Page 1 MELSECNET/H Interface Board User's Manual (For SW0DNC-MNETH-B) -Q80BD-J71LP21-25 -Q80BD-J71LP21S-25 -Q81BD-J71LP21-25 -Q80BD-J71LP21G -Q80BD-J71BR11...
Page 3: Safety Precautions
 SAFETY PRECAUTIONS  (Be sure to read these instructions before using the product.) Before using this product, read this manual and the relevant manuals introduced in this manual carefully and handle the product correctly with full attention to safety. Note that these precautions apply only to this product.
Page 4: Installation Instructions
[Design Instructions] CAUTION  Do not bunch the control wires or communication cables with the main circuit or power wires, or install them close to each other. They should be installed 100 mm (3.94 inch) or more from each other. Not doing so could result in noise that would cause malfunctioning.
Page 5 [Wiring Instructions] WARNING  Be sure to shut off all phases of the external power supply used by the system before performing work such as installing the board and wiring. If all power is not turned off, there is a risk of electric shock or damage to the product. ...
Page 6 [Startup/Maintenance Instructions] WARNING  Do not attach or remove the communication cable while the power supply is on. This may result in malfunctioning.  Tighten the board fixing screws after turning off the power supply. There is a risk of electric shock if the screws are tightened while power is on. CAUTION ...
Page 7: Conditions Of Use For The Product
 CONDITIONS OF USE FOR THE PRODUCT  (1) Mitsubishi programmable controller ("the PRODUCT") shall be used in conditions; i) where any problem, fault or failure occurring in the PRODUCT, if any, shall not lead to any major or serious accident; and ii) where the backup and fail-safe function are systematically or automatically provided outside of the PRODUCT for the case of any problem, fault or failure occurring in the PRODUCT.
Page 8: Revisions
REVISIONS The manual number is given on the bottom left of the back cover. Print Date Manual Number Revision Nov., 2000 SH (NA)-080128-A First printing Mar., 2001 SH (NA)-080128-B Model addition Q80BD-J71LP21G, Q80BD-J71LP21GE Correction Section 1.3, Appendix 3.1 Jun., 2001 SH (NA)-080128-C Correction About the Generic Terms and Abbreviations, Section 1.2, Section 1.3, Section 2.5, Section 7.1, Section 7.1.1, Section 7.1.2, Section 7.4, Section 8.2.3, Section 9.1.2, Section 9.2, Section 10.3.2, Section 10.4,...
Page 9: Generic Terms And Abbreviations, Section 1.2, Section 1.3, Section
The manual number is given on the bottom left of the back cover. Print Date Manual Number Revision Dec., 2004 SH (NA)-080128-G Chapter numbers of 5 to 14 were changed to 6 to 15 respectively. Correction Precautions for use, Generic Terms and Abbreviations, Chapter 1, Section 1.1, Section 1.2, Section 1.3, Section 2.1, Section 2.4, Section 2.5, Section 3.2, Chapter 7, Section 7.1, Section 7.2.4, Section 9.2.2, Section 9.2.3, Section 9.2.5, Section 9.2.10,...
Page 10 The manual number is given on the bottom left of the back cover. Print Date Manual Number Revision May, 2008 SH(NA)-080128-N Model addition Q81BD-J71LP21-25 Correction SAFETY PRECAUTIONS, Precautions for Use, INTRODUCTION, Generic Terms and Abbreviations, Product List, Section 1.2, Section 1.3, Section 2.1, Section 2.5, Section 3.1, Section 3.2, Section 6.3, Section 6.4.1, Section 6.4.3, Section 6.5.1, Section 6.5.2, Section 6.5.3, Section 6.6.1, Section 6.6.2, Section 8.1.1, Section 8.1.3, Section 8.2, Section 8.3, Section 9.1, Section 9.1.1, Section 9.2.2,...
Page 11: Appendix 3, Appendix
The manual number is given on the bottom left of the back cover. Print Date Manual Number Revision Sep., 2011 SH(NA)-080128-W Correction SAFETY PRECAUTIONS, INTRODUCTION, Manuals, How to Use This Manual, Generic Terms and Abbreviations, Product List, Section 1.2, Section 2.1, Section 2.5, Section 3.1, Section 3.2, Section 5.1.1, Section 6.2.1, Chapter 7, Section 8.1, Section 8.1.1, Section 8.1.2, Section 8.1.3, Section 8.2, Section 9.1.1, Section 9.3.5, Section 9.3.6, Section 9.3.7, Section 9.3.8, Chapter 10,...
Page 12 This manual confers no industrial property rights or any rights of any other kind, nor does it confer any patent licenses. Mitsubishi Electric Corporation cannot be held responsible for any problems involving industrial property rights which may occur as a result of using the contents noted in this manual.
Page 13: Precautions For Use
PRECAUTIONS FOR USE (1) Transfer function between loops and routing transfers The MELSECNET/H board cannot be used as a relay station for the transfer function between data links and during routing transfers. If the transfer function between data links and routing transfers are used, use the network module as a relay station.
Page 14: Table Of Contents
INTRODUCTION Thank you for purchasing the Q80BD-J71LP21-25, Q81BD-J71LP21-25, Q80BD-J71LP21S-25, Q80BD- J71LP21G, Q80BD-J71LP21GE, Q80BD-J71BR11 MELSECNET/H Interface Board. Before using this product, please read this manual and the relevant manuals carefully and develop familiarity with the functions and performance of the Q80BD-J71LP21-25, Q81BD-J71LP21-25, Q80BD- J71LP21S-25, Q80BD-J71LP21G, Q80BD-J71LP21GE, Q80BD-J71BR11 MELSECNET/H Interface Board to handle the product correctly.
Page 15 4 FUNCTION 4- 1 to 4- 6 4.1 Function List ............................4- 1 4.2 Specifications of the Link Data Sending/Receiving Processing Time ........... 4- 2 4.2.1 Link data sending/receiving processing ..................4- 2 4.3 Driver WDT function ..........................4- 5 5 EMC AND LOW VOLTAGE DIRECTIVE 5- 1 to 5- 6 5.1 Measures to comply with the EMC Directive ..................
Page 16 7.3 Common Parameters ..........................7- 6 7.3.1 Send range for each station (LB/LW settings) ................7- 6 7.3.2 Send range for each station (LX/LY settings) ................. 7- 8 7.3.3 Total station ............................7-10 7.3.4 Designation of the I/O master station ....................7-10 7.3.5 Reserved station setting ........................
Page 17 12 APPLICATION FUNCTIONS 12- 1 to 12-26 12.1 Direct Access to the Link Devices ...................... 12- 1 12.2 Low-Speed Cyclic Transmission Function ..................12- 2 12.2.1 Send range settings ........................12- 3 12.2.2 Send timing........................... 12- 4 12.2.3 Startup ............................12- 7 12.3 Transient Transmission Function .......................
Page 18 APPENDIX App- 1 to App-26 Appendix 1 Cautions for Accessing Redundant CPU System ..............App- 1 Appendix 2 Host Station Status at Power ON/OFF When Using Q80BD-J71LP21S-25 ....... App- 7 Appendix 3 Procedures for Replacing Boards ..................App- 8 Appendix 4 Combinations of Boards with Existing Software ..............App-10 Appendix 5 Checking Serial Number and Function Version ..............
Page 19: Manuals
MANUALS The following table lists the manuals relevant to this product. You can order them as necessary. Relevant Manuals Manual Number Manual Name (Model Code) Q Corresponding MELSECNET/H Network System Reference Manual (PLC to PLC network) SH-080049 This manual explains the system configuration, performance specification, function, handling, wiring and (13JF92) troubleshooting for MELSECNET/H network system.
