Welcome to the Mitsubishi D700 manual, your comprehensive guide to understanding and operating the FR-D700 series inverters. This manual provides detailed instructions for installation, wiring, and operation, ensuring safe and efficient use of the device. Designed for qualified professionals, it covers key features like digital setting dial, MODBUS RTU, and safety stop function, making it essential for optimal performance and maintenance.
1.1 Overview of the Mitsubishi D700 Series
The Mitsubishi D700 series, part of the FR-D700 family, represents a line of high-performance inverters designed for motor control in industrial applications. These inverters are known for their reliability, efficiency, and user-friendly operation. Featuring a compact design, the D700 series offers advanced control modes, including vector control and V/F control, ensuring precise motor operation. The series is equipped with a digital setting dial for easy parameter adjustments and supports communication via MODBUS RTU for integrated system control. With a focus on safety, the D700 series includes built-in safety features like the safety stop function, complying with international standards. It is ideal for applications requiring flexible speed control and is supported by comprehensive documentation for installation, configuration, and maintenance.
1.2 Purpose and Scope of the Manual
This manual is designed to provide users with a detailed understanding of the Mitsubishi D700 series inverters, ensuring safe and effective operation. It serves as a primary resource for installing, configuring, and maintaining the device. The manual is intended for qualified professionals familiar with industrial equipment and safety standards. It covers essential topics such as technical specifications, installation guidelines, parameter settings, and troubleshooting procedures. The scope includes both basic and advanced operations, offering insights into optimizing performance and addressing common issues. By following this manual, users can ensure compliance with safety protocols and achieve reliable operation of the D700 series inverters in various industrial applications.
1.3 Target Audience for the Manual
The Mitsubishi D700 manual is specifically tailored for professionals involved in the installation, operation, and maintenance of industrial automation systems. It is intended for engineers, technicians, and maintenance personnel who require detailed technical information to work with the FR-D700 series inverters. The manual assumes a foundational knowledge of electrical systems and safety protocols. It serves as a crucial resource for those responsible for integrating, configuring, and troubleshooting the D700 series in various industrial environments. Additionally, it is useful for system designers and operators seeking to optimize the performance of their motor control applications. The content is structured to provide clear guidance for both routine and advanced tasks, ensuring safe and efficient operation of the equipment.
Key Features of the Mitsubishi D700 Inverter
The Mitsubishi D700 inverter offers advanced vector control for precise motor operation, a built-in brake transistor for efficient braking, and compliance with international safety standards.
2.1 Technical Specifications
The Mitsubishi D700 series includes models such as FR-D720S to FR-D740-22k, offering a wide range of power ratings from 0.4kW to 15kW. It features a built-in brake transistor and supports optional brake resistors for enhanced braking performance. The inverter is designed with vector control technology for precise motor control and includes MODBUS RTU communication for seamless integration with industrial systems. It operates efficiently in harsh environments and meets international safety standards like the EU Machinery Directive. The D700 series is compact, user-friendly, and suitable for various industrial applications, making it a reliable choice for motor control and automation systems.
2.2 Control Modes and Functions
The Mitsubishi D700 series offers versatile control modes, including V/F control, vector control, and torque control, catering to diverse industrial applications. Vector control provides high-performance motor operation with precise speed and torque regulation. The inverter supports multiple control signals, such as analog inputs, digital inputs, and pulse inputs, ensuring flexibility in system integration. Communication capabilities include MODBUS RTU for remote monitoring and control. Advanced features like multi-speed operation, acceleration/deceleration control, and slip compensation enhance operational efficiency. The D700 series also includes a safety stop function, enabling safe and reliable motor control. These functions make it suitable for various motor-driven systems, ensuring optimal performance and adaptability across industries.
2.3 Safety Features and Compliance
The Mitsubishi D700 series is designed with robust safety features to ensure reliable operation. It includes a built-in brake transistor for efficient motor braking and supports an optional external brake resistor for enhanced braking performance. The inverter complies with the EU Machinery Directive 2006/42/EC, ensuring adherence to international safety standards. Additional safety features include a safety stop function, which allows for controlled motor stopping in emergency situations. The D700 series also meets environmental and operational standards, making it suitable for harsh industrial environments. Compliance with global regulations and incorporation of advanced safety mechanisms ensure the inverter operates safely and efficiently in various applications. These features underscore Mitsubishi’s commitment to user safety and product reliability.
