Fanuc Corporation| GE Fanuc AC Servo Motor - A06B-0147-B177#7008
The A06B-0147-B177#7008 GE Fanuc AC Servo Motor provides high-precision motion control and efficient performance for industrial automation. Designed for reliability, it supports accurate and stable operation in demanding applications. Ideal for enhancing system efficiency and precision in various automation tasks.
The A06B-0147-B177#7008 GE Fanuc AC Servo Motor is a high-performance component designed for CNC applications. It belongs to the Servo Products category and is engineered for precision and reliability in industrial automation. The motor features a straight shaft design with a keyed shaft (KEY) and includes a built-in brake (BRK) for enhanced safety and control. It is equipped with an i64 encoder for accurate position feedback. The motor operates with a current of 15 A and a phase of 3 PH, with a voltage rating of 157 VAC. It delivers a power output of 3.8 kW and achieves a maximum speed of 2000 RPM. Weighing 85 lbs, the A06B-0147-B177#7008 ensures robust performance and precise motion control in demanding CNC environments.
GE FANUC, now part of Emerson Automation Solutions, was a leading provider of industrial automation and control systems. Known for innovative solutions, GE FANUC played a key role in advancing manufacturing, offering a range of products including PLCs, CNCs, and HMI solutions.
Specifications
Part Number |
A06B-0147-B177#7008 |
Category |
Servo Products |
Subcategory |
Servo Motor |
Weight |
85.00 lbs |
Straight Shaft |
Yes |
Keyed Shaft (KEY) |
Yes |
Brake (BRK) |
Yes |
Encoder |
i64 Encoder |
Current |
15 AMP |
Phase |
3 PH |
Voltage |
157 VAC |
Speed |
2000 RPM |
Power |
3.8 KW |
Application |
CNC |
What Our Experts Think
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Power Output: Provides 3.8 kW of rated power, making it suitable for mid-to-high-end applications that require reliable performance.
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Rated Speed: Operates at a speed of 2000 RPM, ensuring high precision and responsiveness for various industrial processes.
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Voltage and Current: Runs on 157 V AC with a current rating of 15 A, designed for stable operation within these parameters.
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Three-Phase Design: The 3-phase motor configuration ensures efficient performance and smooth operation.
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Encoder: Equipped with an i64 encoder for precise feedback, allowing for accurate control over motor speed and position.
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Enclosure: IP65-rated, making it resistant to dust and water, suitable for use in harsh industrial environments.
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Brake: Includes a 90 V DC brake for enhanced control during stops and to maintain system safety.
Q&A
Q: What is the A06B-0147-B177#7008 AC Servo Motor?
A: It’s a GE Fanuc AC servo motor designed for precise control of speed, torque, and position in industrial automation and motion control systems.
Q: What systems is it compatible with?
A: This AC servo motor is compatible with GE Fanuc servo amplifiers and control systems, ensuring reliable integration in motion control applications.
Q: What does the AC servo motor do?
A: It converts electrical energy into high-precision mechanical motion, offering smooth, efficient control for a variety of automation tasks, including robotics and CNC machining.
Q: Why choose the A06B-0147-B177#7008?
A: It provides excellent performance, high torque density, and precise control, making it ideal for applications requiring reliable, accurate motor operation.
Q: Is this an OEM product?
A: Yes, it’s a genuine GE Fanuc part, ensuring full compatibility, superior performance, and long-lasting reliability in industrial environments.
Maintenance Tips
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Inspect for Physical Damage: Regularly check the motor housing, shaft, and connectors for any signs of damage, such as cracks, wear, or corrosion.
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Clean the Motor: Use dry compressed air or an anti-static brush to remove dust and debris. Do not use liquids or abrasive materials that can cause damage to the motor's components.
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Check Wiring and Connections: Inspect all electrical connections, including power and feedback cables, for secure attachment and any signs of wear, corrosion, or loose connectors.
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Monitor Temperature: Ensure the motor operates within its recommended temperature range. Overheating can cause premature wear or failure of motor components.
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Test Motor Functionality: Regularly test the motor's response to control inputs. Listen for any unusual noises or vibrations and ensure smooth, precise movements without delays or jerking.
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Check Encoder Feedback: Ensure the motor's encoder is functioning properly and providing accurate feedback to the system. Incorrect feedback can lead to positioning errors and poor performance.
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Inspect Bearings and Shaft: Check for any signs of wear, friction, or unusual vibrations in the motor bearings and shaft. Lubricate if needed, following the manufacturer’s guidelines.
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Verify Load Conditions: Ensure the motor is operating within its rated load capacity. Operating under excessive load can lead to overheating and damage.
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Run Diagnostics: Use diagnostic tools to monitor motor performance and check for any fault codes or irregularities. Address any issues promptly to prevent further damage.
