During technical comparisons, MITSUBISHIELECTRIC-HG-SR2024B appears alongside Mitsubishi VFD, Mitsubishi Mitsubishielectric Mr Jet 70G and Mitsubishi Electric so engineers assess signal types, ingress protection, and ambient tolerances accurately.
Mitsubishi HG-SR2024B - Servo Motors
Technical Specifications of Mitsubishi Servo Motors HG-SR2024B:
| Brand | Mitsubishi |
| Product Type | Servo Motors |
| Product | HG-SR2024B |
Mitsubishi Servo Motors HG-SR2024B Technical Specifications:
| Specification | Value |
|---|---|
| Series | MELSERVO-J4 |
| Type | HG-SR |
| Power Supply (V) | 400 |
| Rated Capacity (kW) | 2 |
| Inertia | MEDIUM INERTIA |
| Rated Torque (Nm) | 9,5 |
| Maximum Torque (Nm) | 28,6 |
| Rated Speed (rpm) | 2000 |
| Inertia (kg*cm2) | 56,5 |
| Brake | YES |
| Shaft Type | STRAIGHT SHAFT |
| Current Type | AC |
| Encoder Resolution (p/rev) | 4194304 |
| Maximum Speed (rpm) | 3000 |
| Protection Class | IP67 |
| Encoder Type | 22-BIT |
| Depth (mm) | 267 |
| Weight (kg) | 17 |
| Width (mm) | 176 |
| Height (mm) | 228,9 |
The Mitsubishi HG-SR2024B Servo Motor is a medium inertia 2 kW drive built for controlled and repeatable motion in industrial automation. The model delivers 9.5 Nm rated torque, 2000 rpm rated speed, and a 22-bit encoder for accurate positional detection. As part of the MELSERVO-J4 series, the HG-SR2024B ensures stable, consistent performance in continuous-duty applications.
This servo motor is suitable for conveyors, packaging equipment, automated assembly lines, and material-handling systems requiring dependable torque and braking. Its 3000 rpm maximum speed, AC-driven operation, and IP67 protection allow reliable use in harsh production environments with vibration, dust, and moisture exposure. The built-in brake enhances load control in vertical or motion-sensitive applications.
The Mitsubishi HG-SR2024B Servo Motor offers precise encoder feedback, steady torque characteristics, and durable construction ideal for industrial machinery. Backed by Mitsubishi’s engineering quality, the model supports long service cycles, predictable machine movement, and reliable integration into demanding automation systems.
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