Mitsubishi Electric MR-J4W2-1010B MELSERVO-J4 Digital AC-Servo Amplifier

Description

Designed for high-performance multi-axis motion control, the Mitsubishi Electric MR-J4W2-1010B serves as a dual-axis AC servo amplifier operating within the MELSERVO-J4 product line. This unit integrates two independent 1.0 kW drive axes into a single physical housing, significantly reducing panel footprint and simplify cabling. Featuring high-speed SSCNET III/H fiber-optic communication, it provides high-speed synchronous control with real-time feedback. The amplifier is engineered to support rotary, linear, and direct-drive servo motors, adapting to complex motion profiles with integrated vibration suppression and advanced tuning functions.

Features

• Dual-Axis Integration: Operates two 1.0 kW servo motors from a single unit, cutting installation space by up to 30% compared to individual drives.
• SSCNET III/H Protocol: High-speed optical communication system operating at 150 Mbps for precise, noise-immune synchronization.
• Shared DC Bus Architecture: Allows energy regenerated during deceleration on one axis to be dynamically utilized by the other accelerating axis, optimizing overall energy efficiency.
• Advanced One-Touch Tuning: Real-time estimation of mechanical load inertia to automatically set and maintain optimal servo gains.
• Comprehensive Safety Features: Supports Safe Torque Off (STO) to meet industrial functional safety standards.

Applications

• Multi-axis pick-and-place gantry systems
• Packaging, wrapping, and sealing machinery
• Semiconductor and electronics assembly lines
• Precision material handling and sorting systems

Technical Specifications Table

Connections and Interfaces

Empirical Engineering Insights

Alternative Models & Compatibility

When migrating from two separate single-axis MR-J4-100B amplifiers to a single MR-J4W2-1010B unit, ensure you are utilizing MR Configurator2 (version 1.20W or higher). The software treats this dual-axis unit under a single physical station address with sub-axis parameter tabs. Check that your PLC network configuration map has assigned consecutive Axis A and Axis B addresses inside the Simple Motion Module or Motion Controller setup.

Application Pitfalls & Engineering Notes

Since Axis A and Axis B share a single, built-in regenerative resistor, simultaneous deceleration of both high-inertia loads will quickly trigger regenerative overvoltage faults (Fault AL.30 or AL.33). If both axes operate under rapid cyclical start/stop sequences, we strongly advise installing an external regenerative option (such as the MR-RB12) to bypass the internal limits and prevent thermal overload of the integrated bus.

Commissioning & Wiring Tips

SSCNET III/H fiber-optic cables (CN1A and CN1B) are extremely sensitive to particulate contamination. Use dedicated cleaning fluid and lint-free wipes on the fiber ends before mating. A minute dust particle can degrade signal intensity, resulting in intermittent SSCNET command errors (AL.37 or AL.E4). Observe the minimum bending radius of 25 mm for standard fiber cables; tighter bends can attenuate the optical link signal permanently.

Installation Guidelines