Page 20: How To Use This Manual
HOW TO USE THIS MANUAL "How to Use This Manual" differs depending on the purpose for which the MELSECNET/H board is used. Use this manual with reference to the following contents. (1) When desiring an overview or to know the features of the MELSECNET/H board (Chapter 1) Chapter 1 gives an overview of the MELSECNET/H board and its features.
Page 21 (10) When desiring to know the interlock related signals (Chapter 11) Chapter 11 gives the interlock related signals. (11) When desiring to know the application functions (Chapter 12) Chapter 12 gives the MELSECNET/H board's application functions. (12) When desiring to know about troubleshooting (Chapter 14) Chapter 14 gives information on troubleshooting.
Page 22: Generic Terms And Abbreviations
Abbreviation for Q81BD-J71LP21-25 MELSECNET/H interface board. Generic term for Q80BD-J71LP21-25, Q81BD-J71LP21-25, Q80BD-J71LP21S-25, Q80BD- MELSECNET/H board J71LP21G, Q80BD-J71LP21GE, and Q80BD-J71BR11. SW0DNC-MNETH-B Product name of the software package for MELSECNET/H interface board. MNETH utility Abbreviation for MELSECNET/H utility General product name for product model names SW8D5C-GPPW-E, SW8D5C-GPPW-EA, GX Developer SW8D5C-GPPW-EV, and SW8D5C-GPPW-EVA.
Page 23: Meaning And Contents Of The Terms
MEANING AND CONTENTS OF THE TERMS This section describes meaning and contents of the terms in this manual. (1) Abbreviations for control station and normal station, and symbol format This section explains abbreviations for control station and normal station, and symbol format to be used in this manual.
Page 24 MEMO A - 22 A - 22...
Page 25: Overview
1 OVERVIEW MELSEC 1 OVERVIEW This is a manual you read when using the MELSCNET/H board in the MELSECNET/H mode or MELSECNET/H Extended mode. When using the MELSCNET/H board in the MELSCNET/H network, refer to "Q Corresponding MELSECNET/H Network System Reference Manual (PLC to PLC network)". Also, when using the board in the MELSECNET/10 network system, refer to "For QnA/Q4AR Corresponding MELSECNET/10 network system reference manual".
Page 26: Features
1 OVERVIEW MELSEC POINT (1) For MELSECNET/H, select QCPUs, RCPUs, and Q compatible network modules. (2) If QnACPU or ACPU are included in the same network, select MELSECNET/10 mode which is compatible with MELSECNET/10. (3) All of network modules and MELSECNET/H boards within the same network must be set to the same mode (network type) 1: MELSECNET/H mode, MELSECNET/H Extended mode and MELSECNET/10 mode are available.
Page 27 1 OVERVIEW MELSEC (4) Compatible with multiple CPU systems. By using station designations of logical station No. on the MNETH utility, MELSECNET/H board is capable of communicating with a multiple CPU system. (5) Compatible with redundant CPU systems. Only by specifying whether the destination is a control or standby station using the user program, access is simply made without considering the current operating system state of the redundant CPU system.
Page 28 1 OVERVIEW MELSEC (9) External power supply allows continuous network communication even during power-off of personal computer. (Function of the Q80BD-J71LP21S-25) Since power is supplied externally, the Q80BD-J71LP21S-25 can continue network communication (baton passing) even if a personal computer is powered off and data link cannot be performed.
Page 29: System Configuration
Optical loop system Install MELSECNET/10 mode MELSECNET/H mode, MELSECNET/H Extended mode MELSECNET/H Optical fiber Optical loop system cable (Type of cable : GI) SW0DNC-MNETH-B Q80BD-J71LP21G MELSECNET/10 Optical loop system MELSECNET/10 mode MELSECNET/H mode, MELSECNET/H Extended mode MELSECNET/H Optical fiber Optical loop system cable (Type of cable : 62.5GI)
Page 30 MELSECNET/H Extended mode. (2) When using the Q80BD-J71LP21S-25 Use the SW0DNC-MNETH-B version 12N or later. (3) When using the Q80BD-J71LP21-25, Q81BD-J71LP21-25 or Q80BD- J71LP21S-25 at a communication speed of 25Mbps, errors may occur at all...
Page 31: Single Network System
2 SYSTEM CONFIGURATION MELSEC 2.2 Single Network System A single network system is one system that connects the control station and the normal stations with an optical fiber cable or a coaxial cable. 2.2.1 Optical loop system In the optical loop system, 1 control station and 63 normal stations (a total of 64 stations) can be connected.
Page 32: Setting Items
2 SYSTEM CONFIGURATION MELSEC 2.2.3 Setting items In a single network system, the items which need to be set in the case that the MELSECNET/H board is used as the control station or normal station are as follows. MELSECNET/H board settings are set by the MNETH Utility. Setting item Control station Normal station Reference section...
Page 33: Multiple Network System
2 SYSTEM CONFIGURATION MELSEC 2.3 Multiple Network System A multiple network system is a system where multiple networks are connected by relay stations. POINT (1) The network No. can be set at any desired No. in the range 1 to 239. (2) The MELSECNET/H board cannot be used as a relay station.
Page 34: Setting Items
2 SYSTEM CONFIGURATION MELSEC 2.3.2 Setting items Setting items in the case that the MELSECNET/H board is used as a control station or normal station in a multiple network system are explained below. MELSECNET/H board settings are performed by the MNETH Utility. Setting item Control station Normal station Reference section...
Page 35: If Used In A Multiple Cpu System Or Redundant Cpu System
2 SYSTEM CONFIGURATION MELSEC 2.4 If used in a Multiple CPU System or Redundant CPU System For cautions in the case of installing MELSECNET/H in a multiple CPU system or redundant CPU system, refer to "Q Corresponding MELSECNET/H Network System Reference Manual (PLC to PLC network)."...
Page 36: Operating Environment
Visual Basic 6.0, Visual C++ 6.0, Visual Basic 5.0, Visual C++ 5.0 1: For a combination of the operating system and the programming language, refer to the Microsoft Knowledge Base. 2: Apply Service Pack1 and Security Update for Windows (KB3033929). Otherwise, use SW0DNC-MNETH-B with the version 29F or earlier.
Page 37 For details on the number of boards that can be installed, installation slot and occupied slots, refer to Section 3.2. (b) The functions being added Operating environment Supported version of SW0DNC-MNETH-B Hyper-Threading technology 11M or later Multiprocessor 19V or later...
Page 38 Upgrading the operating system and updating from Windows 8 to Windows 8.1 are not supported. Install SW0DNC-MNETH-B by following the procedure. 1. Uninstall SW0DNC-MNETH-B. 2. Upgrade or update the operating system. 3. Install SW0DNC-MNETH-B with the version supporting the changed operating system. 2 - 10 2 - 10...
Page 39 2 SYSTEM CONFIGURATION MELSEC (e) The functions cannot be used If an attempt is made to use any of the following functions, this product may not operate normally. • Activating the application with Windows compatible mode. • Simplified user switch-over •...
Page 40 2 SYSTEM CONFIGURATION MELSEC (3) Instructions for user program (a) Supported version of SW0DNC-MNETH-B Supported version of User program SW0DNC-MNETH-B 32-bit version user program All versions 64-bit version user program Version 23Z or later 1: Programs can be created and executed on the 64-bit version operating system.
