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TRINAMIC unveils intuitive development kit for popular stepper motor

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Sharath Kumar
New Update

GERMANY: TRINAMIC Motion Control, a leading global developer of motor and motion control technologies, announced the immediate availability of the TMCM-1043-KIT development system.

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Designed for Trinamic's highly integrated, NEMA 17-compatible TMCM-1043 stepDancer stepper motor module, the new development kit offers designers an easy-to-use PC-based GUI that allows one-click modification of motor drive current, micro-stepping and other key parameters.

"Stepper motors offer comparatively high torque at low speed, which allows for omission of gearboxes and enables reliability as well as precision at low cost -- that´s why they are so popular, especially in high growth markets like lab automation, medical technology and 3D printing," said Michael Randt, Trinamic CEO and founder.

"Product profitability for all of these industries depends on rapid time-to-market, and our new stepDancer motor development system enables designers to quickly setup, evaluate and implement motion control solutions on our most popular motor drive board."

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The new intuitive kit is custom designed for use with Trinamic's highly integrated and fully proven TMCM-1043 electronic assembly, which is developed for direct mounting on a NEMA 17 motor. Pre-programmed and pre-configured with all operating parameters to support standard 1.5A (peak) motors, the TMCM-1043 board uses Trinamic´s single-axis TMC2660 stepper motor driver IC, which integrates a motor pre-driver and power MOSFETs.

Controlled by industry standard step/direction pulses, the TMCM-1043 module automatically performs all motor coil current calculations, while driving an external NEMA 17 motor with the industry's lowest RDS(on) MOSFETs, resulting in minimal power dissipation.

While the TMCM-1043 module is designed for off-the-shelf use, the new development kit enables engineers to quickly optimize their designs through modification of key parameters. For example, a wider range of motor capabilities can be accommodated by modifying current specifications; legacy software can easily be re-used by modifying the number of micro-steps per full rotation; and motor holding torque can be optimized by modifying standby current.

Stepper motors are cost-effective solutions for applications that require high-torque at low speeds and precise control of motor axis rotation. Widely used in printers, scanners, robotics, lab automation and other applications, Trinamic estimates that more than one billion stepper motors are shipped ever year. NEMA 17 is the most popular stepper motor size, accounting for more than 50 percent of the total hybrid-stepper market.

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