IMPLEMENTATION

The implementation of servo motors and servo drives is a key step toward achieving greater precision, dynamics, and flexibility in modern industrial applications. Through advanced motion control, feedback loops, and multi-axis synchronization, servo systems enable a significantly higher level of automation compared to traditional asynchronous drives.

In automation, modernization, or production line renovation projects, we carry out comprehensive servo equipment integration—from sizing and component selection to parameterization, commissioning, and functional testing.

Implementation Steps

Technical Process Analysis
Assessment of torque, speed, positioning, and mechanical load requirements.

Component Selection

• Servo motors (rotary or linear) with suitable feedback systems (incremental/absolute encoders)
• Servo drives with appropriate control modes (position, speed, torque)
• Communication interfaces with higher-level systems (EtherCAT, Profinet, Modbus TCP…)

Integration and Parameterization

• Configuration of all control loops (current, speed, position)
• System tuning based on dynamics and load
• Implementation of safety functions (STO, SS1, safe motion…)

Commissioning and Optimization

• Motion testing, path matching, position repeatability
• Communication with HMI and supervisory systems (SCADA, MES)

Technical Advantages of Servo Drives

• Accurate and repeatable positioning control
• High dynamics for short cycles and quick response
• Energy efficiency through optimized motion profiles
• Easy implementation of synchronized or interpolated motion
• Built-in diagnostics and support for predictive maintenance

Typical Applications

• Automatic dosing and filling lines
• CNC machining centers and engraving systems
• Handling portals and rotary units
• High-speed transport and sorting machines
• Production cells with coordinated multi-axis motion