Product Description
The 18.F4.F1H-4R01 from KEB's F4 Combivert Frequency Inverter Series is a high-performance frequency inverter for precise control and regulation of AC motors in demanding industrial environments. Built for AC 3-phase power systems, efficiency is guaranteed within an input voltage range of 305-440V/55.0A to 460-500V/44.0A. This capability makes it suitable for application in different global power supply standards.
It is said to output a voltage of 0-440V/50.0A to 480V/40.0A at up to 0-10,000 RPM in rotational speeds. With the power output of 35 kVA and coupled with the motor capacity of 22 kW in a 2/4-pole motor, it gives great promises in terms of its reliability for performance within the large ranges of applications in such industries which require great precision and efficiency. This 18.F4.F1H-4R01 has been designed giving excellent control over the motor as means to achieve the highest in performance, speed control as well as torque response; on that account, it uses more advanced frequency modulation, promoting smooth acceleration and deceleration for the reduction of mechanical stress and loss in energy in the system, that is why it will perfect match for application in manufacturing automation and material handling where accurate representation and reliability are of critical importance. High strength, rugged, and long-lasting design makes the F4 Combivert Frequency Inverter ideal for high-duty applications. Cost effectiveness and power-saving features can significantly reduce costs. Smooth integration with other systems is a virtue of this device. This inverter will provide fast motor performance with smoothness in dynamic applications requiring higher efficiency.
The KEB reputation for innovation is reflected in the 18.F4.F1H-4R01, offering unmatched control for AC motors. Its compact form factor allows for easy installation and makes it suitable for modern control cabinets and industrial automation systems. The 18.F4.F1H-4R01 offers a reliable energy-efficient solution to achieving seamless, precise control of motor systems with optimized performance in industrial environments.