Product Description
Bosch Rexroth Indramat manufactured the MAD130D-0150-SA-S2-FQ0-05-N1 motor. With a rated output of 24.3 kW, this specific model demonstrates the motor's capacity to transform electrical energy into mechanical effort. The motor can drive high-inertia loads and accelerate quickly thanks to its significant power output, which is essential in applications requiring dynamic motion control. The motor's maximum speed of 7500 rpm, which is dictated by the internal design of the motor—more significantly, the quantity of magnetic poles and the frequency of the provided alternating current—complements the power. Another feature that sets this spindle motor apart is torque, which is the rotating equivalent of force. The rated torque of 155 Nm for the MAD130D-0150-SA-S2-FQ0-05-N1 shows that the motor can provide constant rotating force for extended operation. For brief periods, the motor can produce a maximum torque of 375 Nm, which is sufficient power for strenuous activities like quick acceleration or overcoming high starting friction.
The motor's capacity to endure stall circumstances, in which the rotor is stopped from spinning, is a crucial component of its design. At a standstill of 170 Nm, the MAD130D-0150-SA-S2-FQ0-05-N1 exhibits a constant torque, demonstrating its sturdy design and capacity to withstand brief overloads without suffering harm. The electrical properties of the motor are equally significant. This shows how much electrical current is needed for the motor to run at its rated power, with a rated current of 61.5 A. When sizing the power supply and related electrical components, this value is essential. A crucial safety factor, the continuous current at a standstill of 64.1 A is the most current the motor can tolerate while stopped. At 20°C, the motor's torque constant, which gauges how well it converts electrical power into torque, is 3.09 Nm/A. Based on the applied current, this parameter is essential to the motor's control system because it enables accurate and consistent torque output.
The performance and application of the MAD130D-0150-SA-S2-FQ0-05-N1 are also significantly influenced by its physical attributes. The resistance of the rotor to variations in rotational speed is indicated by its moment of inertia, which is 0.164 kgm². The motor's dynamic reaction and rapid acceleration and deceleration are influenced by this value. The large 164 kg mass of the motor (without the holding brake) helps to stabilize it while in use, reducing vibrations and guaranteeing steady performance. Maintaining ideal operating temperatures requires the cooling system of the motor, which comprises a fan with an average airflow rate of 1000 m³/h. The lifespan of the motor is guaranteed by efficient heat dissipation, which also prevents overheating from degrading performance. Important factors affecting the total efficiency of the system include the blower's power consumption, which ranges from 139 to 208 VA, and its current, which ranges from 0.20 to 0.25 A.