Integrated hardware-based field-oriented control and IO-Link communication reduce electronic robotic gripper design size by three times, while cutting development time in half
HAMBURG, Germany, May 26, 2021 /PRNewswire/ -- TRINAMIC Motion Control GmbH & Co. KG, now part of Maxim Integrated Products, Inc. (NASDAQ: MXIM), introduces an open-source, fully integrated reference design that simplifies the development of industrial robotic end-of-arm tooling (EoAT). The TMCM-1617-GRIP-REF reference design integrates hardware-based field-oriented control (FOC) and three communication ports to shrink the design size of electronic robotic grippers by three times, while reducing development time by half. The reference design features Maxim Integrated's industrial-grade MAX22000 high-precision configurable analog input/output and MAX14906 quad-channel digital input/output to adjust the multiple modes of the Trinamic TMCM-1617 single axis servo driver.
For more information about the TMCM-1617-GRIP-REF reference design, visit http://bit.ly/TMCM-1617-GRIP-REF
For details about the MAX22000, visit http://bit.ly/MAX22000
For details about the MAX14906, visit http://bit.ly/MAX14906
For details about the TMCM-1617, visit http://bit.ly/TMCM-1617
Download a high-resolution image at http://bit.ly/TMCM-1617-GRIP-REFPhoto
Designed to fit within the standard form-factor used for EoAT grippers, the TMCM-1617-GRIP-REF reference design supports industrial EtherCAT, IO-Link or RS-485 communication, provides software-programmable analog and digital input/outputs, and can be configured using the Trinamic Motion Control Language Integrated Development Environment (TMCL-IDE). This combination of reference design and software platform provides a simple way for design engineers to rapidly deliver a complete EoAT solution.
Speed Time to Market: The open-source EoAT gripper reference design is a fully integrated, intelligent hardware platform that provides motor control algorithms as well as protocol stacks to reduce end of arm tooling development time in half.
Reduce Size: The reference design integrates hardware-based FOC, software configurable input/outputs, and three communication protocol stacks into a compact solution size that measures 4,197 mm2.
Increase Productivity: Real-time adjustment of the various TMCM-1617 servo drive modes, including gripper position and gripping force, boost flexibility for higher factory throughput.
"There's a need for industrial automation engineers to rely on a toolkit that simplifies the development and commissioning of robotic EoAT solutions," explains Jeff DeAngelis, Vice President of Industrial Communications at Maxim. "The TMCM-1617-GRIP-REF reference design simplifies the tooling development process, allowing automation engineers to focus their time on developing advanced, real-time EoAT solutions that embody the true meaning of delivering intelligence at the edge."
"The TMCM-1617-GRIP-REF reference design eliminates the burden of implementing motor control algorithms, as well as protocol stacks for end-of-arm tooling," said Jonas Proeger, Director of Business Management at Trinamic. "With state-of-the-art bus options, control algorithms, and diagnostics provided in a single solution, the reference design boosts productivity on the factory floor and drives intelligence to the edge."
Availability and Pricing
The TMCM-1617-GRIP-REF reference design is available now for $571.10 from Trinamic authorized distributors. The design CAD files for the TMCM-1617-GRIP-REF are freely available on the Trinamic's GitHub repository.
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About TRINAMIC Motion Control
TRINAMIC Motion Control, now part of Maxim Integrated, makes motion control as easy as 1-2-3. By transforming digital information into precise physical motion, we are making the impossible possible.
Empowering intelligent motion now becomes achievable by combining Maxim Integrated's analog power process and communications technology with Trinamic's motion control expertise. Trinamic's state-of-the-art ICs, modules, mechatronic systems and developer toolkits enable software engineers to accelerate their product's time to market while providing first-pass success by developing precision drives that enable efficient, smooth and quiet motion.
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SOURCE Maxim Integrated Products, Inc.