Installation and Wiring Guidelines
Ensure proper installation and wiring by following the manual’s detailed guidelines. Perform pre-installation checks, use provided wiring diagrams, and adhere to safety protocols for efficient setup.
3.1 Pre-Installation Checks and Requirements
Before installing the Mitsubishi D700 inverter, ensure the environment meets specified conditions, such as ambient temperature and humidity. Verify the power supply matches the inverter’s ratings and ensure the motor is compatible. Inspect the packaging for damage and confirm all components are included. Check for any signs of physical damage to the unit. Ensure proper grounding and install necessary protective devices like fuses or circuit breakers. Review the wiring diagram to ensure correct connections. Verify the availability of required tools and accessories. Familiarize yourself with safety precautions to avoid electrical hazards. Ensure the area is clear of flammable materials and follows proper ventilation guidelines for safe operation.
3.2 Step-by-Step Installation Process
Mount the Mitsubishi D700 inverter on a flat, stable surface, ensuring proper ventilation. Secure the unit firmly to prevent vibration. Connect the motor to the inverter’s output terminals, ensuring correct phase matching. Install a brake resistor if required for regenerative applications. Connect the power supply to the inverter’s input terminals, following the wiring diagram. Set the fundamental parameters, such as motor voltage and frequency, using the control panel. Connect any optional accessories, like a brake unit or programmable logic controller. Apply power to the inverter and perform a test run without the motor to check for errors. Finally, connect the motor and test it under no-load conditions before full operation.
3.3 Wiring Diagrams and Connections
The Mitsubishi D700 manual provides detailed wiring diagrams to ensure correct connections. Begin by connecting the power supply to the inverter’s input terminals (R, S, T) and the motor to the output terminals (U, V, W). Use the control terminal (CN1) for external control signals, such as forward/reverse and start/stop commands. If required, connect a brake resistor to the designated terminals to handle regenerative energy. Ensure all connections are secure and match the diagram to avoid short circuits. Refer to the manual for specific terminal layouts and recommended wire sizes. Double-check all connections before applying power to prevent damage or malfunction.
Parameter Setting and Configuration
Understand parameter groups for basic and advanced settings. Configure motor parameters, control modes, and monitoring options. Save settings and verify configurations for optimal performance.
4.1 Understanding Parameter Groups
Parameter groups in the Mitsubishi D700 manual organize settings for motor control, operation, and monitoring. These groups categorize parameters by function, simplifying configuration. Basic parameters include motor data and control modes, while advanced parameters enable customized settings for specific applications. Understanding these groups ensures accurate setup and optimal performance. Refer to the manual for detailed descriptions of each parameter group and their functions. Proper configuration is essential for safe and efficient operation. Use the operation panel or software tools to access and modify these settings. Always consult the manual for guidance on parameter adjustments to avoid errors and ensure compliance with safety standards.
4.2 Configuring Basic and Advanced Parameters
Configuring parameters on the Mitsubishi D700 involves setting basic and advanced options to tailor the inverter’s operation. Basic parameters include motor data, such as rated voltage and frequency, and control modes like V/F or vector control. Advanced parameters enable features like multi-speed operation, torque boost, and fault protection. Use the operation panel or software tools to adjust these settings. Ensure settings match the motor and application requirements for optimal performance. Always refer to the manual for parameter descriptions and valid ranges. Incorrect settings can lead to malfunctions or reduced efficiency. Save configurations after adjustments and verify operation through monitoring. Regularly review parameter settings to maintain system performance and reliability.
4.3 Saving and Verifying Parameter Settings
After configuring basic and advanced parameters, it is essential to save the settings to ensure they are retained. Use the parameter write function on the operation panel or software tool to save changes. Verify settings by reviewing the parameter list or checking the inverter’s display. Ensure all adjustments match the application requirements. Incorrect or unsaved settings can lead to improper operation or system malfunctions. Refer to the manual for specific instructions on saving and verifying parameters. Regularly review saved settings to maintain consistency and performance. Always test the system after saving changes to confirm proper operation and address any issues promptly.
Operation and Control Modes
Explore the Mitsubishi D700’s operation modes, including speed control, monitoring, and advanced features. This section covers starting, stopping, and optimizing the inverter’s performance efficiently and safely.
