Product Description
The MAD130C-0200-SA-S2-AP0-05-N1 is a high-performance asynchronous motor specifically designed to excel in applications requiring precise control and substantial torque. Part of the renowned MAD series from Bosch Rexroth's IndraDyn family, this motor is built to deliver outstanding performance and reliability across a wide range of industries. Engineered for applications that demand high torque at low speeds, this motor is particularly suited for sectors such as machine tooling, printing, and textiles. Its robust and compact design, along with seamless integration with IndraDyn drives and controls, enables it to provide precise control and exceptional performance even in the most challenging environments. With its high torque density, ability to operate at low speeds, and high precision, this motor ensures accurate motion control and enhanced product quality in various applications.
The motor finds applications across several industries. In machine tooling, it is utilized in CNC machines, grinders, and lathes to deliver precise motion control and improve product quality. In the printing industry, it supports web printing, sheet-fed printing, and digital printing machines, ensuring precise registration and superior print quality. The motor is also essential in textile machines such as weaving, knitting, and textile finishing machines, where it controls fabric movement with high precision, enhancing product quality. Furthermore, it is widely used in robotics and automation, including industrial robots, robotic arms, conveyor systems, packaging machines, and assembly lines, where it facilitates precise motion control and improved production quality.
During operation, the motor generates a considerable amount of heat that must be managed to prevent overheating and potential damage to its windings. To address this, the motor is equipped with a forced cooling system, featuring a three-phase blower mounted on its axial axis at the rear. This blower operates on various input power supplies, ensuring efficient heat dissipation and maintaining reliable motor performance.