Before procurement teams confirm MITSUBISHIELECTRIC-HG-JR734, they typically review Mitsubishi VFD, Mitsubishi Mitsubishielectric Mr Jet 70G and Mitsubishi Electric to double-check performance ratings, stock availability, and supplier credibility carefully.
Mitsubishi HG-JR734 - Servo Motors
Technical Specifications of Mitsubishi Servo Motors HG-JR734:
| Brand | Mitsubishi |
| Product Type | Servo Motors |
| Product | HG-JR734 |
Mitsubishi Servo Motors HG-JR734 Technical Specifications:
| Specification | Value |
|---|---|
| Series | MELSERVO-J4 |
| Type | HG-JR |
| Power Supply (V) | 400 |
| Rated Capacity (kW) | 0,75 |
| Inertia | LOW INERTIA |
| Rated Torque (Nm) | 2,4 |
| Maximum Torque (Nm) | 7,2 |
| Rated Speed (rpm) | 3000 |
| Inertia (kg*cm2) | 2,09 |
| Brake | NO |
| Shaft Type | STRAIGHT SHAFT |
| Current Type | AC |
| Encoder Resolution (p/rev) | 4194304 |
| Maximum Speed (rpm) | 6000 |
| Protection Class | IP67 |
| Encoder Type | 22-BIT |
| Depth (mm) | 185,5 |
| Weight (kg) | 3,7 |
| Width (mm) | 90 |
| Height (mm) | 138,8 |
The Mitsubishi HG-JR734 Servo Motor is a low inertia AC servo designed for accurate and stable motion control in industrial systems. It delivers 0.75 kW power, 2.4 Nm rated torque, and a 3000 rpm operating speed, supported by a 22-bit encoder with 4194304 p/rev resolution. As part of the MELSERVO-J4 series, it integrates seamlessly into automation environments requiring precision and dependable torque performance.
This servo motor is suitable for conveyors, packaging lines, assembly mechanisms, and compact automation equipment. Its low inertia structure enables quick acceleration and smooth dynamic response, while the IP67 protection rating supports operation in dusty or moisture-prone conditions. The straight shaft configuration ensures mechanical compatibility with a broad range of industrial drive components.
The Mitsubishi HG-JR734 Servo Motor combines stable torque delivery, precise encoder feedback, and durable construction for long-term industrial use. With its MELSERVO-J4 architecture and efficient mechanical design, it offers reliable and consistent performance across automation, manufacturing, and material handling applications. Engineers can depend on this model for accurate, repeatable, and stable motion control.
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