5.1 Starting and Stopping the Inverter
Starting and stopping the Mitsubishi D700 inverter involves a series of straightforward steps to ensure safe and efficient operation. Always refer to the control panel for primary operations. For a smooth start, set the desired parameters and ensure all safety precautions are in place. The inverter can be started using the digital setting dial, external control signals, or through MODBUS RTU communication. To stop the inverter, use the emergency stop button or follow the shutdown procedure outlined in the manual. Proper power-down ensures motor safety and prevents data loss. Always verify the system’s status before resuming operations. Adhere to safety guidelines to avoid unexpected issues.
5.2 Speed Control and Monitoring
The Mitsubishi D700 inverter offers precise speed control and monitoring capabilities, ensuring optimal motor performance. Users can adjust speed settings via the digital setting dial or through external control signals. Real-time monitoring of motor speed, torque, and other parameters is accessible through the control panel. The inverter supports various control modes, including PID control, to maintain accurate speed regulation. Advanced features like speed search function and multi-step speed settings enhance operational flexibility. Monitoring tools provide insights into system performance, enabling quick adjustments and troubleshooting. This ensures smooth operation and maximizes efficiency in industrial applications. Always refer to the manual for detailed instructions on configuring and utilizing these features effectively.
5.3 Advanced Control Modes and Features
The Mitsubishi D700 inverter offers advanced control modes and features to enhance system performance. It includes PID control for precise regulation of speed and torque, ensuring accurate process control. Energy-saving operation optimizes energy efficiency by adjusting power usage dynamically. Multi-step speed settings allow for customizable speed profiles, catering to diverse applications. Additionally, the inverter supports a safety stop function, enabling safe and controlled shutdowns. MODBUS RTU communication capability facilitates seamless integration with industrial automation systems. Advanced monitoring and diagnostics tools provide detailed insights into system operation, aiding in predictive maintenance. These features collectively ensure enhanced operational flexibility, improved efficiency, and reliable performance in demanding industrial environments. Refer to the manual for detailed configuration and implementation guidelines.
Troubleshooting and Maintenance
This section provides guidance on identifying and resolving common issues with the Mitsubishi D700 inverter. It includes diagnostic tools, error code explanations, and maintenance procedures to ensure optimal performance and longevity of the device. Regular checks and preventive measures are emphasized to avoid downtime and ensure reliable operation.
6.1 Common Issues and Solutions
The Mitsubishi D700 manual addresses common issues such as error codes, overload conditions, and communication faults. Solutions include checking connections, verifying parameter settings, and ensuring proper cooling. Resetting the inverter or updating firmware may resolve software-related problems. For persistent issues, consulting the troubleshooting section or contacting Mitsubishi support is recommended. Preventive maintenance, like cleaning filters and inspecting wiring, can help avoid downtime. Always refer to the manual for detailed diagnostic procedures and repair guidelines to ensure safe and effective resolution of problems. Regular updates and adherence to maintenance schedules can prevent recurring issues and optimize performance.
6.2 Maintenance Schedule and Procedures
Regular maintenance is essential for ensuring the Mitsubishi D700 inverter operates efficiently and reliably. The manual recommends inspecting internal components, cleaning dust from the heat sink, and checking terminal connections every 6 months. Lubricate fan bearings annually and replace worn parts promptly. Ensure proper ventilation to prevent overheating. Follow the manual’s maintenance schedule for optimal performance. Record all maintenance activities for future reference. Cleaning the inverter’s exterior with a soft cloth and avoiding harsh chemicals is advised. Always power down the unit before performing maintenance tasks. Refer to the manual for detailed procedures and guidelines to ensure safety and compliance with manufacturer recommendations.
6.3 Diagnostic Tools and Techniques
The Mitsubishi D700 manual provides detailed guidance on diagnostic tools and techniques to identify and resolve issues efficiently. Utilize the inverter’s LED indicators and error codes for quick troubleshooting. The operation panel allows access to fault history and parameter monitoring. For advanced diagnostics, connect a laptop or PC using Mitsubishi’s dedicated software, enabling real-time data analysis and parameter adjustments. Regularly inspect internal components and connections to prevent faults. Use the Modbus RTU communication feature for remote monitoring and diagnostics. Refer to the manual for specific diagnostic procedures and error code explanations. Always follow manufacturer guidelines to ensure accurate troubleshooting and maintain system reliability. Regular inspections and updates help prevent downtime and extend the inverter’s lifespan.
