Contents

FR-E860 Instruction Manual (Connection) (575V CLASS)
CONTENTS
Safety Instructions
1 Introduction
- 1.1 Product checking and accessories
- 1.2 Component names
- 1.3 Operation steps
- 1.4 Related manuals
2 Installation and Wiring
- 2.1 Peripheral devices
  - 2.1.1 Inverter and peripheral devices
  - 2.1.2 Peripheral devices
- 2.2 Removal and reinstallation of the front cover
- 2.3 Installation of the inverter and enclosure design
  - 2.3.1 Inverter installation environment
  - 2.3.2 Amount of heat generated by the inverter
  - 2.3.3 Output current reduction when the surrounding air temperature is between 50C and 60C
  - 2.3.4 Standby power consumption by the inverter
  - 2.3.5 Cooling system types for inverter enclosure
  - 2.3.6 Inverter installation
- 2.4 Terminal connection diagrams
- 2.5 Main circuit terminals
  - 2.5.1 Details on the main circuit terminals
  - 2.5.2 Main circuit terminal layout and wiring to power supply and motor
  - 2.5.3 Applicable cables and wiring length
  - 2.5.4 Earthing (grounding) precautions
- 2.6 Control circuit
  - 2.6.1 Details on the control circuit terminals (Standard model)
  - 2.6.2 Details on the control circuit terminals (Ethernet model)
  - 2.6.3 Details on the control circuit terminals (Safety communication model)
  - 2.6.4 Control logic (sink/source) change (Standard model / Ethernet model)
  - 2.6.5 Wiring of control circuit
  - 2.6.6 Wiring precautions
  - 2.6.7 Safety stop function (Standard model / Ethernet model)
  - 2.6.8 Safety communication function (Safety communication model)
- 2.7 Connection to a motor with encoder (Vector control)
- 2.8 Communication connectors and terminals
  - 2.8.1 PU connector (Standard model)
  - 2.8.2 Ethernet connector (Ethernet model / Safety communication model)
  - 2.8.3 USB connector
- 2.9 Connection of stand-alone option units
  - 2.9.1 Connection of the brake resistor
  - 2.9.2 Connection of the DC reactor
3 Precautions for Use of the Inverter
- 3.1 Electro-magnetic interference (EMI) and leakage currents
  - 3.1.1 Leakage currents and countermeasures
  - 3.1.2 Techniques and measures for electromagnetic compatibility (EMC)
- 3.2 Power supply harmonics
  - 3.2.1 Power supply harmonics
- 3.3 Installation of a reactor
- 3.4 Power shutdown and magnetic contactor (MC)
- 3.5 Countermeasures against deterioration of the 600 V class motor insulation
- 3.6 Checklist before starting operation
- 3.7 Failsafe system which uses the inverter
4 Specifications
- 4.1 Inverter rating
- 4.2 Common specifications
- 4.3 Outline dimension drawings
  - 4.3.1 Inverter outline dimension drawings (Standard model)
  - 4.3.2 Inverter outline dimension drawings (Ethernet model / Safety communication model)
5 Appendix
- 5.1 How to check specification changes
  - 5.1.1 Details of specification changes
Warranty
Revisions

Mitsubishi FR-E860 FR-E860-0017-0.75K Instruction Manual

Mitsubishi FR-E860 FR-E860-0017-0.75K Inverter manual cover

Pages 110

Year 2021

Language(s)

of 110

Mitsubishi FR-E860 FR-E860-0017-0.75K Inverter Specification

The Mitsubishi FR-E860-0017-0.75K Inverter is a compact and efficient drive solution designed to offer precise motor control for various industrial applications. It features a power rating of 0.75 kW and is part of the advanced FR-E860 series, known for its high performance and reliability. The inverter operates on a three-phase power supply with a voltage range of 200V to 240V, making it suitable for a wide array of standard industrial environments.

This inverter integrates Mitsubishi's latest vector control technology, providing superior torque performance and motor speed accuracy. It supports both V/F and vector control methods, ensuring flexibility and adaptability to different motor types and applications. The FR-E860-0017-0.75K offers a maximum output frequency of 590 Hz, facilitating high-speed operations when needed.

Equipped with a user-friendly interface, the inverter includes an easy-to-read digital display and intuitive keypad, simplifying setup and operation. Advanced connectivity features are supported, including built-in RS-485 communication and compatibility with various fieldbus options, allowing seamless integration into existing control systems.

The inverter is designed with robust safety features, including overcurrent, overvoltage, and overload protection, ensuring safe and reliable operation. It also incorporates energy-saving functions, such as automatic energy optimization, to enhance efficiency and reduce operational costs. The FR-E860-0017-0.75K is compliant with international standards and comes in a compact, space-saving design, making it an ideal choice for applications requiring high performance in a limited space. Its durable construction and advanced functionality make it a versatile and dependable choice for enhancing motor control in diverse industrial settings.

Mitsubishi FR-E860 FR-E860-0017-0.75K Inverter F.A.Q.

How do I connect the Mitsubishi FR-E860-0017-0.75K inverter to a PLC?

To connect the inverter to a PLC, use the RS-485 communication port. Ensure that the communication parameters such as baud rate, parity, and stop bits match between the devices. Use the appropriate communication protocol supported by the inverter and PLC.

What is the procedure for resetting faults on the FR-E860 inverter?

To reset faults, first ensure the cause of the fault is resolved. Then, press the 'Reset' button on the inverter's keypad or send a reset command via the communication interface. Ensure the inverter is in a stopped state before resetting.

How can I perform regular maintenance on the Mitsubishi FR-E860 inverter?

Regular maintenance includes cleaning the cooling fan and heat sink, checking for loose connections, inspecting for signs of wear or damage, and verifying parameter settings. Perform these checks at least every six months.

What are the recommended settings for energy-saving operation on the inverter?

For energy-saving operation, enable the 'Energy Saving' mode in the inverter parameters. Adjust the motor's speed and torque settings to match the load requirements and use the automatic energy optimization features available in the inverter.

How can I update the firmware on the FR-E860 inverter?

To update the firmware, download the latest version from Mitsubishi's official website. Connect the inverter to a computer via the communication interface and use the Mitsubishi Electric software tool to upload the firmware. Follow the on-screen instructions carefully.

What should I do if the inverter's display shows an overcurrent fault?

Check the motor and load for any mechanical issues that could cause excessive current draw. Verify that the motor parameters are correctly set in the inverter. If the issue persists, inspect the power cables and connections for damage.

How do I configure the FR-E860 to operate in vector control mode?

Access the inverter's parameter settings and navigate to the control mode options. Select vector control mode and input the correct motor parameters, such as rated current and resistance values, to optimize performance.

What is the process for setting up multiple FR-E860 inverters in a networked environment?

Use the RS-485 interface and ensure each inverter has a unique address. Set the same communication parameters across all inverters and connect them in a daisy chain configuration. Use a master device to control and monitor the networked inverters.

How can I troubleshoot communication issues between the FR-E860 inverter and a control system?

Verify the communication cable connections and ensure the cable type matches the inverter's specification. Check that the communication settings such as baud rate, parity, and stop bits are consistent on both the inverter and control system. Use diagnostic tools to monitor data transmission.

What steps should be taken if the inverter does not start the motor?

Ensure that the inverter is receiving power and that no fault conditions are present. Verify that the start command is correctly configured and is being sent to the inverter. Check the wiring connections between the inverter and motor for continuity and correctness.