Page 41: Specifications
3 SPECIFICATIONS MELSEC 3 SPECIFICATIONS This section explains the MELSECNET/H board general specifications, performance specifications. 3.1 General Specifications This section explains the MELSECNET/H board general specifications. Item Specifications 0 to 55 °C Operating ambient temperature -25 to 75 °C Storage ambient temperature Operating ambient humidity 5 to 95 % RH, non-condensing Storage ambient humidity...
Page 42: Performance Specifications
3 SPECIFICATIONS MELSEC 3.2 Performance Specifications MELSECNET/H Board performance specifications are shown below. (1) Q80BD-J71LP21-25, Q81BD-J71LP21-25, Q80BD-J71LP21S-25, Q80BD-J71LP21G, Q80BD-J71LP21GE Specifications Item Q81BD- Q80BD-J71LP21-25 Q80BD-J71LP21S-25 Q80BD-J71LP21G Q80BD-J71LP21GE J71LP21-25 LX/LY 8192 Points Maximum links 16384 Points (When in the MELSECNET/10 Mode : 8192 Points) in 1 network 16384 Points (When in the MELSECNET/10 Mode : 8192 Points)
Page 43 3 SPECIFICATIONS MELSEC 1: The CPU usage may be higher compared to that of Q80BD-J71LP21-25, Q80BD-J71LP21S-25, Q80BDJ71LP21G, Q80BD-J71LP21GE, or Q80BD-J71BR11. (For the solutions to slow PC performance, refer to Section 14.8.) 2: MELSECNET/H board communications rate and Mode settings are performed using the MNETH Utility. (For details, refer to Section 9.2.3) 3: L type and H type of the previous optical fiber cable (A-2- ) differ in the distances between stations.
Page 44: Optical Fiber Cable Specification
3 SPECIFICATIONS MELSEC 3.3 Optical Fiber Cable Specification For the optical fiber cable specification, refer to "Q Corresponding MELSECNET/H Network System Reference Manual (PLC to PLC network)". 3.4 Coaxial Cable Specification For the coaxial cable specification, refer to "Q Corresponding MELSECNET/H Network System Reference Manual (PLC to PLC network)".
Page 45: Function
FUNCTION MELSEC 4 FUNCTION This chapter explains the function of MELSECNET/H board. 4.1 Function List The following flowchart shows the function list for MELSECNET/H board. Basic Cyclic transmission function Communication LB/LW functions (Periodical communication) Communication LX/LY Refer to Q Corresponding RAS function Automatic return function MELSECNET/H Network System...
Page 46: Specifications Of The Link Data Sending/Receiving Processing Time
FUNCTION MELSEC 4.2 Specifications of the Link Data Sending/Receiving Processing Time This section explains the link data sending/receiving processing in the MELSECNET/H network system with MELSECNET/H board. 4.2.1 Link data sending/receiving processing (1) Link data sending/receiving processing In the cyclic transmission, communication is performed using the LB/LW/LX/LY devices of the network module and MELSECNET/H board.
Page 47 FUNCTION MELSEC (2) Link scan and link refresh The link scan is executed "asynchronous" with the sequence scan of the CPU module. The link refresh is executed by the "END processing" of the CPU module. Sequence scan Link refresh Link refresh Link refresh Link scan (3) Link data when a communication error station or communication...
Page 48 FUNCTION MELSEC (4) SB/SW when a communication error station/communication stop station occurs on the network The status of whether there are any communication error/communication stop stations on the network can be checked with the link special relay/register (SB/SW). Use them as interlocks for programs. For interlock program examples, refer to the following manual.
Page 49: Driver Wdt Function
FUNCTION MELSEC 4.3 Driver WDT function Driver WDT function monitors the operation of the software (operating system, driver) inside the hardware by the timer function on MELSECNET/H board. When the driver cannot reset the timer of the board within the specified driver WDT monitoring time, MELSECNET/ board detects driver WDT error.
Page 50 FUNCTION MELSEC MEMO 4 - 6 4 - 6...
Page 51: Emc And Low Voltage Directive
CE marking. (1) Sales representative in EU member states The authorized representative in EU member states will be: Company name: Mitsubishi Electric Europe BV Address: Mitsubishi-Electric-Platz 1, 40882 Ratingen, Germany 5.1 Measures to comply with the EMC Directive...
Page 52: Emc Directive Related Standards
5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC 5.1.1 EMC Directive related standards The standards applicable to the EMC Directive are listed below. All test items were tested by installing each device on a personal computer bearing a CE certification logo. (1) Emission requirements Standard Test item...
Page 53: Installation In A Control Panel
5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC 5.1.2 Installation in a control panel The installation in the control board ensures safety as well as effective shielding of personal computer-emitted electromagnetic noise. (1) Control panel Use a conductive control panel. Mask off the area used for grounding when securing the top or bottom plate to the control panel using bolts.
Page 54: Cables
5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC 5.1.3 Cables Use a shielded cable for the cable extended out of the control panel. If a shielded cable is not used or not grounded correctly, the noise immunity will not meet the required value. (1) Grounding a shield cable (a) Ground the shield of the shield cable as near the exit as possible from the control panel.
Page 55: Ferrite Core
5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC (3) Grounding cables with a cable clamp Ground the shield of the external wiring cable to the control panel with the AD75CK cable clamp (Mitsubishi).(Ground the shield within 20 to 30cm from the module.).
Page 56: Requirements For Conformance To Low Voltage Directive
5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC (2) Ground the ground terminal of the noise filter to the ground point of the control panel with the shortest ground wire possible (approximately 10cm). 5.2 Requirements for Conformance to Low Voltage Directive The MELSECNET/H board is out of the requirement for conformance to the Low Voltage Directive, since it does not use the power supply in the range of 50 to 1000V AC and 75 to 1500V DC.
Page 57: Procedure And Settings Up To The Point Of Operation
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION This section explains the operating procedure up to the point the MELSECNET/H board is operated. 6.1 Procedure Up to the Point of Operation An outline of the procedure up to the point of MELSECNET/H board operation is explained below.
Page 58: Part Names And Settings
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.2 Part Names and Settings The names of each part of the MELSECNET/H board and their settings are explained below. <Q80BD-J71LP21-25, Q81BD-J71LP21-25, Q80BD-J71LP21G, Q80BD-J71LP21GE, Q80BD-J71BR11> <Q80BD-J71LP21S-25> 6 - 2 6 - 2...
Page 59 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC Name Description Indicates the operating status of the MELSECNET/H board. Refer to (1) in this Section. Indicator LED Connector for connecting optical fiber cable. The cable terminal is as shown below. ERR.
Page 60 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 1: The jumper is provided for all of the Q80BD-J71LP21S-25, Q81BD-J71LP21-25, and the Q80BD-J71LP21-25 and Q80BD-J71LP21G of the following serial No. Q80BD-J71LP21-25: The sixth digit (from the left) of the serial No. is 7 or higher. Q80BD-J71LP21G, Q80BD-J71LP21GE: The sixth digit (from the left) of the serial No.
Page 61 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (1) Indicator LED Display the operating status of the MELSECNET/H board status. ERR. (a) When the RUN LED is ON or OFF The same LED display as a network module. Name Status Description...
Page 62 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (b) When the RUN LED is flashing An error which is peculiar to boards has occurred. Check on the "Event Viewer" screen and take corrective action. (Refer to Section 14.3.2) Name Status Description...
Page 63: Installation
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.3 Installation This section explains precautions when handling the MELSECNET/H board and the installation environment. 6.3.1 Handling precautions The following are precautions to be noted when handling the MELSECNET/H board. •...
