Contents

Safety Instructions
DISPOSAL OF WASTE
U.S. customary units
CONTENTS
1. INTRODUCTION
- 1.1 Rating plate
- 1.2 Parts identification
- 1.3 Electromagnetic brake
- 1.4 Servo motor shaft shapes
2. INSTALLATION
- 2.1 Mounting direction
- 2.2 Load mounting/dismounting precautions
- 2.3 Permissible load for the shaft
- 2.4 Protection from oil and water
- 2.5 Cable
- 2.6 Servo motor with oil seal
- 2.7 Inspection items
- 2.8 Parts having service lives
- 2.9 Machine accuracies
3. CONNECTORS USED FOR SERVO MOTOR WIRING
- 3.1 Selection of connectors
- 3.2 Wiring connectors (connector configurations A/B/C)
- 3.3 Wiring connectors (connector configurations D/E/F/G)
4. CONNECTION OF SERVO AMPLIFIER AND SERVO MOTOR
- 4.1 Connection instructions
- 4.2 Wiring
  - 4.2.1 HF-KN series servo motor
  - 4.2.2 HF-SN series servo motor
- 4.3 Selection example of wires
5. WIRING OPTION
- 5.1 Cable/connector sets
  - 5.1.1 Combinations of cable/connector sets
  - 5.1.2 Cable and connector list
- 5.2 Encoder cable/connector sets
- 5.3 Servo motor power cable
- 5.4 Electromagnetic brake cable
- 5.5 Wires for option cables
6. HF-KN SERIES
- 6.1 Model designation
- 6.2 Combination list of servo motors and servo amplifiers
- 6.3 Standard specifications
  - 6.3.1 Standard specifications list
  - 6.3.2 Torque characteristics
- 6.4 Electromagnetic brake characteristics
- 6.5 Servo motors with special shafts
  - 6.5.1 Key shaft (with 2 round end key)
  - 6.5.2 D cut shaft
- 6.6 Servo motor with oil seal
- 6.7 Mounting connectors
- 6.8 Dimensions
  - 6.8.1 Standard (without an electromagnetic brake)
  - 6.8.2 With an electromagnetic brake
7. HF-SN SERIES
- 7.1 Model designation
- 7.2 Combination list of servo motors and servo amplifiers
- 7.3 Standard specifications
  - 7.3.1 Standard specifications list
  - 7.3.2 Torque characteristics
- 7.4 Electromagnetic brake characteristics
- 7.5 Servo motors with special shafts
- 7.6 Servo motor with oil seal
- 7.7 Dimensions
  - 7.7.1 Standard (without an electromagnetic brake)
  - 7.7.2 With an electromagnetic brake
APPENDIX
- App. 1 Servo motor ID codes
- App. 2 Manufacturer list
- App. 3 Compliance with the CE marking
- App. 4 Compliance with UL/CSA standard
- App. 5 Selection example of servo motor power cable
- App. 6 Connector dimensions
REVISION
Country/Region
Warranty

Mitsubishi Electric HFKN, HFSN Instruction Manual

Mitsubishi Electric HFKN, HFSN manual cover

Pages 96

Year 2013

Language(s)

of 96

Mitsubishi Electric HFKN, HFSN Specification

The Mitsubishi Electric HFKN and HFSN series are advanced servo motors engineered for precision and efficiency in industrial applications. These motors are part of the company's renowned MELSERVO-J4 series, known for their high speed, accuracy, and reliability. Both the HFKN and HFSN models are designed with a compact form factor, allowing for easy integration into a variety of manufacturing environments where space is a premium.

The HFKN series features a power range that caters to mid-level applications, providing a balance between performance and energy efficiency. It is equipped with a high-resolution absolute encoder, enhancing its precision and ensuring smooth operation across various tasks. The encoder capability supports seamless feedback integration, which is essential for applications demanding high accuracy and dynamic response.

In contrast, the HFSN series is tailored for high-speed operations, making it ideal for applications requiring rapid acceleration and deceleration. It boasts an optimized rotor design, reducing inertia and enabling faster response times. This series also incorporates advanced thermal management technologies, ensuring consistent performance even under demanding operational conditions.

Both motor series are compatible with Mitsubishi's latest servo amplifiers, which include features such as real-time auto-tuning and advanced vibration suppression for enhanced system stability. They support a wide range of communication protocols, ensuring seamless integration with existing automation systems. The robust construction of these motors, coupled with their advanced features, makes them suitable for use in sectors such as robotics, semiconductor manufacturing, and packaging.

Overall, the Mitsubishi Electric HFKN and HFSN servo motors offer a versatile solution for various industrial needs, combining high performance with reliability and energy efficiency, ensuring they meet the rigorous demands of modern manufacturing processes.

Mitsubishi Electric HFKN, HFSN F.A.Q.

How do I perform a factory reset on the Mitsubishi Electric HFKN servo motor?

To perform a factory reset on the HFKN servo motor, access the control panel, navigate to the settings menu, and select the 'Factory Reset' option. Confirm your selection and wait for the process to complete.

What are the recommended maintenance practices for the HFSN servo motor?

Regularly inspect the servo motor for dust and debris, ensure proper lubrication of moving parts, and check electrical connections for signs of wear or corrosion. Perform these checks every 6 months.

How can I troubleshoot a communication error in the HFKN series?

First, check the cable connections between the servo motor and the controller. Ensure all cables are securely connected. If the issue persists, use diagnostic tools to check for signal integrity issues or refer to the user manual for error code definitions.

What is the procedure for updating the firmware on an HFSN servo motor?

Download the latest firmware from the Mitsubishi Electric website. Connect the servo motor to a computer via USB or Ethernet. Use the Mitsubishi Electric firmware update tool to upload the new firmware to the servo motor.

How do I adjust the speed settings on the HFKN servo motor?

Access the servo motor's control interface, navigate to the speed settings section, and manually enter the desired speed value. Save the changes and restart the motor to apply the new settings.

What should I do if the HFSN motor overheats during operation?

Stop the motor immediately and allow it to cool down. Check for obstructions in the ventilation areas and ensure the motor is not overloaded. Inspect the cooling system and verify that it is functioning properly.

How can I improve the energy efficiency of my HFKN servo motor system?

Ensure the motor is properly sized for the application, regularly maintain it to reduce friction losses, and optimize the control algorithms for efficient operation. Consider upgrading to high-efficiency components if available.

What are the common causes of vibration in HFSN servo motors and how can they be mitigated?

Common causes include misalignment, imbalance, and loose components. To mitigate, regularly check alignment, balance the rotor assembly, and ensure all bolts and fasteners are tightened to the manufacturer's specifications.

How do I replace the encoder on a Mitsubishi Electric HFKN servo motor?

First, disconnect the power supply to the motor. Remove the protective cover and disconnect the encoder from the motor shaft. Install the new encoder by reversing the removal process, ensuring it is properly aligned and secured. Reconnect the power supply and test the motor.

What is the best method for aligning an HFSN servo motor with a mechanical load?

Use a laser alignment tool for precise alignment. Adjust the position of the motor and load until the laser indicates perfect alignment. Secure the motor in place and recheck the alignment to ensure accuracy.