MAC063A-0-RS-1-C/095-A-1/-I01000/S007

Product Description:

Bosch Rexroth Indramat manufactured the MAC063A-0-RS-1-C/095-B-0/-I00500/S007. With a speed of 6000 min⁻¹ at rated load and voltage, the Bosch Rexroth Indramat MAC063A-0-RS-1-C/095-A-1/-I01000/S007 servo motor shows its angular velocity. This is the key performance figure. The thermal performance profile is shown by the constant torque under different cooling methods. 0.8 Nm natural convection, 1.0 Nm surface cooling at a standstill. Heat dissipation has a big impact on torque, a basic parameter in rotary systems that scales with current and motor characteristics. Engineers can see how cooling methods can be adjusted to meet mechanical load without exceeding thermal limits. This is reflected in the continuous current, 3.4 A surface cooling, and 3.5 A natural convection. These figures show the close relationship between torque, current and temperature control - all need to be balanced to run continuously and error-free in load-sensitive applications.

The mass distribution of the spinning parts and the torque needed to change their angular velocity is measured by the rotor’s moment of inertia, which is 2.4×10⁻⁴ kg·m². For high-precision motion in current automated machining and robotic actuation, a low inertia profile like this is good for dynamic response and is well suited for fast cycles of acceleration and deceleration. Closed loop torque control with low latency is possible with the torque constant at 20°C of 0.230 Nm/A, which allows linear mapping between input current and output torque. These variables determine the motor’s dynamic behavior and are key for trajectory planning and predictive load correction. The motor’s electrical characteristics also support its use in precise motion systems. Heat dissipation and current response times are influenced by the winding resistance (3.7 Ω) and inductance (3.5 mH).

Inductance affects how fast current can ramp, and this, in turn, affects pulse width modulation. High resistance means bigger I²R losses, so heat dissipation is important. The motor can handle short spikes in high torque demand due to its maximum pulse current of 19 A, which is useful for overload situations. For time-dependent thermal models, its thermal time constants of 15 minutes with surface cooling and 30 minutes with natural convection give a good understanding of thermal transients. IP65 (except unsealed shafts), insulation class F up to 155°C and a weight of 3.2 kg, which balances stiffness and mobility, all contribute to environmental durability. Its transport range of -20 to 80°C and claimed ambient operating range of 0 to 45°C prove its suitability in various industrial environments without performance drift or material degradation.