Contents

SAFETY PRECAUTIONS
CONDITIONS OF USE FOR THE PRODUCT
INTRODUCTION
COMPLIANCE WITH EMC AND LOW VOLTAGE DIRECTIVES
CONTENTS
RELEVANT MANUALS
TERMS
MANUAL PAGE ORGANISATION
1 SYSTEM CONFIGURATION
- 1.1 Motion System Configuration
  - Equipment configuration in system
  - Peripheral device configuration
  - R64MTCPU/R32MTCPU/R16MTCPU system overall configuration
  - Function explanation of the Motion CPU modules
  - Restrictions on Motion systems
- 1.2 System Configuration Equipment
  - Configuration equipment list
  - Software packages
- 1.3 Checking Production Information and Operating System Software Version
  - Checking production information
  - Checking operating system software version
- 1.4 Restrictions by the Software's Version
- 1.5 Engineering Software Version
2 EQUIPMENT SPECIFICATIONS
- 2.1 General Specifications
- 2.2 Motion CPU Module
  - Name of parts
  - LED display
  - Rotary switch setting and operation mode
  - Specifications
- 2.3 Serial Absolute Synchronous Encoder
  - Specifications
- 2.4 SSCNETIII Cables
  - Specifications
  - Connection between the Motion CPU module and servo amplifiers
  - Setting of the axis No. and switch of servo amplifier
  - Precautions for SSCNETIII cables
3 INSTALLATION AND WIRING
- 3.1 Mounting Environment
- 3.2 Module Installation
  - Mounting position
  - Installation of the base unit
  - Installation and removal of module
- 3.3 Installation and Removal of SD Memory Card
- 3.4 Mounting of Serial Absolute Synchronous Encoder
- 3.5 Wiring
  - Power supply circuit
  - Safety circuit
4 START-UP PROCEDURES
- 4.1 Start-up Adjustment Procedure
5 INSPECTION AND MAINTENANCE
- 5.1 Daily Inspection
- 5.2 Periodic Inspection
- 5.3 Life
6 TROUBLESHOOTING
- 6.1 Troubleshooting Basics
- 6.2 Troubleshooting Procedure
- 6.3 Checking LED Display
  - Checking LED display of the Motion CPU module
- 6.4 Checking With Engineering Tools
- 6.5 Troubleshooting by Circumstance
  - When the READY LED of the Motion CPU module has turned OFF
  - When an error is displayed or flickering in the dot matrix LED
  - When cannot write to Motion CPU
  - When cannot read from Motion CPU
  - When the servo amplifier does not start
7 EMC DIRECTIVES
- 7.1 Requirements for Compliance with the EMC Directive
  - Standards relevant to the EMC directive
  - Installation instructions for EMC directive
  - Parts of measure against noise
  - Measure against noise
APPENDICES
- Appendix 1 Cables
  - SSCNETIII cables
  - Serial absolute synchronous encoder cable
  - SSCNETIII cables (SC-J3BUSM-C) manufactured by Mitsubishi Electric System & Service
- Appendix 2 Exterior Dimensions
  - Motion CPU module
  - Connector
  - Serial absolute synchronous encoder (Q171ENC-W8)
REVISIONS
WARRANTY
TRADEMARKS

Mitsubishi Electric R16MTCPU R32MTCPU User's Manual

Mitsubishi Electric R16MTCPU R32MTCPU manual cover

Pages 90

Year 2014

Language(s)

of 90

User's Manual

90 pages

Programming Manual

458 pages

Mitsubishi Electric R16MTCPU R32MTCPU Specification

The Mitsubishi Electric R16MTCPU and R32MTCPU are advanced microprocessor units designed for high-performance automation applications. These CPUs belong to the MELSEC iQ-R series, renowned for their reliable and efficient processing capabilities in industrial settings. Both models are equipped with a cutting-edge 64-bit RISC processor architecture, enabling them to deliver superior computational power and precise control in demanding environments.

The R16MTCPU and R32MTCPU support a wide range of programming languages, including Ladder Logic, Structured Text, and Function Block Diagram, providing flexibility for diverse application needs. They offer extensive memory capacities, with the R16MTCPU featuring a program memory of 160 K steps and the R32MTCPU offering 320 K steps. This ample memory allocation ensures the efficient handling of complex automation tasks and large-scale data processing.

Connectivity is a key feature, with both CPUs offering multiple communication options, including Ethernet, CC-Link IE, and serial interfaces. This connectivity supports seamless integration into existing industrial networks and facilitates real-time data exchange and remote system monitoring. Additionally, the CPUs boast advanced diagnostic and maintenance functionalities, which help in minimizing downtime and optimizing system performance.

Safety and reliability are paramount, with the CPUs incorporating robust security features and error-checking mechanisms to ensure stable operation. Energy-efficient design principles have also been applied, reducing power consumption and contributing to sustainable industrial practices. Overall, the Mitsubishi Electric R16MTCPU and R32MTCPU provide powerful, versatile, and efficient solutions for modern automation systems, meeting the rigorous demands of contemporary manufacturing environments.

Mitsubishi Electric R16MTCPU R32MTCPU F.A.Q.

What are the initial steps for setting up the Mitsubishi Electric R16MTCPU and R32MTCPU?

Ensure that the CPU is mounted securely in the PLC rack. Connect the power supply and ensure the wiring is correct. Install the necessary software on your PC and connect it to the CPU using the appropriate communication cable for configuration.

How can I troubleshoot communication errors between the R16MTCPU and external devices?

Check the physical connections and ensure all cables are securely connected. Verify the communication settings, such as baud rate and parity, in both the CPU and external devices. Use diagnostic tools available in the software to identify specific error codes.

What maintenance procedures are recommended for the R32MTCPU?

Regularly check for dust accumulation and clean the unit using a dry cloth. Inspect all connections for signs of wear or damage. Periodically update the firmware to the latest version provided by Mitsubishi Electric to ensure optimal performance.

How do I perform a firmware update on the R16MTCPU?

Download the latest firmware version from the Mitsubishi Electric website. Connect your PC to the CPU and use the provided software tool to upload the firmware. Follow the on-screen instructions to complete the update process.

What should I do if the R32MTCPU does not power on?

Check the power supply for correct voltage and ensure it is properly connected. Inspect the power cable for damage. If the problem persists, replace the power supply unit or consult Mitsubishi Electric support for further assistance.

Can the R16MTCPU be used in a high-temperature environment?

The R16MTCPU is designed to operate within specific temperature ranges. Refer to the product manual for the exact operating temperatures. If used in high-temperature environments, consider additional cooling solutions to prevent overheating.

How do I reset the R32MTCPU to factory settings?

To reset the CPU, press the reset button located on the front panel. Alternatively, use the software tool to perform a factory reset, ensuring all important data is backed up before proceeding.

What are the common error codes for the R16MTCPU and how can they be resolved?

Common error codes include communication failures, I/O errors, and memory issues. Each code has specific troubleshooting steps outlined in the manual, such as checking connections, verifying configurations, and replacing faulty components.

How can I integrate the R32MTCPU with a SCADA system?

Ensure the CPU is configured for network communication. Use the appropriate protocol, such as Modbus or Ethernet/IP, to connect the CPU to the SCADA system. Consult the SCADA system documentation for integration steps and configuration.

What are the best practices for programming the R16MTCPU?

Use structured programming techniques to enhance readability and maintenance. Regularly save and back up your programs. Test programs in a simulated environment before deploying them to the live system. Follow Mitsubishi's programming guidelines for optimal performance.