Product Description
Bosch Rexroth manufactured the SE-D1.010.060-10.000 servo motor, designed for smooth operation thanks to its special magnet arrangement. The Bosch Rexroth Indramat SE-D1.010.060-10.000 servo motor is an excellent example of how electrical and mechanical engineering come together to make a high-performance automation component. This 3-phase motor runs at 230V power and has a 2-HP rating. The 80 Amp current rating means it can handle a lot of energy and torque for driving industrial machinery. However, this high current requires careful consideration of wiring and thermal management to run. The motor is designed for electromagnetic compatibility at the Class A EMC level, which minimizes electromagnetic interference that can disturb other equipment in the industrial environment. This is important in modern automation systems where many electronic devices are nearby.
This servo motor's core is its ability to convert electrical energy into precise mechanical motion. With a nominal speed of 6000 rpm and 2.6 Nm max torque, it has a dynamic response for applications that require fast and accurate positioning. The torque constant (KT) of 0.41 Nm/A shows the direct relationship between the motor current and torque output – more current means more rotational force. This linearity is essential for precise control systems. The voltage constant (KE) of 41 V/1,000 rpm characterizes the motor’s electromechanical behavior – the voltage generated when the motor spins at a certain speed. The winding resistance (R2ph) of 13.4 Ohms at 20°C is a key factor for the motor’s efficiency. This resistance determines the amount of electrical energy lost as heat and, therefore, the overall power consumption and thermal management. The winding inductance (L2ph) of 47.6 mH is essential for the motor’s dynamic response. Inductance resists changes in current and how fast the motor can accelerate or decelerate.
Together with the mechanical time constant (Tmech) of 22.7 ms, these electrical properties give a complete picture of the motor’s response to control signals. The physical dimensions of 80 x 398 x 200 mm and 6 kg weight are essential for system integration. The compact size allows for installation in space-limited environments, and the low weight reduces the inertia in motion control systems. The max operating temperature of 45°C requires careful thermal management, especially in harsh industrial environments with high ambient temperatures.