solution."

The MotionFire platform's FireFighter baseboard connects up to six FireDriver plug-in power modules or 12 motors, offering motor control, user input/output and real-time Ethernet network communications capabilities. The Cyclone III FPGA featured in the FireFighter baseboard drives a wide variety of communication options such as Ethernet/IP, EtherCAT, Profinet, SERCOS III, CAN, USB, RS485 and other current and next-generation protocols. The MotionFire platform also includes an Altera Nios II embedded processor and motor control IP that supports digital encoder or hall sensor-based motor-control interfaces (VHDL source included) and advanced algorithms for current, speed and position.