Safety Precautions and Compliance
The Mitsubishi D700 manual emphasizes compliance with international safety standards, including the EU Machinery Directive. Ensure proper installation, use of built-in brake transistors, and optional brake resistors for safe operation. Always follow guidelines for emergency procedures and environmental conditions to maintain compliance and prevent hazards.
7.1 General Safety Guidelines
Adhere to safety guidelines to ensure safe operation of the Mitsubishi D700 inverter. Always wear protective gear, including safety glasses and gloves. Ensure proper installation and grounding of the device to prevent electrical hazards. Disconnect power before performing maintenance or repairs. Follow manufacturer instructions carefully and avoid exceeding specified load limits. Keep the area well-ventilated and away from flammable materials. Regularly inspect cables and connections for damage or wear. Never operate the inverter near open flames or sparks. Ensure compliance with environmental conditions specified in the manual. Keep children away from the equipment. Refer to emergency procedures for unexpected situations. Proper handling of built-in brake transistors and optional brake resistors is essential for safe motor stopping.
7.2 Compliance with International Standards
The Mitsubishi D700 inverter is designed to meet international standards, ensuring reliability and safety. It complies with the EU Machinery Directive, making it suitable for industrial applications across Europe. The inverter also adheres to global safety and environmental regulations, guaranteeing its performance in diverse operational environments. Compliance with these standards ensures compatibility with various motor systems and adherence to quality benchmarks. The D700 series is certified to operate within specified power ratings and environmental conditions, providing users with a trusted and durable solution. By meeting international standards, the D700 inverter offers a seamless integration into global industrial systems, maintaining Mitsubishi Electric’s reputation for excellence and reliability in industrial automation.
7.3 Emergency Procedures and Protocols
In case of emergencies, the Mitsubishi D700 inverter is equipped with safety features to ensure safe shutdown and protection. Immediate power cutoff and emergency stop functions are available to prevent accidents; If an abnormality occurs, disconnect the power supply and avoid restarting the inverter until the issue is resolved. Ensure proper ventilation in case of overheating and avoid sparks or ignition sources near the device. Emergency procedures must be performed by qualified personnel only. Always refer to the manual for specific protocols and guidelines. Mitsubishi Electric emphasizes safety, providing clear instructions to handle emergencies effectively and minimize risks. Adhering to these protocols is essential for maintaining operational safety and system integrity.
Technical Specifications and Ratings
The Mitsubishi D700 series offers a range of power ratings, from 0.4kW to 15kW, ensuring compatibility with various motor systems. It supports multiple control modes, including V/F and vector control, providing precise speed regulation. The inverter is designed to operate in harsh environments with optional board coating for added durability. Compliance with international standards ensures reliability and safety. These specifications make the D700 series a versatile and efficient choice for industrial applications, delivering high performance and durability under diverse operating conditions.
8.1 Power Ratings and Performance Data
The Mitsubishi D700 series inverters are available in power ratings ranging from 0.4kW to 15kW, catering to a wide range of industrial applications; With an efficiency of up to 98%, these inverters deliver high performance while minimizing energy losses. They support both 200-240V and 380-500V input voltages, ensuring versatility in different power systems. The inverters operate at frequencies between 0.1Hz and 400Hz, allowing precise speed control of motors. Designed for heavy-duty applications, they can handle overload capacities of up to 150% for 1 minute. The D700 series complies with international standards and offers optional features like built-in brake transistors and external brake resistors for enhanced functionality and safety.
8.2 Environmental and Operating Conditions
The Mitsubishi D700 inverter operates effectively in environments with temperatures between 0°C and 50°C (32°F and 122°F) and humidity levels up to 90% relative humidity (non-condensing). For storage, the unit can withstand temperatures from -20°C to 60°C (-4°F to 140°F) and humidity up to 90%. Special units with board coating are available for use in harsh environments. Ensure the inverter is not exposed to direct sunlight, salt mist, or corrosive gases. Install in a well-ventilated area, avoiding conductive dust or explosive atmospheres. The inverter is designed to withstand vibrations of up to 5Hz with an amplitude of 0.3mm. Adhering to these conditions ensures optimal performance and longevity of the device.
