SF-A3.0042.030-04.053

Product Description

The SF-A3.0042.030-04.053 is a servo motor Operating at 4 kHz. Its design is tailored for high-speed, high-precision tasks. Therefore, it is suitable for a range of industrial applications, from robotics to CNC machinery.

The motor possesses a commendable torque profile. Moreover, it maintains a continuous torque even at elevated speeds, which is essential for applications that require a consistent output for prolonged periods. The motor demonstrates a robust thermal capacity with an S1 rating at a Δϑw (30 s) of 100 K. It makes the product capable of withstanding substantial temperature rises within a short time frame without compromising performance or longevity.

At a standstill state, the motor can deliver a maximum torque of up to 9 Nm when operating under maximum overload conditions. This peak torque capability lets the motor handle sudden and high load demands common in start-stop applications and rapid acceleration/deceleration scenarios. The solid motor limit characteristic of this variant ensures that it can operate within safe mechanical and thermal limits. Therefore, it prevents any damage due to excessive load or overheating. This characteristic also aids in the motor's ability to provide a maximum continuous load torque of 7 Nm.

One of the distinguishing features of this motor is its ability to maintain a continuous torque of 4 Nm for both 4 and 8 kHz (S1) operational frequencies. It indicates the motor's versatility and ability to work seamlessly with different controller settings and operational demands. The speed range of this motor extends up to 3000 min⁻¹. So, it provides a wide operational spectrum to match the needs of various speed-dependent applications. This motor variant can maintain continuous torque with 8K max continuous load as per the S1 attributes. Overall, the SF-A3.0042.030-04.053 is engineered to deliver high performance, reliability, and precision. Its advanced thermal characteristics and strong torque profile make it an ideal solution. It is perfect for sophisticated automation tasks that require precise speed and torque control under dynamic load conditions.