MAF100C-0200-FQ-S2-AH0-35-H4
Wake Industrial LLC is not an authorized distributor of this product.
MPN: R911335339
No Tariffs On US Orders- Straightforward Pricing: No Rush Fees, No Credit Card Fees
MAF100C-0200-FQ-S2-AH0-35-H4 Induction Motor is manufactured by Bosch Rexroth Indramat. This motor has a Singleturn absolute encoder , EnDat2.1, with 2048 encoder and a High Speed bearing. It also has a Plain, without Sealing Ring shaft and is not equipped with a holding brake.
To contact sales for pricing and lead time:
Payment Methods
Shipping Methods
Our Credentials
Product Description:
Delivering robust mechanical power and efficiency, the MAF100C-0200-FQ-S2-AH0-35-H4 servo motor tackles demanding industrial applications. Rated at 13.4 kW and 64 Nm torque, this high-performance unit generates substantial rotational force to confront elevated loads. A 2000 RPM top speed enables smooth velocity control even at high velocities. Capable of 66 Nm continuous torque and 145 Nm max torque, the motor powers through prolonged operation without performance loss, ensuring consistent output for continuous processes where uptime is paramount.
High current capacity up to 77.5A allows rapid acceleration and deceleration profiles, while a 27.47 kW max power rating handles temporary peak demands. A key design speed of 1500 RPM indicates the motors optimal efficiency range operating here maximizes productivity and minimizes energy waste. Quick acceleration and directional changes are facilitated through the motors low 0.0284 kgm moment of inertia. Minimal rotational mass allows near-instantaneous speed fluctuations to alter output rapidly.
This dynamic responsiveness maintains precision in applications where accuracy and reaction times are critical. Rated for 36.7A nominal current, the motor keeps electricity consumption economical during steady-state operation. Avoiding excessive power usage saves operating costs while prolonging motor lifespan. This balance of strength and efficiency makes the MAF100C well-suited for industrial settings requiring robust, affordable performance.
