Mitsubishi HK-KT1M3W - Servo Motors
Technical Specifications of Mitsubishi Servo Motors HK-KT1M3W:
| Brand | Mitsubishi |
| Product Type | Servo Motors |
| Product | HK-KT1M3W |
Mitsubishi Servo Motors HK-KT1M3W Technical Specifications:
| Specification | Value |
|---|---|
| Series | MELSERVO-J5 |
| Type | HK-KT |
| Power Supply (V) | 200 |
| Rated Capacity (kW) | 0,15 |
| Inertia | LOW INERTIA |
| Rated Torque (Nm) | 0,48 |
| Maximum Torque (Nm) | 1,7 |
| Rated Speed (rpm) | 3000 |
| Inertia (kg*cm2) | 977 |
| Brake | NO |
| Shaft Type | STRAIGHT SHAFT |
| Current Type | AC |
| Encoder Resolution (p/rev) | 67108864 |
| Maximum Speed (rpm) | 6700 |
| Protection Class | IP67 |
| Encoder Type | 26-BIT |
| Depth (mm) | 105,5 |
| Weight (kg) | 0,47 |
| Width (mm) | 40 |
| Height (mm) | 56,8 |
The Mitsubishi HK-KT1M3W Servo Motor supports precise, small-scale industrial automation where low inertia and controlled torque are essential. The HK-KT1M3W includes 0.15 kW output, 0.48 Nm torque, and a 26-bit encoder to ensure accurate positioning and smooth feedback. With a 200 V AC operating profile, it belongs to the MELSERVO-J5 series and is suited for modern automation architectures requiring lightweight, responsive motors.
This servo motor is applied in compact conveyors, pick-and-place mechanisms, packaging modules, and precision assembly systems. Its low inertia design supports quick acceleration and rapid cycle times, while the straight shaft simplifies mechanical integration. The IP67 protection enhances durability in industrial settings, and the high encoder resolution supports stable operation in synchronized, repetitive movements needed in automated processes.
The Mitsubishi HK-KT1M3W Servo Motor delivers accurate control, dependable torque response, and seamless integration with automation equipment. Its low inertia, high-resolution encoder, and small footprint make the model suitable for OEMs and industrial users needing long-term reliability. As part of the Mitsubishi MELSERVO-J5 ecosystem, the HK-KT1M3W offers consistent performance for continuous-duty applications in precision-driven environments.
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