Mitsubishi E800-E FR-E810W-0008-0.1K-E Safety Guideline

Mitsubishi E800-E FR-E810W-0008-0.1K-E Inverter manual cover
Pages 2
Year 2022
Language(s)
English en

Mitsubishi E800-E FR-E810W-0008-0.1K-E Inverter Specification

The Mitsubishi E800-E FR-E810W-0008-0.1K-E Inverter is a sophisticated device designed to provide efficient motor control and energy savings in various industrial applications. This inverter model is part of Mitsubishi's E800 series, which is known for its advanced features and high performance. The inverter operates with a power range of 0.1 kW, making it suitable for small to medium-sized motor operations.

The device integrates advanced vector control technology, allowing it to deliver precise and responsive control over motor speed, torque, and position. This ensures optimal performance, even under varying load conditions. The inverter supports a wide input voltage range, enhancing its adaptability to different power supply conditions. It is also equipped with a built-in EMC filter to minimize electromagnetic interference, ensuring smooth operation in sensitive environments.

Connectivity and integration capabilities are significant features of the E800-E FR-E810W-0008-0.1K-E. It supports multiple communication protocols, such as Ethernet, Modbus, and CC-Link IE Field Basic, enabling seamless integration into existing industrial networks and systems. This facilitates ease of monitoring, control, and data exchange across the production line.

Safety and reliability are prioritized with the inclusion of various protective functions, including overcurrent, overvoltage, and thermal protection. The inverter is designed to operate efficiently within a wide temperature range, enhancing its reliability in harsh industrial settings. The compact design of the inverter allows for easy installation and space-saving in control panels.

Overall, the Mitsubishi E800-E FR-E810W-0008-0.1K-E Inverter combines advanced control technologies, robust connectivity options, and comprehensive safety features, making it an ideal choice for enhancing motor efficiency and productivity in diverse industrial applications.

Mitsubishi E800-E FR-E810W-0008-0.1K-E Inverter F.A.Q.

How do I perform a factory reset on the Mitsubishi E800-E FR-E810W-0008-0.1K-E Inverter?

To perform a factory reset, navigate to the parameter setting mode, select the initialization parameter (Pr. 79), and set it to '1'. This will reset all parameters to factory defaults. Ensure that the inverter is stopped before performing this action.

What is the procedure to connect the inverter to a PLC using Modbus RTU?

To connect the inverter to a PLC using Modbus RTU, configure the communication parameters such as baud rate, parity, and stop bits to match those of the PLC. Use the RS-485 communication terminals on the inverter for connection. Ensure the communication address is correctly set in the inverter's parameters.

How can I troubleshoot an overcurrent fault on the Mitsubishi E800-E inverter?

Check for short circuits or ground faults in the motor and wiring. Verify that the motor is not overloaded and that acceleration/deceleration times are set appropriately. Inspect the inverter for any signs of damage or overheating. Adjust the inverter's current limit settings if necessary.

How do I change the frequency setting from the keypad on the inverter?

Press the 'MODE' button to enter frequency setting mode. Use the arrow keys to adjust the frequency to the desired value. Confirm the setting by pressing the 'SET' button. Ensure the inverter is in a stopped state before making changes.

What maintenance practices should be followed for the Mitsubishi E800-E inverter?

Regularly inspect for dust and debris accumulation and clean using compressed air. Check for loose connections and tighten if necessary. Verify that the cooling fans are functioning properly. Periodically check the parameters and update firmware if required.

How can I limit the current output of the inverter to protect the motor?

Set the current limit parameter (Pr. 22) to the desired maximum current value. This will ensure the inverter does not exceed this current, providing motor protection. Ensure that the set value is within the motor's rated current specifications.

What steps should be taken if the inverter displays an overvoltage fault?

Check the input voltage to ensure it is within the inverter's rated specification. Verify that the deceleration time is not too short, which can cause a regenerative overvoltage. Consider installing a braking resistor if frequent deceleration is required.

How do I enable PID control on the Mitsubishi E800-E inverter?

Set the PID control parameter (Pr. 128) to '1' to enable PID control. Configure the setpoint source and feedback source parameters accordingly. Adjust the PID gain parameters for optimal system response.

Can the inverter be controlled remotely via a network?

Yes, the inverter can be controlled remotely using the built-in Ethernet interface. Ensure the network settings are configured correctly, and use compatible software or a PLC to send control commands over the network.

How do I interpret the error codes displayed on the inverter?

Refer to the inverter's manual for a detailed list of error codes and their meanings. Each code corresponds to a specific fault or issue. Use the provided troubleshooting steps in the manual to diagnose and resolve the error.