Page 64: Board Installation
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.3.3 Board installation The following flowchart shows the board installation procedure. Start ↓ Power OFF Power OFF the personal computer. ↓ Install the board Install the board to a slot on the personal computer. ↓...
Page 65: Channel No. Settings
After the change, the set assignment in "Channel No. Setting" becomes valid. POINT As MNETH utility products (SW0DNC-MNETH-B) (version 19V or later) store channel numbers assigned to each MELSECNET/H board, these channel numbers will automatically be set when a PCI slot is changed.
Page 66: Wiring
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.4 Wiring This section explains precautions when connecting cables to MELSECNET/H board. (1) Precautions on general wiring • Be sure to shut off all phases of the external power supply used by the system WARNING before performing work such as installing the board and wiring.
Page 67 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (3) Precautions on external power supply cable wiring • Verify the rated voltage and pin assignment of the product and connect the external CAUTION power supply cable properly. Connecting a power supply with a different voltage rating, imperfect cable crimping or faulty wiring may cause a fire or failure.
Page 68: Optical Loop System
Maintain the bending radius of the optical fiber cable within the allowable range using a tool for securing the optical fiber cable bending radius. This tool may be purchased from Mitsubishi Electric System Service, Inc, or your nearest dealer. Please inquire for more information.
Page 69 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (2) Cable connection How to connect the cable Connect the IN and OUT terminals with optical fiber cables as shown below. Stations do not have to be connected in the order of station numbers. Any station number can be assigned as the control station.
Page 70: Coaxial Bus System
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.4.2 Coaxial bus system This section explain precautions for connection of the coaxial cable and Q80BD- J71BR11 in the coaxial bus system. (1) Precautions in connecting Restrictions on the cable length between the stations When connecting between the network modules, the cable lengths indicated in the table below should be used according to the number of stations connected.
Page 71 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (c) When connecting a coaxial cable, the following restrictions on the bending radius must be observed. Allowable bending radius Connector Cable type r [mm (in.)] A (mm (in.)) 3C – 2V 23 (0.91) 55 (2.17) 5C –...
Page 72 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (2) Cable connection Connection method Connect the coaxial cable as shown below. Always install a terminal resistor (sold separately: A6RCON-R75) to the stations connected at both ends. The F-type connector comes with the Q80BD-J71BR11. Without a repeater module Normal station Normal station...
Page 73 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC With a repeater module (branch connection) Normal station Normal station Station No. 2 Station No. 3 Control station Station No. 1 QJ71BR11 QJ71BR11 Personal F-type connector F-type connector F-type connector computer Q80BD- T-type connector...
Page 74 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC Installing the coaxial cable The following shows how to install the coaxial cable: Q80BD-J71BR11 Start (Installation) Jack Power off the personal computer. Plug Projection Insert the plug by aligning the groove of the plug with the projection of the jack.
Page 75: Connecting The Connector For The Coaxial Cable
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.4.3 Connecting the connector for the coaxial cable The following section explains how to attach the BNC connector (connector plug for the coaxial cable) to the cable. (1) Using a BNC connector manufactured by DDK Ltd. The following explains how to connect the BNC-P-3-NiCAu or BNC-P-5-NiCAu to the cable.
Page 76 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC Solder the contact to the internal conductor. Solder here. Insert the connector assembly in 4) into the plug shell and screw the nut into the plug shell. POINT (1) Note the following precautions when soldering the internal conductor and contact.
Page 77 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (2) Using a BNC connector manufactured by Canare Electric Co., Ltd. The following explains how to connect the BCP-C3B, BCP-C5B, or BCP-C5FA to the cable. Structure of the BNC connector and coaxial cable Structure of the coaxial cable Components of the BNC connector External conductor...
Page 78 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC After the crimp, check the crimp height of the crimp part. When the crimp height at the measurement position is between 1.4mm and 1.5mm, the pin is properly crimped. If the crimp height is not between 1.4mm and 1.5mm, adjust the crimp tool and crimp the center contact pin again.
Page 79: External Power Supply Cable Wiring
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.4.4 External power supply cable wiring This section explains how to connect the external power supply cable to the Q80BD- J71LP21S-25. (1) Connection steps Connect the external power supply cable to the Q80BD-J71LP21S-25 in the following steps: Start Refer to (2) in this section...
Page 80 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (3) Making external power supply cable Make an external power supply cable as follows: (a) Crimping to the contacting pin Using a crimping tool, crimp the cable and contacting pin. Set the contacting pin and cable in the grooves of the crimping tool and squeeze the handle tightly.
Page 81: Test
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.5 Test Before executing the data link operation, check the MELSECNET/H board and the cables. Select a test item using the mode setting switch on the "Board information" screen in the MNETH Utility.
Page 82: Self-Loopback Test
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.5.1 Self-loopback test In this section, a check of the hardware, including the MELSECNET/H board itself, the transmission and reception lines in the transmission system and the cable, is conducted.
Page 83 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC Click the Board Set button in the "Board Information" screen of the MNETH utility to run the self-loopback test, checking the LED status in the "Board Information" screen to confirm the execution state. T.
Page 84: Internal Self-Loopback Test
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.5.2 Internal self-loopback test In this section, a check of the hardware, including the transmission and reception lines in the transmission on the MELSECNET/H board itself, is conducted. Optical fiber cables are not connected to the Q80BD-J71LP21-25, Q81BD- J71LP21-25, Q80BD-J71LP21S-25, Q80BD-J71LP21G and Q80BD-J71LP21GE (for the optical loop system).
Page 85 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC Click the Board Set button in the "Board Information screen of the MNETH utility to run the Internal self-loopback test, checking the LED status in the "Board Information" screen to confirm the execution state. T.
Page 86: H/W Test
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.5.3 H/W test This test checks the internal hardware on the MELSECNET/H board. Connect the optical fiber cables to the IN and OUT sides of the Q80BD-J71LP21- 25, Q81BD-J71LP21-25, Q80BD-J71LP21S-25, Q80BD-J71LP21G and Q80BD- J71LP21GE (for the optical loop system).
Page 87: Station To Station Test
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.5.4 Station to station test In the station to station test, the hardware of the MELSECNET/H board, network modules and cables between two adjacent stations can be checked. The following explains how to conduct the station to station test: REMARK This section explains concerning the MELSECNET/H board.
Page 88 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC REMARK Before conducting the station to station test when three or more stations are connected by the coaxial bus system, any stations that are not tested should be switched to offline or powered off. Station to Station to Offline or...
Page 89 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC Click the Board Set button in the "Board Information" screen of the MNETH utility to run the station to station test, checking the LED status in the "Board Information" screen to confirm the execution state. If T.
Page 90: Forward Loop/Reverse Loop Test
6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6.5.5 Forward loop/Reverse loop test Using the forward loop / reverse loop test you can check the Q80BD-J71LP21-25, Q81BD-J71LP21-25, Q80BD-J71LP21S-25, Q80BD-J71LP21G, Q80BD-J71LP21GE network module and cable hardware after all the stations have been connected with optical fiber cable, and can also check if the IN and OUT cables have been connected correctly.
Page 91 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC (3) Checking the test results Click the Board Set button in the "Board Information" screen in the MNETH utility to run the forward loop/reverse loop test, and check the execution state by the status of the LED's in the "Board Information"...
Page 92 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC MEMO 6 - 36 6 - 36...
Page 93: Parameter Settings
7 PARAMETER SETTINGS MELSEC 7 PARAMETER SETTINGS It is necessary to set the MELSECNET/H board's parameters using the MNETH utility in order to operate the MELSECNET/H. In setting of the parameters, after the MELSECNET/H is selected, it can be set even to the details of the application functions.
