Product Details
Product Overview
The Allen Bradley 2094-BC02-M02-S serves as the primary power and control hub for the Kinetix® 6000 multi-axis servo drive system. This Integrated Axis Module (IAM) consolidates a high-performance converter and a servo inverter into a single chassis-mounted unit. It manages power distribution to downstream AM (Axis Modules) via the shared backplane, significantly streamlining multi-axis motion architectures. We provide this unit as 100% brand new and original, ensuring your high-speed packaging or assembly lines operate with maximum efficiency and integrated safety.
Technical Specifications
The 2094-BC02-M02-S utilizes a 400V-class power structure designed for demanding industrial grids:
| Feature | Specification |
| Voltage Class | 400V-Class |
| Nominal Voltage Range | 360–480V AC |
| Input Voltage Range | 324–528V RMS (Three-Phase) |
| Input Frequency | 47–63 Hz |
| Common Bus DC Input | 458–747V DC |
| Continuous DC Input Current | 22.6 Amps |
| Safe Torque Off (STO) | Integrated (S-Suffix) |
| Line Loss Ride-Through | 20 ms |
| Internal Shunt Resistor | 115 Ohms |
| Bus Overvoltage Trip | 825V DC |
| Net Weight | 16.00 lbs (7.26 kg) |
Engineering Advantages
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Integrated Safety (Safe Torque Off): The "S" suffix indicates the inclusion of the Safe Torque Off feature. This hardware-based safety circuit disables the drive output without removing main power, meeting rigorous global safety standards while reducing restart times after safety interruptions.
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Shared Bus Efficiency: The IAM architecture manages the DC common bus for the entire Kinetix 6000 rail. This allows for energy sharing between motoring and regenerating axes, which significantly lowers total energy consumption and heat dissipation within the control cabinet.
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Compact Power Density: By combining the converter and inverter functions, the 2094-BC02-M02-S eliminates the need for a separate power supply module. This compact design reduces the required panel width, allowing for more axes in a smaller enclosure.
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Advanced Power Resiliency: The 20 ms line loss ride-through capability ensures the drive maintains control during minor voltage sags or brownouts. This feature prevents nuisance trips that often lead to scrapped products in high-precision manufacturing.
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Simplified Hardware Scalability: The IAM powers the backplane for additional 2094 Axis Modules. Engineers can add or replace modules on the rail with minimal wiring, facilitating rapid machine scaling or maintenance.
FAQs
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What is the primary function of the internal 115 Ohm shunt resistor?
The internal shunt resistor dissipates regenerative energy produced by the motor during rapid deceleration. If your application involves high-inertia loads, the IAM monitors the DC bus voltage and activates the shunt to prevent overvoltage faults (825V DC).
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Does this 2094-BC02-M02-S require an external 24V DC source?
Yes. While the module manages high-voltage power for the motors, you must provide a separate 24V DC control power source to energize the logic circuitry and the safety headers.
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Is this a genuine, factory-sealed Allen Bradley original?
Absolutely. We guarantee that every 2094-BC02-M02-S unit we ship is 100% brand new in its original Allen Bradley packaging. Each unit carries the verified UPC (820919595677) to ensure E-E-A-T procurement compliance.
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Can I use this IAM with a common bus follower configuration?
Yes. This module supports DC input (458–747V DC) with a continuous current rating of 22.6 Amps when operating as a common bus follower, providing flexibility for complex power-sharing drive arrays.
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
Mastering PLC Programming: Best Practices for Robust Industrial Automation
Writing clean PLC code requires discipline, especially regarding memory management. Avoid overusing SET and RESET instructions, as they often complicate debugging. If multiple rungs control the same bit, troubleshooting becomes a nightmare. Instead, focus on energizing a bit in only one location. If your logic requires complex conditions, use branches within a single rung. This approach keeps your code readable, maintainable, and significantly easier to audit during downtime.
PLC vs. HMI: Distinguishing the Brain from the Interface in Industrial Automation
In the realm of industrial automation, distinguishing between a Programmable Logic Controller (PLC) and a Human-Machine Interface (HMI) is fundamental. While both devices work in tandem, they serve distinct purposes. The PLC acts as the "brain" of the operation, executing logic, whereas the HMI serves as the "eyes," allowing operators to monitor and interact with the system. Understanding this synergy is essential for any professional designing robust factory automation solutions.
Selecting the Right Industrial Automation Solution for Modern Manufacturing
Choosing an effective industrial automation system starts with a thorough process audit. You must identify tasks that are repetitive, labor-intensive, or prone to human error. Not every process requires high-level automation; therefore, prioritize operations that directly impact throughput and quality. By scoping your needs accurately, you avoid over-investing in unnecessary technology. A balanced approach ensures that your capital expenditure aligns with measurable gains in operational efficiency.