MHMF302L1G6M Panasonic A6 3000W Motor , Torque Nm - 14.3, RPM - 2000

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MHMF302L1G6M Panasonic A6 3000W Motor , Torque Nm - 14.3, RPM - 2000 Specification

Sealed Type
Packing seal

Product Type
Servo Motor

Color
Black and Silver

Usage & Applications
Industrial Machinery

Weight
13.8 Kilograms (kg)

Warranty
1 Year

Phase
Three Phase

Material
Aluminum

MHMF302L1G6M Panasonic A6 3000W Motor , Torque Nm - 14.3, RPM - 2000 Trade Information

Minimum Order Quantity
1 Number

Delivery Time
24 Hours

About MHMF302L1G6M Panasonic A6 3000W Motor , Torque Nm - 14.3, RPM - 2000

The Panasonic MHMF302L1G6M is a 3000W (3.0 kW) High-Inertia AC servo motor from the MINAS A6 family. It is designed for maximum stability when moving very large or unbalanced industrial loads. [1, 2]

Function

High-Inertia Stability: The motor features a heavy internal rotor that acts as a mechanical stabilizer. Its primary function is to prevent vibrations and "shaking" that occur when moving massive machinery components, ensuring smooth and controlled motion.
Precision Control: It is equipped with a 23-bit absolute/incremental encoder providing 8,388,608 pulses per revolution for micro-degree positioning accuracy.
Harsh Environment Durability: Rated IP67, meaning it is dust-tight and resistant to water immersion, making it suitable for demanding factory floors. [1, 2, 3, 4]

Technical Specifications

Based on official data from Panasonic Industry and retailers like Industrybuying:

Feature [1, 2]	Specification
Rated Output	3000 W (3.0 kW)
Rated Torque	14.3 Nm
Peak Torque	43.0 Nm
Rated Speed	2000 RPM
Max Speed	3000 RPM
Voltage	200 V AC
Holding Brake	Without holding brake

Physical Dimensions & Weight

Converted to imperial units for standard reference:

Weight: Approximately 30.42 lbs (13.8 kg).
Flange Width & Height: 6.93 inches (176 mm square).
Shaft Diameter: 1.378 inches (35 mm).
Mounting Hole Spacing: 9.173 inches (233 mm). [1, 2, 3, 4]

The primary function of the Panasonic MHMF302L1G6M is to provide maximum mechanical stability and power for very large, high-mass industrial loads. It is the "heavyweight stabilizer" of the 3.0 kW A6 range.

1. Maximum Stability (High-Inertia Advantage)

The "High-Inertia" design is its most critical functional feature.

Anti-Vibration: When moving a massive machine part (like a large steel gantry), a lighter motor may cause the system to vibrate or "hunt" for its position. This motor has a heavy internal rotor that acts as a mechanical flywheel, absorbing mechanical shocks and preventing resonance.
Inertia Matching: It is designed specifically for machines with a high "load-to-motor" inertia ratio, ensuring smooth control even when the weight being moved is significantly larger than the motor itself.

2. High-Torque Sustained Power

While high-speed motors focus on agility, this motor is built for sustained force.

Raw Push: It delivers a constant 14.3 Nm of torque (surging to 43.0 Nm peak). This provides the necessary "muscle" to drive large-diameter ball screws and heavy-duty gearboxes that move massive components.
Applications: It is the standard choice for large-scale CNC gantries, heavy material handling robots, and industrial spinning/winding machinery.

3. Precision at Scale

Despite the brute force and heavy loads, it maintain surgical accuracy:

23-bit Resolution: It tracks its position within 8,388,608 increments per single turn. This allows a massive machine part to be positioned within microns of its target.
High Response Frequency: It communicates with the driver 3,200 times per second (3.2 kHz) to instantly correct any deviations in speed or path caused by the heavy load.

4. Rugged Industrial Performance

IP67 Environmental Shield: The motor is functionally sealed against heavy dust, oil mist, and high-pressure water/oil spray. This allows it to work reliably on the "front lines" of heavy manufacturing floors.
Heat Dissipation: Its larger physical size (176mm flange) allows it to dissipate heat efficiently even when running at its rated 2000 RPM for 24/7 production cycles.

5. Smart Feedback

It acts as a diagnostic hub, feeding real-time data back to the driver about its temperature and torque usage. This allows for predictive maintenance, warning the operator of mechanical wear before a breakdown occurs.