<p>When it comes to selecting a reliable motor for industrial and commercial applications, understanding the technical specifications is crucial. This Process Performance Motor offers a robust solution tailored for those who value efficiency and durability.</p><p>Operating at a rated voltage of 400 V and frequency of 50 Hz, this motor delivers consistent performance with a rated current of 0.6 A. Its design ensures optimal operation within an ambient temperature of up to 40&#176;C, making it suitable for various environments.</p><p>The motor&#39;s degree of protection is classified as IP55, indicating its resilience against dust ingress and water jets from any direction, thus enhancing longevity in demanding conditions. The B3 foot mount type provides stability during operation, ensuring that installation is straightforward on flat surfaces.</p><p>Constructed from durable cast iron, this motor boasts dimensions that include a width of 136 mm, height of 175 mm, and depth of 257 mm. Despite its sturdy build, it maintains a manageable weight of just 10 kg. Finished in Munsell Blue, it presents an aesthetically pleasing appearance while maintaining functionality.</p><p>Performance-wise, the motor features a rated power output of 0.18 kW with an efficiency rate at 63.9%, which supports energy-conscious operations without compromising on power delivery. It also has a torque rating of 1.87 N-m and can rotate in both directions at a speed rating of 931 RPM—ideal for versatile applications where directional flexibility is required.</p><p>The frame size adheres to IEC standards with an IEC71 classification ensuring compatibility with existing systems or setups requiring standardized components. With an insulation class labeled as ICLF (Insulation Class F), the motor can withstand higher operating temperatures without degradation over time.</p><p>In terms of acoustics, the sound level is measured at just 39 dBA—making it one among the quieter options available—which helps maintain workplace comfort by minimizing noise pollution during extended use periods.</p><p>Finally, this model achieves a power factor rating of 0.69—a measure indicative not only about how effectively electrical power is being used but also how much reactive power contributes towards total energy consumption; essentially providing insight into operational cost-effectiveness over prolonged usage scenarios.</p>