LENZE 9400, i700 AND i950 SERVO CONTROLLERS
This range of controllers offer the latest in high performance servo technology from 0.37 kW to 200 kW in single or multi-axis applications.
The Servo controllers can be controlled as CIA402 or with on board Lenze FAST motion solutions.
The controllers can be networked with EtherCAT system bus as well as latest communication protocols.
LENZE SERVO MOTORS
Lenze have a complete range of synchronous (0.25 to 15.8 kW/0.5 to 190 Nm) and asynchronous (0.8 to 60.2 kW/2.0 to 1100 Nm) servo motors. The Lenze inverter optimised motors can be fitted with feedback and forced cooling for servo applications.
The Lenze motor range can provide motors for dynamic applications or slow high torque applications with feedback from resolvers to precision SinCos feedback.
The Lenze motor range can be combined with Lenze high load, low backlash gear units providing a complete system solution.
LinMot Linear Modules
The linear modules stainless steel are complete drive solutions consisting of linear guides with integrated LinMot linear motors and optionally attached vertical load compensation elements.
The modules have been specially developed for applications in the pharmaceutical or food industry which require a solution made of stainless steel with a high degree of protection.
LIKA HIGH RESOLUTION ENCODERS
Resolving motion requires accurate position feedback used for motion profiles or CAM switching points.
Here we use EtherCAT and CAN absolute encoders with 18 bit single turn resolution. This is a tried and tested solution for packaging machines, steel presses and paper converting industries.
FMS DYNAMIC LOAD CELLS
FMS dynamic load cells are used for the accurate tension measurement where materials are being unwound, processed or printed and then rewound. These processes require that the material tension is accurately controlled. To achieve this accuracy, the servo controllers require an accurate feedback of actual tension. FMS load cells are specifically designed to achieve this.
With FMS load cells it is possible to eliminate the need for dancer systems. The accurate tension feedback allows for accurate tension control over large diameter and speed ranges.