Product Description
The MS2N04-B0BTN-AMDH1-NNANN-NN is an advanced synchronous servo motor designed to deliver precise motion control. It was manufactured by Bosch Rexroth Indramat, a leader in industrial automation solutions. The MS2N04-B0BTN-AMDH1-NNANN-NN servo motor incorporates an advanced absolute encoder with a resolution of 4,096 revolutions, ensuring precise positional accuracy throughout its range of operation. This high-resolution encoder facilitates seamless communication with sophisticated control systems such as Hiperface, enabling precise, efficient, and responsive motor performance. This series M2SN motor is designed without a shaft seal by making it particularly well-suited for clean and controlled environments, as it protects internal components from external contaminants or mechanical interference. With a 6.4 Nm torque and operational speeds reaching up to 6,000 rpm, this servo motor is ideal for applications requiring precision and high-speed responsiveness. Operating at a current consumption of 9.8 A, it delivers consistent and reliable performance under high-speed or heavy-duty conditions. Its D-side M17 double-plug connector simplifies electrical connections, improving setup efficiency and maintenance. It is optimized for installations up to 1,000 meters above sea level by ensuring optimal functionality within this range.
The MS2N04-B0BTN-AMDH1-NNANN-NN servo motor weighs just 3.7 kg, its compact and light-weight design minimizes inertia by enabling quick directional changes and enhancing its suitability for high-performance applications. The integrated self-cooling system reduces reliance on external cooling mechanisms by simplifying its implementation in complex systems while maintaining efficiency and reliability. Its compact structure meets A – IM B5/IM 3001 standards which helps make it suitable for integration into large-scale systems. It is well-suited for applications where speed, precision and reliability are critical by making it a versatile choice for a broad range of industrial automation scenarios.