Page 94: Board Information Settings
For the MELSECNET/H Extended mode, use the MELSECNET/H board of ROM version 2X or later and the SW0DNC-MNETH-B of version 11M or later. When a MELSECNET/H board incompatible with the MELSECNET/H Extended mode is used, the system does not operate normally.
Page 95: Network Settings
7 PARAMETER SETTINGS MELSEC 7.2 Network Settings These are the parameters used to build the MELSECNET/H network. The MELSECNET/H board’s network No., station No., control station/normal station setting and group No. are set. 7.2.1 Network No. Set the Network No. of the network which the MELSECNET/H board is connected to. To set the network No, set it in the "Board Information"...
Page 96: Group No
7 PARAMETER SETTINGS MELSEC 7.2.4 Group No. This sets the MELSECNET/H board's group No. Set the group No. setting in the "Board Information" screen of the MNETH utility. (1) Valid setting range 0: No group setting 1 to 9: When in the MELSECNET/10 Mode 1 to 32: When in the MELSECNET/H Mode and MELSECNET/H Extended Mode (2) Cautions Only one Group No.
Page 97: Parameter Setting Example
7 PARAMETER SETTINGS MELSEC 7.2.6 Parameter setting example An example of setting the MELSECNET/H board parameters is shown below. (1) System example Control Station (1Mp1) Port No. 51 MELSECNET/H (25 Mbps) Network No. 1 1Ns2 1Ns8 (2) Setting screen (Board information screen) 7 - 5 7 - 5...
Page 98: Send Range For Each Station (Lb/Lw Settings)
7 PARAMETER SETTINGS MELSEC 7.3 Common Parameters The common parameters are used to set the cyclic transmission ranges of LB, LW, LX and LY that can be sent by each station in a single network. The common parameter settings are required only for the control station. The data of the common parameters are sent to the normal stations when the network starts up.
Page 99 7 PARAMETER SETTINGS MELSEC (2) Screen settings (Common parameter setting screen) Perform the setting of each station's transmission range (LB/LW settings) in the "Common parameter setting" screen in the MNETH utility. POINT In order to validate the guarantee of 32-bit data, it is necessary that the number of points in each station's transmission range be a multiple of 20 for LB and a multiple of 2 for LW and that each station's top device No.
Page 100: Send Range For Each Station (Lx/Ly Settings)
7 PARAMETER SETTINGS MELSEC 7.3.2 Send range for each station (LX/LY settings) Set send ranges for each station of LX/LY, which represent the amount of data that can be sent by each station in a single network in one (two) block units. The link devices (LX/LY) between the I/O master station (M station) and other station (L station) are assigned 1:1.
Page 101 7 PARAMETER SETTINGS MELSEC (2) Screen settings (Common parameter settings) To set the transmission range for each station (LX/LY settings), perform the settings in "Common parameter settings" in the MNETH utility. (3) Precaution Duplicate link device ranges cannot be assigned to each station between block 1 and block 2.
Page 102: Total Station
7 PARAMETER SETTINGS MELSEC 7.3.3 Total station This sets the total number of control stations, normal stations and reserved stations in a single network. Set the total number of link stations in the "Common parameter settings" screen in the MNETH utility. Total station MELSECNET/H Board 1Mp1...
Page 103: Supplementary Setting
7 PARAMETER SETTINGS MELSEC 7.4 Supplementary Setting The supplementary settings are included in the common parameter settings. They can be used when more specific applications are required. The default settings should normally be used. The supplementary settings (common parameter settings) are required only for the control station.
Page 104: Control Station Return Setting
7 PARAMETER SETTINGS MELSEC 7.5 Control Station Return Setting This parameter is used to designate the type of station used by the control station when returning to the network in the control station return control. Select this parameter to make the control station return as a normal station without stopping the baton pass in the system in operation.
Page 105: Installing And Uninstalling Software Package
Microsoft Corporation.  A network drive cannot be specified as the installation destination.  When using SW0DNC-MNETH-B version 30G or later, apply Service Pack1 and Security Update for Windows(KB3033929) in Windows 7 and Windows Server 2008 ...
Page 106: Installation
MELSEC Data Link Library Reference Manual Displays MELSEC Data Link Library Reference Manual. (Board) When the MELSEC Data Link Function HELP and a manual are registered both, refer to the manual. Name SW0DNC-MNETH-B SW1DNC-CCBD2-B SW1DNC-MNETG-B SW1DNC-CCIEF-B MELSEC Data Link Library 27D or later 1.15R or later...
Page 107 MELSEC data link library is used for the following software packages in common. When the utilities are installed on the same personal computer, the newer MELSEC data link library of the software package is enabled.  SW0DNC-MNETH-B  SW1DNC-CCBD2-B  SW1DNC-MNETG-B  SW1DNC-CCIEF-B...
Page 108: Uninstallation
8 INSTALLING AND UNINSTALLING SOFTWARE PACKAGE MELSEC 8.3 Uninstallation This section explains a procedure for uninstalling the software package. (1) Uninstallation procedure Uninstall the software package from the control panel of Windows. POINT • If the dialog box confirming the deletion of common files appears at uninstallation, make the setting to keep all common files.
Page 109: Utility Operations
9 UTILITY OPERATIONS MELSEC 9 UTILITY OPERATIONS 9.1 Starting and Ending Utility The following explains the operating method to start/end the utility. 9.1.1 Starting a utility Start the MNETH utility by clicking [MELSEC] — [MELSECNET_H Utility(Board)] registered in the start of Windows *1: [Start screen] - [All apps] or [Start] - [All Programs] POINT...
Page 110: Ending A Utility
9 UTILITY OPERATIONS MELSEC 9.1.2 Ending a utility The following explains how to end the utility. To end the MNETH utility, click the Exit button at the bottom of the utility screen. Click! 9.2 MNETH Utility This section explains the MNETH utility's screen explanations and operation methods. 9 - 2 9 - 2...
Page 111: Screen Configuration And Basic Operations
9 UTILITY OPERATIONS MELSEC 9.2.1 Screen configuration and basic operations The following explains the screen configuration displayed at starting the MNETH utility. Item Description Reference Displays the list of MELSECNET/H boards installed in the Boad list Section9.2.2 personal computer. Board information Sets the own station information and each setting item.
Page 112: Board List Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.2 Board list screen operation This operation displays the hardware information, and confirms and sets the channel No. set in the MELSECNET/H board. (1) Board List Screen Item Content Channel No. Displays the MELSECNET/H board's channel No. Displays the model name of the connected MELSECNET/H board.
Page 113 9 UTILITY OPERATIONS MELSEC (2) Channel No. Confirm Screen Clicking the Channel No. Confirm screen in the "Board List" screen displays the following dialog box, and enables the user to check the channel No. by the status of the display LED's on the MELSECNET/H board. Item Content Channel No.
Page 114: Board Information Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.3 Board information screen operation The Board information screen is used to set and display various information about the installed MELSECNET/H board. Item Content Channel Sets a channel (MELSECNET/H board) to be used. Own Station Information Displays information and changes setting on the host.
Page 115 9 UTILITY OPERATIONS MELSEC Item Content Selects the network where the MELSECNET/H board is connected. When "25 Mbps" is selected in the transmission speed item above, this item cannot be selected. Net Mode Description MNET/H Mode Selected when the MELSECNET/H is connected. NET mode MNET/10 Mode Selected when the MELSECNET/10 is connected.
Page 116: Routing Parameter Setting Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.4 Routing Parameter Setting screen operation The routing parameter setting screen is used to set the transfer destination, relay destination network number, and relay destination station number. POINT (1) The routing parameters are common with channels No. 51 to 54. They cannot be set one channel No.
