The Bosch Rexroth Indramat SF-A1.0023.060-04.050 from the SF Servo Motors series delivers high-performance motion control with a DC 670 VDC power input and a nominal Speed of 6,000 RPM. As a member of the SF family, this permanent magnet motor features a single-turn absolute encoder for precise position feedback and is rated IP67 for uncompromised protection in outdoor and harsh environments. Its natural convection cooling system eliminates the need for forced-air components, reducing maintenance and improving reliability. The motor’s smooth plain output shaft ensures versatile coupling options for pulleys, gears, or custom fixtures.
Constructed in an IM B5 housing of lightweight aluminum with low-contamination grade materials, the SF-A1.0023.060-04.050 offers integrated installation pockets along its entire length for rapid, accurate mounting. The built-in electronic rating plate automatically communicates key parameters to Servodyn-D inverters, streamlining commissioning and parameter optimization. Optional holding brakes add a failsafe locking function, while the motor’s temperature monitoring via dual NTC thermistors protects against thermal overload at elevations up to 1000 MSL. Feedback is managed via a robust encoder, single-turn interface with a plug-in connector for simplified field service.
Designed for professional installation, the SF servo motor’s combination of compact size, heavy-duty protection, and advanced features makes it ideal for high-speed automation tasks. Its state-of-the-art motor windings generate a smooth sinusoidal e.m.f., and the optional brake variants expand its applicability to vertical and safety-critical axes. Whether deployed in manufacturing, packaging, or outdoor automation, the SF-A1.0023.060-04.050 offers a precision-engineered solution that balances power density with reliability.
Brakes
Holding, optional
Construction
IM B5
Convection
Natural
Family
SF
Feedback
Encoder, single-turn
Installation elevation
1000 MSL
Output shaft
Plain
Rating Plate
Electronic
Speed
6,000 RPM
Temperature Monitoring
Thermistors