Skip to content

What are you looking for?


You may also like

2094-BC04-M03-M | Allen Bradley | Kinetix 6200 Integrated Axis Module2094-BC04-M03-M | Allen Bradley | Kinetix 6200 Integrated Axis Module2094-BC04-M03-M | Allen Bradley | Kinetix 6200 Integrated Axis Module
2094-BC04-M03-M | Allen Bradley | Kinetix 6200 Integrated Axis Module
2094-BC04-M03-M | Allen Bradley | Kinetix 6200 Integrated Axis Module
2094-BC04-M03-M | Allen Bradley | Kinetix 6200 Integrated Axis Module

2094-BC04-M03-M | Allen Bradley | Kinetix 6200 Integrated Axis Module


Only 10 left - Selling fast

PRODUCT SKU : 2094-BC04-M03-M

PRODUCT TYPE : Axis Module

PRODUCT VENDOR : Allen-Bradley


  • 100% Genuine Parts – Risk-Free 30-Day Returns
  • 1-Year Warranty & Expert Support for Every Order

Product Details

Product Overview

The Allen Bradley 2094-BC04-M03-M operates as a foundational Integrated Axis Module (IAM) for the Kinetix 6200 multi-axis servo drive platform. This heavy-duty 460V-class module consolidates both the rectifier stage and an inverter axis into a single physical unit. It rectifies incoming three-phase AC factory line power to provide a high-capacity 27.6 kW DC bus link that powers adjacent slotted follower axes across a shared power rail system.

We supply this component strictly as a 100% brand new, original factory-sealed unit to eliminate the mechanical and thermal fatigue vectors common in secondhand components, ensuring predictable performance on critical motion lines.

Technical Specifications

The electrical, protection, and installation requirements of the power module include the following parameters:

Parameter Engineering Rating / Specification
Manufacturer Allen Bradley / Rockwell Automation
Part Number / UPC 2094-BC04-M03-M / 884951147799
Product Line Kinetix 6200 Servo System
Power Module Type Integrated Axis Module (IAM)
AC Input Grid Voltage 324…528V RMS, Three-Phase (360…480V Nominal)
Control Voltage Input 95…264V RMS, Single-Phase (110…240V Nominal)
Continuous Power Output to Bus 27.6 kW
Continuous Output Current to Bus 41.5 A
Axis Output Current 30 A (13 kW Wattage Rating)
Bus Overvoltage Trip Threshold 825 VDC
Bus Undervoltage Trip Threshold 275 VDC
Maximum Bus Capacitance 8955 µF
Power Dissipation Window 94 - 255 Watts
Operating Temperature Envelope 0°C to 50°C (32°F to 122°F)
Net Weight 22.00 lbs (9.98 kg)

Engineering Advantages

  • Stabilizes DC Rails Against Voltage Sags: The internal 8955 µF capacitor bank absorbs massive load spikes during heavy multi-axis acceleration. This high capacitance prevents the DC bus voltage from dipping into the 275 VDC undervoltage fault zone, allowing continuous machine operation even on unstable regional grids.

  • Streamlines High-Power Thermal Extraction: Despite an output of 27.6 kW to the shared bus, efficient power semiconductors restrict module heat loss to a maximum of 255 Watts. By enforcing a strict 50.8 mm (2.0 in.) vertical clearance zone during panel assembly, natural and forced cabinet airflow paths swiftly clear thermal energy away from sensitive control logic.

  • Eliminates Custom Power Backplane Design: This module drops into enclosures requiring a minimum depth of 272 mm (10.7 in.). It distribution rails plug directly into neighboring axes without long, shielded inter-axis cabling runs, eliminating electromagnetic interference (EMI) coupling and loop-noise issues that typically plague standalone drive architectures.

FAQs

  • What specific branch circuit overcurrent devices must engineers use to protect the control voltage inputs of the 2094-BC04-M03-M?

    To comply with factory safety ratings, technicians must install Bussmann style FNQ-R-10 (10 A) or FNQ-R-7.5 (7.5 A) fuses on the control input power path. Alternatively, Allen Bradley 1492-SPM2D060 or 1492-SPM1D150 circuit breakers meet the upstream short-circuit protection requirements.

  • How does the drive protect its internal inverter circuit if a field motor short-circuits?

    The drive firmware monitors current draw continuously at the output terminals. If the phase current spikes past safe limits, the module activates its internal overcurrent trip routine and isolates the output gate drivers within microseconds, shielding the central 13 kW power stage from destructive thermal surges.

  • Can this module function without a standalone control card installed on its front face?

    No. The 2094-BC04-M03-M constitutes the raw power structure of the drive. The unit requires a front-mount Kinetix 6200 control module (such as an EtherNet/IP control module) to execute control loops, manage safety functions, and process network communications. Always slide the control module firmly into place and engage the locking tabs before applying AC line voltage.

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.




Recently Viewed Products

Tech & Buying Guide

Technical Insights, Installation Guides, and Buying Tips
Essential Maintenance Guide for PLC, DCS, and ESD Marshalling Cabinets

Essential Maintenance Guide for PLC, DCS, and ESD Marshalling Cabinets

Marshalling cabinets serve as the vital interface between field instrumentation and your core control systems. In large-scale industrial automation, these panels house the intricate wiring for PLC, DCS, and Emergency Shutdown (ESD) systems. Regular, systematic health checks are non-negotiable to ensure operational reliability and prevent costly unplanned downtime.

Read more
Industrial PC vs. Commercial PC: Selecting the Right Hardware for Automation

Industrial PC vs. Commercial PC: Selecting the Right Hardware for Automation

In the demanding world of factory automation, selecting the correct computing platform is critical for system reliability. While commercial PCs power our daily lives, they often fail when subjected to the harsh realities of the production floor. Understanding the fundamental differences between an Industrial PC (IPC) and a standard office PC helps engineers optimize control systems for longevity and performance.

Read more
Core Components of Programmable Logic Controllers (PLC) in Industrial Automation

Core Components of Programmable Logic Controllers (PLC) in Industrial Automation

A Programmable Logic Controller (PLC) serves as the digital backbone of modern factory automation. Whether you are managing complex assembly lines or simple process loops, understanding the hardware and software architecture of a PLC is essential for any control systems engineer.

Read more