MAD100B-0100-SA-M2-BP0-05-N1
The MAD100B-0100-SA-M2-BP0-05-N1 spindle motor, produced by Bosch Rexroth Indramat within the MAD IndraDyn A Motors series, exemplifies precision engineering with robust design features tailored for advanced automation systems. This motor is engineered with a frame size of 100 and a length denoted as B, incorporating a specialized MAD100B winding that enhances its electrical stability. It utilizes an effective axial fan blowing cooling mode which, along with the multi-turn encoder employing EnDat2.1 protocol (2048 increments), supports reliable temperature control and highly accurate position feedback. Its design makes it ideally suited for applications demanding precise motion control in compact and high-performance settings.
Detailed technical specifications underscore the motor's capabilities for demanding industrial applications. Its cooling system notably features an axial fan blowing configuration to efficiently dissipate heat and safeguard performance under continuous operation. The motor is equipped with a multi-turn absolute encoder that provides 2048 increments for exceptional position resolution and synchronization. In addition, the electrical connection is designated as B-side, streamlining installation and connectivity. The integration of a shaft sealing ring ensures that internal components remain protected from dust and contaminants, while the standard bearing coupled with the flange mounting style provides a robust assembly interface for varied mechanical integration.
Further advantages include features that bolster the motor’s durability and functional efficiency. The absence of a holding brake facilitates dynamic braking and allows for external stopping mechanisms when required, optimizing energy usage and system responsiveness. Additionally, the motor design adheres to recognized standards for vibration control, ensuring smooth and stable performance in high-stress industrial settings. Overall, the thoughtful design and high-quality engineering of this spindle motor support its long-term reliability and cost-effective operation, making it a compelling choice for precision-driven applications in robotics, packaging machinery, and material handling environments.
