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Product
Component Test Stands
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As your specialist for measurement and testing technology, imc designs and manufactures test stands perfectly matching requirements for a complete range of components: whether for servomotors, pumps, brakes or valves – according to your wishes, imc component test stands can quickly and precisely test for perfect operation, verify lifetime, determine energy efficiency, and much more. Thanks to the modern software imc STUDIO, test objects can be tested for complex and wide-ranging scenarios.Test stand solutions from imc are characterized by their flexibility, short set-up times and productive test processes.As a manufacturer of measurement and test technology, it is second nature to us that imc test stands deliver reproducible and verifiable results and ensure productive test processes. Furthermore, we place enormous value not only on first-class technical features for imc test stands, but also on meeting the economic demands of our customers.
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Product
Distributed 4-Axis Motion Control Modules (with High-Speed Trigger Function)
MNET-4XMO-(C)
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The MNET-4XMO is a 4-axis motion controller module for Motionnet distributed motion systems. It can generate fast frequency pulses (9.9 MHz) to drive stepper or servomotors in the machine automation field. As a motion controller, it can provide comprehensive motion functions which include 2 axis circular interpolation, 2-4 axis linear interpolation, or continuous interpolation for continual velocity and so on. Also, changing position/speed on the fly is available with a single axis operation.
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Product
Adaptive Inverse for Actuator Compensation Toolbox
AIFAC
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Actuator nonlinearities such as dead-zone, backlash, and hysteresis are ubiquitous in mechanical connections, hydraulic servo-valves, electric servomotors, piezoelectric, pneumatic and magnetic actuators, and even appear in biomedical systems. The Adaptive Inverse For Actuator Compensation (AIFAC) Toolbox for Simulnk allows control system engineers to design high-performance adaptive controllers to compensate for uncertain or undesirable actuator dynamics that would otherwise adversely affect closed-loop control system performance.
