Product Description
Panasonic MINAS A5 MSME154G1G Servo Motor – 400V 1500W
The Panasonic MINAS A5 MSME154G1G Servo Motor is engineered for high-performance applications requiring precision control and robust power delivery. This advanced servo motor operates at 400V with a power rating of 1500W, making it ideal for a wide range of industrial automation and robotics applications.
Key Features:
High Power and Efficiency: With a nominal power of 1500W and operating voltage of 400V, the MSME154G1G provides high torque and efficiency, ensuring optimal performance in demanding environments.
Precision Control: The servo motor is designed to deliver precise motion control, thanks to its advanced feedback systems and high-resolution encoder. This ensures accurate positioning and smooth operation in critical applications.
Durable Construction: Built with robust materials and engineered to withstand harsh conditions, the MINAS A5 MSME154G1G is highly durable, offering long-term reliability and reduced maintenance requirements.
Compact and Versatile Design: The motor’s compact design allows for easy integration into various machinery and systems, providing flexibility in system design and installation.
Advanced Heat Dissipation: Equipped with an efficient cooling system, the MSME154G1G maintains optimal operating temperatures, preventing overheating and ensuring consistent performance.
Enhanced Safety Features: The servo motor includes built-in safety mechanisms to protect against electrical faults and mechanical failures, enhancing overall system safety and reliability.
Applications:
- Robotics
- CNC Machines
- Automated Manufacturing
- Packaging Machinery
- Material Handling Systems
The Panasonic MINAS A5 MSME154G1G Servo Motor is an excellent choice for applications requiring high torque, precision, and durability. Its advanced features and robust construction make it a reliable component for achieving superior performance in various industrial automation tasks.
Panasonic MINAS A5 Family MSME154G1G Servo Motor 400V 1500W
Spec Detail
Item | Specifications |
---|---|
Part Number | MSME154G1G |
Details | Low inertia, Connector type, IP67 |
Family Name | MINAS A5 |
Series | MSME Series |
Type | Low inertia |
Enclosure | IP67 |
About Enclosure | Except rotating portion of output shaft and connecting pin part of the motor connector and the encoder connector. |
Environmental Conditions | For more details, please refer to the instruction manual. |
Flange sq. dimension | 100 mm sq. |
Flange sq. dimension (Unit:mm) | 100 |
Motor lead-out configuration | Connector |
Motor encoder connector | Connector |
Power supply capacity (kVA) | 2.3 |
Voltage specifications | 400 V |
Rated output | 1500 W |
Rated current (A (rms)) | 4.2 |
Holding brake | without |
Mass (kg) | 4.4 |
Oil seal | with |
Shaft | Key-way |
Rated torque (N ⋅ m) | 4.77 |
Momentary Max. peak torque (N ⋅ m) | 14.3 |
Max. current (A (o-p)) | 18 |
Regenerative brake frequency (times/min) | Without option :No limit With option :No limit Option (External regenerative resistor) Part No. : DV0PM20048 |
About regenerative brake frequency | Please refer to the details of [Motor Specification Description] , Note: 1, and 2. |
Rated rotational speed (r/min) | 3000 |
Rated rotational Max. speed (r/min) | 5000 |
Moment of inertia of rotor ( x10-4 kg ⋅ m²) | 2.84 |
Recommended moment of inertia ratio of the load and the rotor | 15 times or less |
About recommended moment of inertia ratio of the load and the rotor | Please refer to the details of [Motor Specification Description] ,Note: 3. |
Rotary encoder: specifications | 20-bit Incremental system |
Rotary encoder: Resolution | 1048576 |
Permissible load
Item | Specifications |
---|---|
During assembly: Radial load P-direction (N) | 980 |
During assembly: Thrust load A-direction (N) | 588 |
During assembly: Thrust load B-direction (N) | 686 |
During operation: Radial load P-direction (N) | 490 |
During operation: Thrust load A, B-direction (N) | 196 |
About permissible load | For details, refer to the [Motor Specification Description] "Permissible Load at Output Shaft". |