MTP Library for Modular Automation
Industry
Industrial Automation / Life Sciences
Scope
Modular Automation / PLC Library Development / MTP Standard (NAMUR) / Object-Oriented Programming
Timeframe
3 months
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1
OT Engineer
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1
Project phase
01
CLIENT
A global leader in science and technology, operating across Life Science, Healthcare, and Electronics sectors, requiring advanced standardization for its global automation assets.
02
BUSINESS NEED
The client required a unified library based on the MTP (Module Type Package) standard. The objective was to simplify programming processes and significantly reduce the costs associated with the development and deployment of new automation systems across different production sites.
03
CHALLENGE
To help our client achieve its goals, we overcome the following challenges:
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MTP Standard Implementation
Adopting and implementing the strict MTP standard from NAMUR within the existing automation infrastructure. -
Object-Oriented Programming
Shifting the traditional PLC programming approach towards a more efficient, object-oriented methodology. -
Testing Environment Setup
Creating a dedicated environment for rigorous testing and simulation without requiring physical hardware. -
System Scalability
Designing a system that prioritizes future growth and adaptation without requiring significant reinvestments in new technology.
04
SOLUTION
We developed a modern, standardized PLC library that enables rapid, modular, and scalable programming for laboratories and industrial systems.
- Unified MTP Library Developed a comprehensive library compliant with NAMUR MTP standards, facilitating the rapid creation of modular automation skids.
- Extensive Testing & Simulation Performed multi-application simulations and tests to ensure the library's reliability across various production scenarios.
- Closed-Code Documentation Delivered fully documented, secure code in the form of a closed library for long-term maintenance.
- Agile SAFe Methodology Utilized the Agile SAFe framework for project execution to ensure alignment with stakeholder demands and evolving requirements.
Transforming traditional automation into a modular, MTP-compliant ecosystem required a fundamental shift in how we think about PLC code. By implementing object-oriented programming and a virtualized testing environment, we didn't just build a library - we created a scalable engineering asset that allows our client to deploy new production modules faster and with significantly lower risk.
Krystian Maskulanis
Industrial Systems Engineering Lead
Technology used
05
OUTCOME
The implementation provided a future-proof foundation for modular manufacturing. By decoupling the process logic from specific hardware through the MTP standard, we enabled the client to achieve true vendor independence and seamless interoperability across diverse production sites. This strategic shift not only optimizes operational costs but also significantly accelerates the Time-to-Market for new products, allowing for rapid reconfiguration of production lines in response to shifting global demands.
- Engineering Efficiency Drastic reduction in time required to program new automation skids.
- Cost Reduction Lower development costs through the reuse of standardized, pre-tested MTP objects.
- High Scalability Ability to adapt and grow production lines without significant reinvestments in new core technology.
- Improved Quality Adherence to international standards and rigorous virtual validation prior to deployment.
06
IMPLEMENTED SOLUTION
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Core MTP Library
Developed a centralized library in CODESYS containing standardized blocks for all process equipment (valves, pumps, sensors), fully compliant with VDI/VDE/NAMUR 2658. -
Object-Oriented Framework
Built an architecture where each physical module is represented as a digital object, allowing for easy "instantiation" of new equipment without writing new code from scratch. -
Automated MTP Export
Integrated tools to automatically generate MTP files, which act as "drivers" for the Process Orchestration Layer (POL), ensuring seamless communication between different vendors' hardware. -
Simulation Layer
Implemented a twin-logic system within the PLC, allowing the library to switch between "real-world" and "virtual-test" modes for instant validation.
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1
OT Engineer
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1
Project phase