The 2094-BM02-S from Allen Bradley is an axis module within the Kinetix 6000 series, designed for precision motor control. It operates at a voltage class of 460V and provides a current rating of 15 Amps, delivering a nominal continuous power output of 6.6 kW, ensuring efficient performance in demanding applications.
| Manufacturer | Allen Bradley |
|---|---|
| Product Type | Axis Module |
| Product Line | Kinetix 6000 |
| Part Number | 2094-BM02-S |
| UPC | 820919595714 |
| Weight | 7.06 lbs (3.20 kg) |
| Voltage Class | 460V |
| Safe Torque Off Feature | Included |
| Current Rating | 15 Amps |
| Nominal Continuous Power Output | 6.6 kW |
| IAM Module Connection | Required |
| Compatible Servo Drives | Kinetix 6000 Series multi-axis servo drives |
| Operating Temperature | 0 to 40 degrees Celsius |
| Storage Temperature | 0 to 50 degrees Celsius |
| Max. Non-Condensing Relative Humidity | 80% RH |
| Max. Altitude Without Derating | 1000 meters above sea level |
The Allen Bradley 2094-BM02-S is a specialized axis module engineered for the Kinetix 6000 series. This product is designed to function with an input voltage of 460V, supporting applications that require higher power management. It operates efficiently with a current rating of 15 Amps, providing a continuous power output of 6.6 kW, making it suitable for various industrial applications.
Safety features include a safe torque off capability, crucial for ensuring operator safety during system maintenance and emergencies. To utilize this module, an IAM module connection is necessary, ensuring seamless integration within a multi-axis servo drive setup.
This axis module maintains operational reliability within a temperature range from 0 to 40 degrees Celsius. When stored, it can withstand temperatures between 0 and 50 degrees Celsius, maintaining its integrity. Designed to operate without derating up to 1000 meters above sea level, this product effectively adapts to various installation environments. Furthermore, the 2094-BM02-S supports a maximum non-condensing relative humidity of up to 80% RH, which is essential for effective performance in humid conditions.