Page 117: Common Parameter Setting Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.5 Common parameter setting screen operation This operation sets the common parameters necessary for establishing data links. Display is possible only when the MELSECNET/H board is in the control station. (1) B, W setting screen Item Content Channel Selects the channel (MELSECNET/H board) performing the settings.
Page 118 9 UTILITY OPERATIONS MELSEC (2) X, Y setting screen Item Content Selects the channel (MELSECNET/H board) performing the settings. Channel Block 1 setting (Block 2 setting) Switches the block that is set. Input the total number of stations (including the control station) in the network that the Total station MELSECNET/H board is the control station for.
Page 119 9 UTILITY OPERATIONS MELSEC (3) Reserved station setting screen Item Content Selects the channel (MELSECNET/H board) performing the settings. Channel This sets reserve stations. Sta. No. If a check mark is placed in the check box, that station is set as a reserve station. 9 - 11 9 - 11...
Page 120 9 UTILITY OPERATIONS MELSEC (4) Supplementary setting screen Item Content Channel Selects the channel (MELSECNET/H board) performing the settings. Sets a constant link scan. (Setting range: 1 to 500 ms) If it is not run, do not Constant scan input anything. Maximum No.
Page 121: Loop Monitor Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.6 Loop monitor screen operation This screen is used to monitor the loop status of the host. Item Content Channel Sets the channel (MELSECNET/H board) perform loop monitor. Own Station Information Displays the host information. Displays the host's loop status using characters and graphics. Also, images are changed as shown below according to the connection status.
Page 122: Each Station Status Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.7 Each station status screen operation This screen displays communication status and loop status for each station. Item Content Sets the channel (MELSECNET/H board) perform each station status. Channel Displays the host information. Own Station Information Displays the communication status and loop status for every link station that is set using parameters.
Page 123: Error History Monitor Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.8 Error history monitor screen operation This screen displays the history of loop errors, communication errors, and transient transmission errors. POINT (1) Up to 16 items are stored in the loop switch data history. When there are more than 16 items, items will be erased from the history, starting with the oldest one.
Page 124 9 UTILITY OPERATIONS MELSEC Item Content Displays the error code occurring when transient transmission was executed at the host. Item Description Transient Transmission Error Error code Displays the code of the error occurring due to transient transmission. Error type Displays the type of the error occurring due to transient transmission. Displays the number of error occurrences.
Page 125 9 UTILITY OPERATIONS MELSEC 1 : The following explains the error causes and the corresponding corrective actions. In addition to Error history monitor screen, they can be confirmed using the following link special registers (SW). For more information of each link special registers (SW), refer to "Q Corresponding MELSECNET/H Network System Reference Manual (PLC to PLC network)".
Page 126: Memory, I/O Test Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.9 Memory, I/O Test screen operation This operation diagnoses between the MELSECNET/H board and personal computer. POINT (1) If you are starting the diagnosis, do so after disconnecting the external cables. (2) If you desire to switch screens during the diagnosis, click the Stop button, switching screens after stopping the diagnosis.
Page 127: Target Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.10 Target screen operation This operation sets the logical station No. for access to a multiple CPU system or Redundant CPU system. Item Content Channel Sets the channel (MELSECNET/H board) perform the target settings. Logical Sta. No. Input the logical sta.
Page 128: Driver Screen Operation
9 UTILITY OPERATIONS MELSEC 9.2.11 Driver screen operation This operation sets the combination settings between the MELSECNET/H board and MELSECNET/10 board and sets the link device access method and the time for each type of monitoring. Item Content Channel Sets the channel (MELSECNET/H board) which sets the link device access method. Link Device Access Method Sets the access method to link devices (LX, LY, LB, LW).
Page 129 9 UTILITY OPERATIONS MELSEC (1) Link Device Access Method Item Description Makes access to the MELSECNET/H driver buffer. Data in the MELSECNET/H driver buffer and the refresh data storage area on the MELSECNET/H board are updated by link refresh. When secured data handling is specified with the control station parameter, data consistency of link device data is ensured.
Page 130: Device Monitor Utility
9 UTILITY OPERATIONS MELSEC POINT (1) Relation between link refresh interval value and delay time in data reading The maximum delay time (T ) from when link device data arrive at the D(MAX) refresh data storage area on the MELSECNET/H board until they are read out into the user program can be obtained from the following formula.
Page 131: Melsec Data Link Library
10 MELSEC DATA LINK LIBRARY MELSEC 10 MELSEC DATA LINK LIBRARY This chapter describes the functional overview offered by the library. These functions are used when creating a user program that communicates with a programmable controller CPU. With the functions, the user can perform communication without being conscious of the hardware type on the opposite side or the communication protocol.
Page 132 10 MELSEC DATA LINK LIBRARY MELSEC MEMO 10 - 2 10 - 2...
Page 133: Programming
11 PROGRAMMING MELSEC 11 PROGRAMMING 11.1 Cautions in Programming This section explains concerning cautions in the case that a program is created using data on a network. 11.1.1 Interlock related signals Show a list of the interlock signal devices used in the user program. For other hosts and other stations, refer to the "Q Corresponding MELSECNET/H Network System Reference Manual (PLC to PLC network)"...
Page 134 11 PROGRAMMING MELSEC Assignment of link special relays (SB) and link special registers (SW) when multiple boards are installed Device status Device Name Description Off (0) On (1) Indicates the communication status between SB20 Module status Normal Abnormal MELSECNET/H board and personal computer. Indicates the baton pass status of the host.
Page 135: Cyclic Transmission
11 PROGRAMMING MELSEC 11.2 Cyclic Transmission The link scan of the MELSECNET/H and the programmable controller of the user program operate asynchronously. Depending on the timing of the user program execution, link data with data types of more than 32 bits (two words), such as the ones below, may be broken up into new and old data, which may coexist in 16 bit (one word) units.
Page 136: Block Guarantee Of Cyclic Data Per Station
11 PROGRAMMING MELSEC 11.2.1 Block guarantee of cyclic data per station By enabling the parameter settings shown below, handshaking for the cyclic data is performed between the PC and the MELSECNET/H board and then the network is refreshed. Through the cyclic data handshaking, the link data block is guaranteed for each station (to prevent link data separation per station As shown below, set the send and receive parameters as needed.
Page 137: Link Special Relays (Sb)/Registers (Sw)
11 PROGRAMMING MELSEC 11.3 Link Special Relays (SB)/Registers (SW) The data linking information is stored in the link special relays (SB)/registers (SW). They can be used by the user program, or used for investigating faulty areas and the causes of errors by monitoring them. The following table shows which SB and SW can be used to check which information.
Page 138 11 PROGRAMMING MELSEC MEMO 11 - 6 11 - 6...
Page 139: Application Functions
12 APPLICATION FUNCTIONS MELSEC 12 APPLICATION FUNCTIONS Basic Communication LB/LW Cyclic transmission function functions (Periodical communication) Communication LX/LY Refer to Q Corresponding RAS function Automatic return function MELSECNET/H Network System Control station switch function Reference Manual (PLC to PLC network) Control station return control function Loopback function (optical loop system) Prevention of station failure by using external...
Page 140: Low-Speed Cyclic Transmission Function
12 APPLICATION FUNCTIONS MELSEC 12.2 Low-Speed Cyclic Transmission Function POINT The Q00J/Q00/Q01CPU does not support the low-speed cyclic transmission function. Therefore, the low-speed cyclic transmission function cannot be used in MELSECNET/H that connects the Q00J/Q00/Q01CPU. The low-speed cyclic transmission function is convenient when sending data that does not require high-speed transfer to other stations in a batch mode using the cyclic devices (LB/LW).
