Contents

MD-CX520 INSTRUCTION MANUAL
Please read here first
Safety Instructions
CONTENTS
1. PRE-OPERATION INFORMATION
- 1.1 Checking the Product
  - 1.1.1 Contents
  - 1.1.2 Model
  - 1.1.3 Drive units to be used with motors
- 1.2 Parts Identification
- 1.3 Handling of Covers and Operation Panel
  - 1.3.1 Removal and reinstallation of the front cover
  - 1.3.2 Removal and reinstallation of the wiring cover
  - 1.3.3 Removal and reinstallation of the operation panel
- 1.4 Transportation
- 1.5 Storage
2. INSTALLATION
- 2.1 Checking the Installation Environment
  - 2.1.1 Operating environment
  - 2.1.2 Installation in enclosure
- 2.2 Preparation of Peripheral Devices
  - 2.2.1 Basic configuration
  - 2.2.2 Selection of peripheral devices
- 2.3 Installation Method
3. WIRING
- 3.1 Pre-Wiring Instructions
  - 3.1.1 Terminal connection diagram
  - 3.1.2 Electromagnetic noise
- 3.2 Wiring of the Main Circuit Terminals
  - 3.2.1 Terminals
  - 3.2.2 Terminal layout and connection specifications
  - 3.2.3 Wiring of the AC power input terminals R, S, T
  - 3.2.4 Wiring of the motor connection terminals U, V, W
  - 3.2.5 Wiring of the earth (ground) terminals
  - 3.2.6 Wiring of the DC reactor connection terminals P/+, P1
  - 3.2.7 Wiring of the brake resistor connection terminals P/+, PR
  - 3.2.8 Wiring of the DC terminals P/+, N/-
- 3.3 Wiring of the Control Circuit Terminals
  - 3.3.1 Terminals
  - 3.3.2 Terminal layout and connection specifications
  - 3.3.3 Wiring of the contact input terminals
  - 3.3.4 Wiring of the speed command input terminals
  - 3.3.5 Wiring of the transistor output terminals
  - 3.3.6 Wiring of the contact output terminals
  - 3.3.7 Wiring of the instrument connection terminals
- 3.4 Wiring of the PU Connector
  - 3.4.1 Pin layout
  - 3.4.2 Using the cable to connect the operation panel
  - 3.4.3 System configuration examples for communication operation
  - 3.4.4 Wiring methods for communication operation
4. HANDLING OF OPERATION PANEL
- 4.1 Parts Identification and Function
- 4.2 Operation Detail
- 4.3 Operation Method
- 4.4 Restrictions with FR-PU04
5. OPERATION
- 5.1 Power On
- 5.2 Parameter Setting
  - 5.2.1 Selecting the operation mode parameters
  - 5.2.2 Checking the basic parameters
- 5.3 Operation Example
  - 5.3.1 PU operation mode
  - 5.3.2 External operation mode
  - 5.3.3 External/PU combined operation mode 1
  - 5.3.3 External/PU combined operation mode 1
  - 5.3.5 Operation at start
6. TROUBLESHOOTING
- 6.1 Message Displayed on the Operation Panel
  - 6.1.1 Protective function activated
  - 6.1.2 Alarm function activated
  - 6.1.3 Others
  - 6.1.4 Correspondences between digital and actual characters
- 6.2 Abnormal Motor Operation
- 6.3 Malfunction Due to Electromagnetic Noise and the Corresponding Countermeasures
- 6.4 Maintenance and Inspection
  - 6.4.1 Inspection
  - 6.4.2 Wear parts
  - 6.4.3 Cooling fan replacement method
  - 6.4.4 Power measurement at circuits
7. SPECIFICATIONS
- 7.1 Drive Unit Specifications
  - 7.1.1 Standard specifications
  - 7.1.2 Outline drawings
  - 7.1.3 Option list
- 7.2. Motor Specifications
  - 7.2.1 Standard specifications
8. PARAMETER FUNCTIONS
- 8.1 Protection and Editing of the Parameters
- 8.2 Selection of Operation Mode
- 8.3 Selection of the Speed Command
  - 8.3.1 Selection of the analog speed command specifications
  - 8.3.2 Variable-speed operation using contact input signals
- 8.4 Selection of the Control Circuit Contact Input Terminal Functions
- 8.5 Setting of the Operation Pattern
  - 8.5.1 Running speed region
  - 8.5.2 Acceleration time and deceleration time
  - 8.5.3 Stop operation
  - 8.5.4 Selection of regenerative brake unit
  - 8.5.5 Stall prevention operation level
  - 8.5.6 Motor sound selection
  - 8.5.7 Other settings
- 8.6 Communication operation from the PU connector
- 8.7 Monitoring of Operation Status
  - 8.7.1 Selection of operation panel display data
  - 8.7.2 Selection of the control circuit output terminal functions
  - 8.7.3 Detection of running speed
  - 8.7.4 Detection of output current
  - 8.7.5 Selection of the instrument connection terminal functions
- 8.8 Control Parameters
APPENDIX
- APPENDIX 1 Parameter List (Numerical Order)
REVISIONS

