Dual-Axis Servo Encoder Interface | Allen Bradley 1756-M02AE

Availability: 20 left in stock

Product Overview The Allen Bradley 1756-M02AE delivers high-performance, closed-loop motion control for the ControlLogix platform. This module manages two independent analog axes...

SKU: 1756-M02AE

Manufacturer: Allen Bradley
Product No.: 1756-M02AE
Product Type: Motion Control Modules
Product Origin: USA
Payment:T/T, Western Union
Weight: 380g
Shipping port: Xiamen
Warranty: 12 months

Description Reviews

Product Overview

The Allen Bradley 1756-M02AE delivers high-performance, closed-loop motion control for the ControlLogix platform. This module manages two independent analog axes by interfacing with servo or stepper drives via ±10V velocity or torque commands. It utilizes high-speed quadrature encoder inputs to achieve precise position and velocity synchronization. By offloading complex motion trajectories from the main CPU, the 1756-M02AE ensures deterministic performance for demanding applications. We supply this unit as 100% Brand New and Original, providing the 16-bit resolution and 4MHz feedback frequency required for sophisticated robotics, packaging, and material handling systems.

Technical Specifications

Parameter	Details
Manufacturer	Allen Bradley (Rockwell Automation)
Model Number	1756-M02AE
Module Type	Analog Servo / Encoder Interface
Number of Axes	2 Independent Analog Axes
Servo Output Type	Analog Voltage (±10V)
Output Resolution	16 Bits
Feedback Input	Incremental AB Quadrature with Marker (Z-channel)
Encoder Frequency	Up to 4 MHz
Position/Velocity Resolution	32-bit
Discrete Inputs	24V DC Optically Isolated, Current Sinking
Backplane Current (5V)	700 mA
Backplane Current (24V)	2.5 mA
Isolation Voltage	50 Volts Continuous (Channel-to-System)
Operating Temperature	0 °C to 60 °C (32 °F to 140 °F)

Engineering Advantages

High-Speed Feedback Processing: The module accepts quadrature encoder signals up to 4 MHz. This high frequency allows the system to maintain sub-micron positioning accuracy even at high motor velocities, eliminating the "lost pulses" common in lower-bandwidth interfaces.
Precision Analog Command Control: With 16-bit output resolution, the 1756-M02AE provides extremely smooth velocity transitions. This fine granularity prevents mechanical jitter in sensitive applications like printing or high-speed labeling where inconsistent torque commands cause material waste.
Integrated Drive Diagnostics: The module features dedicated 24V DC optically isolated inputs for drive status monitoring (e.g., Drive OK, Home, Registration). This hardware integration allows the ControlLogix system to respond to field faults in microseconds, bypassing standard I/O scan times to protect mechanical components.
Coordinated Multi-Axis Motion: Within the Studio 5000 environment, the 1756-M02AE synchronizes seamlessly with other 1756 motion modules. Engineers can program complex electronic gearing and camming profiles across multiple axes, leveraging the module’s 32-bit position resolution for absolute synchronization.

FAQs

Can the 1756-M02AE control stepper drives?

Yes, provided the stepper drive accepts a ±10V analog velocity or torque command. While many steppers use Step/Direction (Pulse) logic, the 1756-M02AE excels in "closed-loop" stepper applications where an encoder provides feedback to the module to correct for missed steps.

What is the maximum distance between the module and the encoder?

The 4 MHz frequency capability requires high-quality shielded twisted-pair cabling. For optimal signal integrity, keep cable runs within the encoder manufacturer's specifications (typically under 30 meters for high-speed quadrature) to prevent signal attenuation and electromagnetic interference.

Does this module require a separate motion controller?

No. The 1756-M02AE resides in the ControlLogix chassis and communicates directly with the Logix controller (e.g., 1756-L7 or L8 series). The controller executes the motion instructions (MAG, MAJ, MAP), and the 1756-M02AE handles the physical signal conversion and encoder loop.

How do I handle an axis "Drive Fault" signal?

Connect the drive's fault contact to the optically isolated discrete inputs on the 1756-M02AE. You can configure the module in software to automatically disable the servo loop and trigger a system-wide E-stop routine the moment it detects a fault signal, ensuring machine safety.

What's clients say about us

Excellent Emergency Support!

Our production line was down due to a faulty Bently Nevada monitor. We found it in stock here and they shipped it via DHL immediately. Back in operation within 48 hours—truly a lifesaver for our plant.

Mark Thompson

Maintenance Manager, USA

Reliable Source for New Spares

Finding brand new, original modules is critical for our safety. This team delivers factory-fresh components with full certification. Their commitment to only selling new products makes them our most trusted partner.

Robert Hoffmann

Engineering Lead, Germany

Top-tier Service and Quality

We have sourced Honeywell and Schneider parts here for two years. Every shipment arrives well-packaged with original factory seals intact. Clear communication and the best lead times in the industry.