The 2AD132C-B05OA1-BS03-A2V1, Bosch Rexroth Indramat, 2AD 3-Phase Induction Motors design delivers industrial-grade performance with a compact footprint. This AC Induction Motor of Size 132 features a smooth shaft without seal on Side A and a clean, without shaft end configuration on Side B for adaptable coupling. Its power connection to Side A at the top simplifies cable routing and cabinet layout. Built without a holding brake, the unit prioritizes ease of installation and minimizes maintenance downtime.
Heavy-duty Bearings and an Axial Blower cooling type ensure reliable thermal management during continuous operation. The motor meets Vibration Grade R standards to suppress resonance and extend service life under dynamic loads. High-resolution motor feedback provides precise speed and position control for demanding automation tasks. A Winding Code BS winding system enhances thermal stability, while the motor length code C balances torque output and inertia. Flange mounting guarantees repeatable alignment and rapid replacement in modular machine frameworks.
Engineered for seamless integration, the flange-mounted motor supports standard drives and inverters without interface adapters. The plain driven shaft design and omission of a holding brake reduce mechanical complexity and cost of ownership. Ideal for conveyor systems, packaging lines, and machine tools, this model delivers dependable, high-precision motion in harsh industrial environments.
Bearings
Heavy-duty
Cooling Type
Axial Blower
Brake
Without holding brake
Feedback Device
High-resolution motor feedback
Motor Length Code
C
Mounting
Flange mounting
Shaft Type
Smooth shaft without seal
Power Connection Direction
To Side A
Power Connection Position
Top
Product Type
AC Induction Motor
Shaft End (Side B)
Without shaft end
Vibration Grade
R
Winding Code
BS
Driven shaft
Plain
Size
132
The 2AD132C-B05OA1-BS03-A2V1 offers quiet yet responsive operation that works well for continuous performance demands. Its movement feels balanced and steady, maintaining consistent performance without sudden surges. The overall experience is one of refined control and predictability, making it suitable for systems that require minimal noise and smooth motion under varying loads.