8.3 Compatibility with Motors and Systems
The Mitsubishi D700 inverter is designed to be compatible with a wide range of motors, including standard induction motors and permanent magnet motors. It supports various motor control methods, such as V/F control and vector control, ensuring optimal performance across different applications. The inverter is also compatible with external control systems through its built-in Modbus RTU communication interface, enabling seamless integration into industrial automation systems. Additionally, it can operate with motors of different power ratings, from 0.4kW to 15kW, making it versatile for diverse industrial needs. Proper motor and system compatibility ensures efficient operation, reduced energy consumption, and enhanced reliability in various industrial environments.
FAQs and Common Queries
Explore frequently asked questions about the Mitsubishi D700, addressing installation, operation, troubleshooting, and maintenance. This section offers clarity on common concerns and optimal usage tips.
9.1 Frequently Asked Questions
What is the purpose of the Mitsubishi D700 manual? It guides users through installation, operation, and troubleshooting. Can the FR-D700 series be used in harsh environments? Yes, with optional board coating. How do I access parameters? Via the operation panel. What safety features are included? Brake transistor and safety stop function. Is the FR-D700 compliant with EU standards? Yes, it meets Machinery Directive requirements. Can I download the manual? Yes, PDF versions are available online. How do I troubleshoot common issues? Refer to the manual’s dedicated troubleshooting section. Are there advanced control modes? Yes, including vector control and MODBUS RTU communication. Always consult the manual for detailed instructions and precautions.
9.2 Clarifications on Common Misconceptions
Some users believe the Mitsubishi D700 manual is overly complex, but it is designed to be user-friendly. A common misconception is that the FR-D700 cannot operate in harsh environments, but the manual provides solutions like special board coating units. Others think the brake transistor is optional, yet it is built-in for safety. There is also a misconception that advanced features are difficult to set up, but the manual offers clear parameter settings. Additionally, some assume the FR-D700 is not compatible with various motors, but it is designed to work with multiple systems. Always refer to the manual for accurate information and guidance.
9.3 Tips for Optimal Performance
For optimal performance of your Mitsubishi D700 inverter, ensure proper installation by following the wiring diagrams and guidelines in the manual. Regularly update your parameter settings to match your application needs, and always refer to the troubleshooting section for quick solutions. Maintain the unit by cleaning it periodically and checking for wear and tear. Use the built-in safety features, such as the brake transistor, to enhance operational safety. Ensure the inverter operates within the specified environmental conditions to avoid overheating or damage. By adhering to these tips and following the manual’s recommendations, you can maximize the efficiency and longevity of your Mitsubishi D700 inverter.
This concludes the Mitsubishi D700 manual. For further assistance, refer to official Mitsubishi resources, including PDF guides and technical support, ensuring optimal inverter performance and compliance.
10.1 Summary of Key Points
The Mitsubishi D700 manual provides a comprehensive guide for installing, configuring, and operating the FR-D700 series inverters. It covers technical specifications, safety features, and advanced control modes, ensuring optimal performance. The manual emphasizes proper installation and wiring procedures, parameter setting, and troubleshooting techniques. Key points include compliance with international standards, maintenance schedules, and emergency protocols. Designed for qualified professionals, it offers detailed insights into operational modes and diagnostic tools. By adhering to the guidelines, users can ensure safe and efficient inverter operation. Additional resources, such as PDF guides and technical support, are available for further assistance, making this manual an essential resource for Mitsubishi D700 users.
10.2 Additional Resources and Support
For further assistance, Mitsubishi Electric provides a range of resources, including downloadable PDF manuals, technical guides, and quick setup instructions. These documents are available on the official Mitsubishi Electric website and cover topics such as installation, parameter settings, and troubleshooting. Additionally, customer support is accessible through contact information listed in the manual, ensuring prompt assistance for any inquiries. Training programs and FAQs are also offered to enhance user understanding and resolve common issues. These resources complement the manual, offering comprehensive support for optimal use of the Mitsubishi D700 inverter. Users can rely on these tools to maximize efficiency and maintain compliance with safety standards.
10.3 Final Remarks and Recommendations
Thank you for selecting the Mitsubishi D700 inverter, a reliable solution for motor control applications. This manual has provided essential guidance for safe and efficient operation. Always adhere to safety precautions and follow installation guidelines to ensure optimal performance. Regular maintenance and proper parameter settings are crucial for longevity and functionality. For further assistance, utilize Mitsubishi Electric’s support resources and downloadable materials. By following these recommendations, you can maximize the benefits of the FR-D700 series and maintain compliance with international standards. Proper handling and adherence to guidelines will ensure reliable operation and extend the lifespan of your inverter.