SGMJV-06AAABE Original Yaskawa Middle inertia rotary servo motor SGMJV-06AAABE
Yaskawa SGMJV-06AAABE: Precision and Performance in Automation
The Yaskawa SGMJV-06AAABE is a leading-edge middle inertia rotary servo motor that embodies a fusion of power, efficiency, and versatility. Crafted in line with the Sigma-V series, this motor is engineered for high-performance applications where precision control and swift responses are paramount. Designed with the latest technological advancements, the SGMJV-06AAABE is the optimal choice for various industrial machinery, from semiconductor equipment to food processing systems.
Key Features and Specifications
- Rated Output: 0.6 kW (600 W)
- Power Supply Voltage: AC200V
- Serial Encoder: 13-bit Delta (standard)
- Design Sequence: Standard
- Shaft End: Two-surface plane seat (optional)
- Optional Features: Oil seal, brake (DC24V)
- Instantaneous Max Torque: Rating at 350%
- Max Speed: Up to 6000 r/min
Applications
The SGMJV-06AAABE is adept in numerous industries, effectively powering:
- Semiconductor manufacturing equipment
- Placement machines
- Punch machines for printed circuit boards
- Robotic systems
- Material handling machinery
- Food processing machinery
Rating and Specifications
Specification | Value |
---|---|
Rated Time | Continuous |
Vibration Level | V15 |
Insulation Resistance | DC500V, 10M or above |
Operating Temperature | 0 ~ 40 °C |
Excitation Mode | Permanent Magnet Type |
Installation Method | Flange Type |
Protection Mode | Enclosed Self-Cooling Type IP65 |
Humidity Range | 20 ~ 80% (non-condensing) |
With an impressive capability of sustaining a continuous operational environment and a formidable maximum torque output, the Yaskawa SGMJV-06AAABE is designed for challenges in dynamic industrial settings. Its robust construction paired with advanced technology not only enhances its longevity but also ensures that it delivers a seamless user experience. This motor stands as a trusted choice for those who require precision and reliability in their automation processes.