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Microfluidics Custom System

Control all laboratory equipment in one app

All common protocols

Module architecture 

User end solutions:

equipment + automation

System Description

Our customised solutions are modular and adaptable:

  • Wide range of equipment and devices

    • Own manufacture (pumps, valves etc.) when no solution is available
    • OEM devices

  • Unified control 

    • PLC based
    • Monitoring and automation

This allows to incorporate a wide range of devices within a single supporting process automation platform. Significant reduction of operational complexity and automatised control in diverse environments.

System Capabilities

Customised systems support connection and coordinated control of a wide range of laboratory and industrial devices, including but not limited to syringes pumps, valves, heaters, sensors, gas mixing stations and more. Based on PLC integration, all connected components can be monitored and controlled in real time, enabling automated experimental protocols, precise process control, and scalable system configurations.

Communication Interfaces

To ensure compatibility with a wide range of equipment and industrial standards, the system provides multiple communication interfaces, including:

  • RS232 — for legacy and simple serial devices

  • RS485 — for robust multi-device industrial communication

  • CAN  — for real-time distributed control systems

  • Ethernet — for high-speed networking, remote access, and integration with laboratory IT infrastructure

  • Analog - for thermocouples and other configurations

Key Advantages

  • Turnkey solution: laboratory equipment  + automation

  • Unified control of heterogeneous laboratory equipment

  • PLC-based reliable industrial-grade automation

  • Flexible architecture supporting custom experimental setups

  • Scalable integration for complex microfluidic platforms

  • Single application interface for monitoring and control

The system is particularly suitable for microfluidic research platforms, automated laboratory workflows, chemical synthesis systems, and other experimental environments requiring precise coordination of multiple devices.

Possible applications

  • Continuous

    • Microfluidics and flow chemistry
    • All purpose laboratory systems
    • Production
    • Process engineering
    • Down stream processing

  • Other: 

  • Organ-on-a-chip (OOC)

  • Lab-on-a-Chip (LOC)

  • Circulating tumor cells (CTC)

  • In vitro fertilization (IVF)