Most automation engineers are trained to follow instructions.
But real industrial systems are not built that way.
They are designed. Structured. Engineered.
If you do not understand how motion architecture is built, you are not developing systems - you are just executing tasks.
The Syntex Motion Control Engineering Platform, built on the Syntex Motion Control Engineering Kit, is a practical engineering environment designed to help users understand how real industrial motion systems are structured, developed, and scaled across multiple automation ecosystems.
It is based on a Allen Bradley CompactLogix L18ERM PLC and a protected HMI runtime, allowing engineers to analyze real PLC logic while interacting with a functional simulation environment.
This is not limited to pressing buttons or executing isolated instructions. The objective is to understand how motion architecture is built, how positions are indexed, how machine behavior is organized, and how professional automation logic is structured for real industrial applications.
Most PLC training focuses on instructions. Real engineering requires much more than that.
Most PLC training creates operators. Not engineers.
In real industrial projects, engineers must understand how to organize sequences, work with indexed data, create reusable structures, coordinate motion logic, and develop systems that can scale.
This platform was created to close that gap and help users transition from basic PLC programming into real motion control development with an engineering mindset focused on structure, scalability, and real industrial application.
The user will understand how to organize a motion project inside the PLC using Add-On, KinetiX instructions, UDTs and blocks with a clear and structured engineering approach.
The user will learn how positions are organized using indexed data, arrays, and reusable structures that allow scalable machine development.
The user will understand how to build independent motion sequences and organize machine behavior in a repeatable, maintainable, and professional way.
The user will begin to understand how industrial machines are actually developed, beyond basic instructions and into real motion control architecture.
The motion logic remains open so the user can analyze the structure, tags, indexed positions, and sequence organization directly inside the PLC project.
The HMI layer is protected and operates through runtime only , preserving the integrity of the platform while still allowing interaction with the system.
The platform was developed inside the Syntex Systems Motion Control Lab, where real industrial architectures are designed, tested, and validated.
Siemens, Allen-Bradley, CODESYS, and Beckhoff systems coexist under the same engineering standards.
The platform includes the core engineering components required to understand, analyze, and work with a real industrial motion control architecture:
This platform is designed to reflect real industrial applications. It can be used to understand and develop motion control solutions for systems such as conveyor tracking, gantry positioning, multi-axis synchronization, and automated machine sequences.
Most training environments focus on single-axis positioning.
Real industrial machines require much more than that.
The Syntex Motion Control Engineering Kit introduces users to the transition from basic motion control into synchronized and coordinated multi-axis systems, where multiple axes must operate together in a precise and controlled manner.
This is where real motion engineering begins. Understanding how axes interact, synchronize, and execute coordinated motion is what separates basic programming from real industrial system development.
This platform is designed for motion control engineers, system integrators, OEM machine builders, and industrial engineering teams developing real multi-axis systems.
It is especially valuable for teams working on gantry systems, conveyor tracking, synchronization, and scalable machine architectures.
It is intended for engineers and teams looking to move beyond basic PLC training into real motion control development.
The Allen Bradley Motion Control Engineering Kit is designed for engineers that want to expand their understanding of industrial motion control development.
Basic PLC programming knowledge is recommended but not strictly required.
Recommended background:
Traditional automation training often requires engineers to travel to training centers for a limited number of days. The Motion Control Engineering Kit provides a different approach by delivering a complete development environment that can be used repeatedly.
The Motion Control Engineering Kit was developed inside the Syntex Systems Motion Control Development Lab, where multiple industrial platforms are integrated including Siemens, Allen-Bradley, CODESYS and Beckhoff.
The objective of the lab is to design and validate real industrial automation architectures that can be used for machine development, engineering training and multi-platform integration.
$7,499 USD + VAT
This is not a short-term training. It is a complete motion control engineering platform designed for continuous development, testing, and real industrial application understanding.
Instead of investing in multiple training sessions, travel expenses, and limited-time courses, this platform allows engineers and companies to develop, test, and refine motion control architectures continuously.
A single mistake in a real industrial project can cost more than this entire platform.
This is not an expense. It is an engineering capability.
->No travel required
->No scheduling limitations
->Train multiple engineers
->Reuse the platform across multiple projects
More than training, this is a reusable engineering asset for continuous internal development.
Companies that build real motion systems invest in engineering capability - not in courses.
Real industrial hardware components,
designed to replicate real industrial automation system architectures.
This is not a demo. This is a real industrial control platform designed to develop, test, and validate motion control architectures under real operating conditions.
The Syntex Motion Control Engineering Kit was developed to help users understand not only how to execute motion, but how to build the logic behind it.
Learn the structure. Understand the sequence. Analyze the architecture. Apply the same concepts to real industrial automation projects.
If your objective is to move from basic PLC programming to real industrial motion system development, this platform provides the architecture and engineering examples used in real machine projects.
The automation industry does not need more people following instructions.
It needs engineers capable of building complete systems from scratch.
The Syntex Motion Control Engineering Kit can be shipped to any part of the world.
However, international orders must consider additional logistics costs such as export documentation, international shipping, customs duties, and import taxes depending on the destination country.
Our team can assist in preparing the shipment and providing the necessary documentation required for international delivery.
Please contact Syntex Systems to receive a detailed quotation including shipping and export costs.
Tell us about your machine, your application, or your engineering challenge.
Our team will help you evaluate how this platform can support your development, architecture design,
and real motion control implementation.
Submit your details and our engineering team will contact you to discuss your application and provide technical information.
This is how real motion systems are engineered, validated, and executed in industrial environments.