Page 141: Send Range Settings
12 APPLICATION FUNCTIONS MELSEC 12.2.1 Send range settings Each station's send range of link devices (low-speed LB, low-speed LW) is assigned to the extended area (2000 to 3FFF) in 16-point units for LB (start : 0 to end F) and in one-point units for LW. Each station's send range can also be assigned using a random station number assignment sequence.
Page 142: Send Timing
12 APPLICATION FUNCTIONS MELSEC 12.2.2 Send timing The low-speed cyclic transmission is executed separately from the normal cyclic transmission. This section describes the setting, processing interval and link cycle of the low-speed cyclic transmission. (1) Transmission setting The link cycle of the low-speed cyclic transmission varies depending on its transmission setting.
Page 143 12 APPLICATION FUNCTIONS MELSEC (2) Transmission processing interval The following system configuration example is used for subsequent explanations. control normal normal normal station station station station When "Transmit data of one station in 1 link scan", "Fixed term cycle interval setting (Maximum no.
Page 144 12 APPLICATION FUNCTIONS MELSEC When "Fixed term cycle interval (Maximum no. of transients: 2)" and "System times (Maximum no. of transients: 2)" are set Low-speed cyclic transmission 1 sending 2 sending 3 sending 4 sending Normal Normal link scan link scan Transmission processing interval (3) Link cycle Link cycle examples of the low-speed transmission are as shown below.
Page 145: Startup
12 APPLICATION FUNCTIONS MELSEC 12.2.3 Startup (1) Sending of data for one station per link scan (default) The low-speed cyclic data for a maximum of one station is sent in one link scan of the normal cyclic transmission. [Setting method] Click ( ) "Transmit data of one station in 1 scan"...
Page 146 12 APPLICATION FUNCTIONS MELSEC (3) System timer interval The low-speed cyclic data are sent in the link cycle at the designated time. By omitting year, month, and day in the setting, the low-speed cycle transmission can be activated yearly (or monthly, or daily). Hour, minute and second values must be entered.
Page 147: Transient Transmission Function
12 APPLICATION FUNCTIONS MELSEC 12.3 Transient Transmission Function The transient transmission function performs data communication only when it is requested between stations. In the MELSECNET/H, data communication can be performed with other stations having the same network number (the same network as where the host is connected), as well as with stations having other network numbers.
Page 148: Communication Function
12 APPLICATION FUNCTIONS MELSEC 12.3.1 Communication function (1) Parameter settings Set the execution conditions for the transient transmission with the parameters listed below. In the default settings, both the number of transients that one network can execute in one link scan ("Maximum no. of transients in 1 scan") and the number of transients that one station can execute in one link scan ("Maximum no.
Page 149 12 APPLICATION FUNCTIONS MELSEC (2) Transient transmission range In a multiple network system of the MELSECNET/H, communication can be performed with stations in a maximum of eight networks by setting the routing parameters described in Section 12.3.2. The following diagram illustrates the transient transmission range using an example where the destinations are limited to eight networks.
Page 150 12 APPLICATION FUNCTIONS MELSEC [Transient transmission valid range] The following table shows the valid ranges of send/receive by transient transmission using the network configuration on the previous page. In the table below, , and indicate whether or not the transient transmission between the request source (destination) listed in the column at the left and the request destination (source) listed in the row at the bottom is possible.
Page 151: Routing Function
12 APPLICATION FUNCTIONS MELSEC 12.3.2 Routing function The routing function is used to execute transient transmissions to stations having other network numbers in a multiple network system. In order to execute the routing function, it is necessary to set the "routing parameters" to associate the network numbers of the request source and the station that will function as a bridge between the networks.
Page 152 12 APPLICATION FUNCTIONS MELSEC Setting for 2N 4 that function as a bridge It is not necessary to set the routing to the Transfer to because the host is on the same network as the destination transfer (3). However, it is necessary to set the Transfer from network number (1) as the Transfer to network number and to designate the relay station (2M 1) and the...
Page 153 12 APPLICATION FUNCTIONS MELSEC (2) Routing parameter settings Setting screen A maximum of 64 "Transfer to Network No." can be set on the "Routing Parameter Setting" of the MNETH utility. Note that the same Transfer to network number cannot be designated more than once (multiple).
Page 154 12 APPLICATION FUNCTIONS MELSEC (3) Settings for different network system configurations and setting contents The stations to set for the transient transmission and the contents of the routing parameters vary depending on the system configuration. Single network system It is not necessary to set the routing parameters for the transient transmission to the same network.
Page 155 12 APPLICATION FUNCTIONS MELSEC POINT (1) When a network is connected in a loop as shown in the figure below, make sure to set the routing parameters so that the same relay station is routed for both the "route from request source to request designation" and the "route back from request destination to request source."...
Page 156 12 APPLICATION FUNCTIONS MELSEC (4) Calculation of transmission delay time The processing time of the transient transmission instruction to access a station on other network in a multiple network system can be obtained by adding the following transmission delay factors. (Routing transmission delay time) = (processing time from request source to relay station) + (processing time from relay station to request destination) Processing time from request source to relay station...
Page 157 12 APPLICATION FUNCTIONS MELSEC (5) Setting example The routing parameter setting examples (A and B) are explained using the system configuration explained in Section 12.3.2. 2) Relay station 3) Relay station 4) Relay station QCPU 1M QCPU 1N 2 2M QCPU 2N 2 3N QCPU 3N...
Page 158 12 APPLICATION FUNCTIONS MELSEC Setting example B The routing parameters must be set for the request source1), relay station 2), relay station 3), relay station 4), relay station 5), relay station 6), relay station 7), and relay station 8). In addition, there are two types of routing parameter settings; one is used when sending data from the request source to the request destination (when sending a request), and the other is used when returning from the request destination to the request source (when sending a response).
Page 159: Group Function
12 APPLICATION FUNCTIONS MELSEC 12.3.3 Group function The group function is used to group the target stations of a transient transmission and send data to all of the stations in a group with a single instruction. One network may have a maximum of 32 groups. By setting a group designation to the target station number in the control data of a dedicated instruction, stations with the matching group number retrieve the transient data.
Page 160: Send/Recv Function
12 APPLICATION FUNCTIONS MELSEC 12.3.4 SEND/RECV function The SEND/RECV function sends/receives data to/from other station's programmable controller using the MELSEC data link library function. This function supports the SEND/RECV instruction of link dedicated instruction. POINT For details of the functions, refer to "MELSEC Data Link Library Reference Manual". (1) SEND function The SEND function sends data from the own station to the specified channel of the specified station using the mdSend function.
Page 161 12 APPLICATION FUNCTIONS MELSEC POINT (5) The multiple network modules are installed on the target station Specify the network number and station number of the network module which is to be received request from the own station. Specify 1N 2 in the following example. (2M 1 cannot be specified.) (Own station) (Target station)
Page 162 12 APPLICATION FUNCTIONS MELSEC < Operation when 128 received data are already stored in the reception buffer of the driver > When 128 received data are already stored in the reception buffer of the driver, the subsequent data are received by the board once, but the driver automatically discards those received data at the time of storage to the reception buffer of the driver.
Page 163: Multiplex Transmission Function (Optical Loop System)
12 APPLICATION FUNCTIONS MELSEC 12.4 Multiplex Transmission Function (Optical Loop System) The multiplex transmission function allows high-speed communications using duplex transmission paths (both the forward and reverse loops) in the optical loop system. In order to execute the multiplex transmission function, setting for the "Supplementary settings"...
