Product Details
Product Overview
The Allen Bradley 2094-BC01-M01-S serves as the central powerhouse for the Kinetix 6000 multi-axis servo drive system. As an Integrated Axis Module (IAM), this unit combines a high-efficiency converter and a 9-Amp inverter into a single chassis. It rectifies three-phase AC input into a stabilized DC bus to power multiple follower axes across the power rail. This hardware significantly reduces cabinet complexity by centralizing power distribution and motion control interface. We supply this module in 100% Brand New and Original condition, ensuring your high-performance motion applications maintain maximum efficiency and safety.
Part Number Breakdown
The 2094-BC01-M01-S utilizes a specific nomenclature to define its power and safety profile:
| Code Segment | Technical Definition |
| 2094 | Kinetix Modular Design Platform |
| BC | 400V-Class Converter/Inverter (IAM) |
| 01 | 6 kW Converter Power Rating |
| M01 | 9 Amp Continuous Inverter Output |
| -S | Safe Torque-Off (STO) Capability |
Technical Specifications
The 2094-BC01-M01-S delivers high-density power handling for 480V industrial grids:
| Feature | Specification |
| Manufacturer | Allen Bradley (Rockwell Automation) |
| AC Input Voltage | 324 – 528V RMS (3-Phase) |
| Nominal Voltage | 360V / 480V AC |
| Continuous Power Output | 6 kW |
| Peak Power Output | 12 kW |
| Inverter Current | 9 Amperes |
| Efficiency Rating | 97% |
| Bus Overvoltage Trip | 425V DC (Lower Limit) / 825V DC (Upper) |
| Enclosure Depth | 198 mm (7.8 in.) minimum |
| Weight | 12.00 lbs (5.44 kg) |
Engineering Advantages
The 2094-BC01-M01-S solves the most demanding spatial and electrical challenges in motion control:
-
Centralized Power Management: The IAM architecture eliminates the need for separate power supplies for each axis. By feeding the DC bus directly to the 2094 power rail, the module reduces wiring labor by up to 50% compared to traditional standalone drive setups.
-
Integrated Safety Performance: The "-S" designation indicates built-in Safe Torque-Off (STO). This hardware-based safety circuit prevents the drive from generating torque to the motor during emergency stop conditions without disconnecting the main power, facilitating faster machine restarts.
-
Superior Energy Efficiency: This module achieves an 97% efficiency rating. By minimizing thermal loss during the AC-to-DC conversion, the 2094-BC01-M01-S reduces the cooling requirements of your electrical enclosure, even when driving heavy inertial loads.
-
Precision Bus Monitoring: Advanced internal sensors constantly track bus voltage. The module triggers an immediate fault if the bus drops below 275V DC or exceeds safe limits, shielding the delicate power semiconductors in both the IAM and connected follower axes from permanent damage.
FAQs
-
Does this module support follow-on axes?
Yes. The 2094-BC01-M01-S acts as the lead module on the 2094 power rail. It provides the DC bus and logic power for up to 8 additional axis modules, depending on your total power budget.
-
What are the mounting requirements for heat dissipation?
To ensure optimal cooling, maintain a minimum installation clearance of 50.8 mm (2.0 in.) above and below the module. Additionally, your enclosure must provide a minimum depth of 198 mm to accommodate the unit and its associated cabling.
-
Is this unit compatible with 230V systems?
No. The 2094-BC01-M01-S is a 400V-class module. Operating this unit outside its 324-528V RMS input range will trigger an undervoltage fault or cause hardware failure. For 230V applications, utilize the 2094-AC series.
-
How do I confirm the "Brand New" condition?
Every unit we ship remains in its 100% Brand New original factory-sealed box. Each package displays the authentic Allen Bradley UPC (820919595653), the unique hardware serial number, and the factory-applied firmware revision.
Additional Information
- 100% Genuine Parts: All products are original and authentic, ensuring reliable industrial performance.
- 30-Day Refund Guarantee: Return any in-stock item within 30 days in original, unopened packaging for a full refund (excluding shipping and fees).
- 12-Month Warranty: Covers defects in materials or workmanship; excludes misuse, normal wear, or unauthorized modifications.
- Worldwide Shipping: We ship via USPS, UPS, FedEx, and DHL. Delivery times vary by country and may be subject to customs or import fees.
- Support & Contact: Technical and warranty assistance is available anytime. Contact us here: Contact.
- Purchase Guidance: Check product specifications and compatibility carefully before ordering to ensure proper application.
Tech & Buying Guide
Understanding SCADA vs. HMI: A Technical Guide for Industrial Automation
In the world of factory automation, professionals often use the terms HMI and SCADA interchangeably. However, these systems serve distinct roles within a control hierarchy. Understanding their unique functions is vital for designing efficient industrial automation architectures.
Microcontroller vs. PLC: Choosing the Right Controller for Industrial Automation
Engineers have long sought the perfect balance between flexibility and reliability when controlling complex systems. Today, two primary technologies dominate the landscape: the Microcontroller and the Programmable Logic Controller (PLC). While both serve as the "brain" of a system, they cater to vastly different environments. Understanding their core differences is essential for designing efficient control systems.
Essential DCS Commissioning Steps for Industrial Plant Success
DCS commissioning is the vital bridge between construction and production. This phase validates that industrial automation infrastructure meets its functional design, ensuring safety and long-term reliability. By following rigorous protocols, engineers successfully transition from hardware installation to live process control.