Embedded Motion Control Modules
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Embedded Motion Control Modules

ADI Trinamic's motion control modules are complete, board-level solutions based on ADI Trinamic ICs. Proven designs set the performance standard for applications such as lab automation, manufacturing, industrial automation, medical, and robotics. Programming motion control modules is made easy using TMCL for standalone operation or CANopen for quick integration into your system design.

ADI Trinamic's motion control modules are complete, board-level solutions based on ADI Trinamic ICs. Proven designs set the performance standard for applications such as lab automation, manufacturing, industrial automation, medical, and robotics. Programming motion control modules is made easy using TMCL for standalone operation or CANopen for quick integration into your system design.

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ADI Trinamic's advanced multi-axis stepper motor modules offer highly-integrated solutions for driving multiple motors. By processing all real-time critical functions on the board itself, communication traffic is kept low. Together with ADI Trinamic's popular feature set for stepper motors, these modules are the perfect fit for any multi-axis application.

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ADI Trinamic’s single-axis servo modules for BLDC motors are flexible, cost-effective solutions to decentralized, coordinated control of BLDC or BLAC motors. Equipped with field-oriented control using encoder signals, the servo controller module brings precise and dynamic positioning to your application while reducing overhead cost.

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Highly integrated and energy-efficient, these single-axis stepper motor modules feature ADI Trinamic’s cDriver™ ICs for demanding tasks. Just like the multi-axis boards, the single-axis cDriver modules for stepper motors keep the system’s communication traffic low by processing real-time critical functions themselves.

Build vs Buy: Why Developing Your Motor Drive with Smart Microsystems May Be Your Best Option

Highly integrated microsystems offer a balance between making your own motor drive and buying one. Design engineers have flexibility and options during the new motor drive specification process, as well as access to advanced motion control expertise and functionality without the tradeoffs in features and specifications that accompany building your own. With cost and time restrictions ever present, highly integrated microsystems enable fast, lean, and easy design.

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Build vs Buy: Why Developing Your Motor Drive with Smart Microsystems May Be Your Best Option

Highly integrated microsystems offer a balance between making your own motor drive and buying one. Design engineers have flexibility and options during the new motor drive specification process, as well as access to advanced motion control expertise and functionality without the tradeoffs in features and specifications that accompany building your own. With cost and time restrictions ever present, highly integrated microsystems enable fast, lean, and easy design.