The 6SE7026-0ED61-Z G93+G95+K01+K11 SIMOVERT MASTERDRIVES VECTOR CONTROL CONVERTER is a powerful and reliable drive solution designed for precise motor control in industrial automation applications. With a rated power of 30kW, this vector control converter offers superior performance for various motor-driven processes, ensuring smooth and efficient operation across a wide range of industries. The inclusion of G93, G95, K01, and K11 features enhances the converter's capabilities, providing advanced control strategies that optimize energy usage, reduce wear and tear on equipment, and improve overall system efficiency.
The SIMOVERT MASTERDRIVES converter employs advanced vector control technology, enabling it to maintain high precision in motor speed and torque regulation, even in challenging load conditions. It is specifically designed for applications that demand high performance and dynamic motor control, such as pumps, compressors, conveyors, and automated machinery. This drive ensures smooth acceleration, deceleration, and precise motor control, contributing to greater system stability and productivity.
Built for industrial environments, the 6SE7026-0ED61-Z G93+G95+K01+K11 SIMOVERT MASTERDRIVES VECTOR CONTROL CONVERTER is engineered to provide reliability and durability in demanding conditions. It is equipped with multiple protective features such as overcurrent, overheating, and short-circuit protection to ensure the safety of both the drive and the motor. Its compact and robust design allows for easy installation and integration into existing automation systems, making it a versatile and effective solution for various industrial sectors.
The SIMOVERT MASTERDRIVES VECTOR CONTROL CONVERTER is engineered for seamless operation and energy efficiency, making it a valuable asset for industries seeking to improve operational performance and reduce energy consumption. Its advanced features and high power capacity make it a leading choice for applications requiring sophisticated motor control and precise system management.