Mitsubishi MD-CX520-0.5K Instruction Manual

Mitsubishi MD-CX520-0.5K Magnetic Motor manual cover

Pages 156

Year 2011

Language(s)

of 156

Mitsubishi MD-CX520-0.5K Magnetic Motor Specification

The Mitsubishi MD-CX520-0.5K Magnetic Motor is a compact and efficient device designed for precision-driven applications requiring reliable performance and durability. It boasts a power output of 0.5 kilowatts, suitable for small to medium-sized industrial and commercial uses. The motor operates with a high-efficiency magnetic flux design, enhancing energy conservation while maintaining consistent torque and speed stability. It features an advanced cooling system that ensures optimal operating temperatures, thereby extending the motor's lifespan and maintaining performance integrity under continuous operation.

The motor's construction emphasizes durability, utilizing high-grade materials resistant to wear and corrosion, ensuring minimal maintenance requirements. Its design incorporates advanced noise-reduction technology, resulting in quieter operation, which is ideal for environments where noise pollution is a concern. The Mitsubishi MD-CX520-0.5K is compatible with various control systems, offering flexibility for integration into existing infrastructures or new installations. It supports a range of input voltages, which facilitates its use in different regions with varying electrical standards.

Safety features include thermal overload protection and an enclosed casing to prevent dust and moisture ingress, contributing to its robust performance in diverse environments. The motor also complies with international safety and efficiency standards, ensuring it meets regulatory requirements for operation in multiple jurisdictions. Users benefit from Mitsubishi's reputation for quality and innovation, with the MD-CX520-0.5K offering a reliable solution for demanding applications requiring a balance of power and efficiency. Its compact size allows for easy installation and integration, making it a versatile choice for sectors such as manufacturing, automation, and energy management.

Mitsubishi MD-CX520-0.5K Magnetic Motor F.A.Q.

What is the recommended installation procedure for the Mitsubishi MD-CX520-0.5K Magnetic Motor?

Ensure that the motor is mounted on a stable surface to prevent vibrations. Use the mounting holes provided and secure with appropriate bolts. Ensure electrical connections are made according to the manufacturer's wiring diagram.

How do I perform a basic troubleshooting check if the motor fails to start?

Check the power supply and ensure that the motor is receiving the correct voltage. Inspect the wiring for any loose connections or damage. Verify that the start/stop switch is functioning properly.

What maintenance schedule should I follow for the MD-CX520-0.5K motor?

Routinely inspect the motor every 6 months for signs of wear, lubrication needs, and electrical integrity. Clean any dust or debris from the motor housing to ensure proper cooling.

How can I reduce noise generated by the motor during operation?

Ensure the motor is properly aligned and mounted securely. Check for any loose components. Consider using vibration dampening mounts if noise is still a concern.

What type of lubrication is recommended for this motor?

Use a high-quality industrial lubricant suitable for bearings. Follow the manufacturer's guidelines for lubrication intervals and amounts.

What should I do if the motor overheats during operation?

Check for any obstructions in the ventilation paths and ensure the motor is not overloaded. Verify that the cooling fan is operational and consider reducing the load or duty cycle.

How do I properly align the motor with connected equipment?

Use a dial indicator or laser alignment tool to ensure the motor shaft is aligned with the driven equipment shaft. Misalignment can lead to premature wear and failure.

What safety precautions should be taken during maintenance of the motor?

Always disconnect the power supply before performing any maintenance. Use appropriate personal protective equipment such as gloves and safety glasses. Follow lockout/tagout procedures to ensure safety.

How can I determine if the motor bearings need replacement?

Listen for unusual noise or vibration during operation. Check for excessive play in the shaft and inspect bearings for visible signs of wear or damage.

What are the common causes of motor vibration and how can it be mitigated?

Common causes include misalignment, imbalance, and worn bearings. Mitigate vibration by ensuring proper alignment, performing regular maintenance, and balancing rotating components.