Page 164 12 APPLICATION FUNCTIONS MELSEC MEMO 12 - 26 12 - 26...
Page 165: Error Code
13 ERROR CODE MELSEC 13 ERROR CODE For details of error codes displayed on the error messages of the utility, refer to the following manual. MELSEC Data Link Library Reference Manual For details of error codes displayed on the Error history monitor screen (Section 9.2.8) of the utility, refer to the following manual.
Page 166 13 ERROR CODE MELSEC MEMO 13 - 2 13 - 2...
Page 167: Troubleshooting
14 TROUBLESHOOTING MELSEC 14 TROUBLESHOOTING This section explains the identification of the causes and troubleshooting when an error occurred. (1) Basic checking procedure Check if there is a corresponding error symptom written in "Cause Determination Methods by Type of Trouble". (Refer to Section 14.1) If the corresponding error could not be found, check the cause by following the procedure shown below.
Page 168: Cause Determination Methods By Type Of Trouble
14 TROUBLESHOOTING MELSEC 14.1 Cause Determination Methods by Type of Trouble When an error occurs, use the table below to find the section that describes an appropriate method to determine the cause. Error detail Cause determination method/Corrective action MELSECNET/H board did not operate normally upon startup.
Page 169 14 TROUBLESHOOTING MELSEC Error detail Cause determination method/Corrective action The driver is not normally installed. Refer to Section 14.3.3. A " ! " mark is displayed next to the icon of the driver on the Windows Device Manager screen. An error message is displayed in utility. 1) "It failed to read the utility file version"...
Page 170 14 TROUBLESHOOTING MELSEC Error detail Cause determination method/Corrective action CPU modules other than QCPU (Q mode) cannot be CPU modules other than QCPU cannot be accessed. accessed to the 64-bit version of user application. Use 32-bit version of user application. 1) Check if the display settings on the [Device Manager] or other relevant functions are correct, and install an appropriate display driver.
Page 171: Troubleshooting Of Installation And Uninstallation
14 TROUBLESHOOTING MELSEC 14.2 Troubleshooting of Installation and Uninstallation The following explains the troubleshooting for error at installation and uninstallation. 14.2.1 Installation failed When the installation is aborted or failed, reinstall the utility by the following procedure. 1. Check the installation and uninstallation precautions. (Refer to Section 8.1) 2.
Page 172 3. Display the "Run" screen from the Start menu or Quick Access Menu of Windows 4. Append "-G" and execute "Disk1\Setup.exe" on the CD-ROM. 5. Perform the uninstallation. POINT The option to append "-G" to Setup.exe is supported only by SW0DNC-MNETH-B Version 27D or later. 14 - 6 14 - 6...
Page 173: When The Instruction Displayed On The Screen Is Not Effective At Installation
14 TROUBLESHOOTING MELSEC 14.2.3 When the instruction displayed on the screen is not effective at installation The following tables show the instruction when the screen is displayed. Screens Instructions This screen is displayed when user account control is enabled. Click "Allow" or the Yes button. Click the Yes button.
Page 174: When The Driver Is Not Installed
MELSEC Screens Instructions Click "Install this driver software anyway" Confirm the publisher is "MITSUBISHI ELECTRIC CORPORATION", and click the Install button. This screen may be displayed a couple of times. The message is displayed when .NET Framework 3.5 (including .NET 2.0 and 3.0) is set to disabled.
Page 175 14 TROUBLESHOOTING MELSEC When the "Found New Hardware Wizard" screen is not displayed automatically after the board installation, update the driver on the "Device Manager" screen. 1) Open the Windows Device Manager screen. Right-click on "Network Controller" and select "Update Driver Software". 2) Click "Install from a list or specific location (Advanced)".
Page 176: When Melsecnet/H Board Did Not Operate Normally
14 TROUBLESHOOTING MELSEC 14.3 When MELSECNET/H Board did not Operate Normally When the personal computer on which the board is installed is not started, or the system shut down or system reset is occurred, check the items following the procedure shown below.
Page 177: Checking On Event Viewer Screen
14 TROUBLESHOOTING MELSEC 14.3.2 Checking on Event Viewer screen Event logs related to the MELSECNET/H board are displayed as "AMneth" in the Source field on the "Event Viewer" screen. The following table lists the errors displayed in the event viewer viewer. Event ID Error content Corrective action...
Page 178 MELSEC Event ID Error content Corrective action 0 to FFFF • After installing SW0DNC-MNETH-B, restart the computer and confirm that this error does not occur. • Increase the system memory and disk capacity. 279 (117 An error occurred when writing to registry database.
Page 179: Checking On Device Manager Screen
14 TROUBLESHOOTING MELSEC 14.3.3 Checking on Device Manager screen Check if the board is displayed on the Windows Device Manager screen. Item Corrective action The board or driver is not installed. • If the board is not installed, install the board. •...
Page 180: Flowchart To Use When Data Link Is Not Achieved
14 TROUBLESHOOTING MELSEC 14.4 Flowchart to Use when Data Link is not Achieved The following describes a flowchart that must be checked when no data link is achieved after the MELSECNET/H board and Control station as well as normal stations were connected. START Check the MELSECNET/H board LED Is the "RUN"...
Page 181: Flowchart To Use When Run Led Is Unlit
14 TROUBLESHOOTING MELSEC 14.4.1 Flowchart to use when RUN LED is unlit An error occurs. Did the LED turn NO (The "RUN" LED has been off since the power was turned on.) off even when communication with other station was being performed? Is there a WDT (288) error log...
Page 182: Flowchart To Use When Sd/Rd Led Does Not Turn On
14 TROUBLESHOOTING MELSEC 14.4.2 Flowchart to use when SD/RD LED does not turn on The board information screen of MNETH utility displays SD and RD LED status. This function is the same as the MELSECNET/H board's LED messages. An error occurs. Is the L.ERR LED lit? Go to Section 14.4.3.
Page 183: Flowchart To Use When L.err. Led Turns On
14 TROUBLESHOOTING MELSEC 14.4.3 Flowchart to use when L.ERR. LED turns on An error occurs. Has the MNETH utility standard? Stop the user program and activate the MNETH utility. Select "Board Information" screen and identify the error type from LED status. Is the error type "PRM.E"? Check for the following error causes: Duplication of station No.
Page 184: Flowchart To Use When Unable To Achieve Data Link For Entire System
14 TROUBLESHOOTING MELSEC 14.4.4 Flowchart to use when unable to achieve data link for entire system An error occurs. Is parameter set to the control station? Set the parameter. Did the data link begin? Is the control station mode set to "Online" ? And is its station number set to 1 to 64 ? Correct the control station mode and...
Page 185 14 TROUBLESHOOTING MELSEC Replace the MELSECNET/H board network module of the faulty station among the control station and first through last stations. Did the data link begin? Perform self-loopback tests for the control station and first through last stations. Is there any station with error? Replace the MELSECNET/H board network module of the faulty station.
Page 186: Flowchart To Use When Unable To Achieve Data Link For Specific Station
14 TROUBLESHOOTING MELSEC 14.4.5 Flowchart to use when unable to achieve data link for specific station 1: When a faulty station is detected, check if the data link cable of the faulty An error occurs. station is connected properly. If the data link cable is disconnected, make sure to power off the personal computer and external power supply before reconnecting the cable.
Page 187 14 TROUBLESHOOTING MELSEC User program MNETH utility Stop the user program and Set to "ONLINE" in the Set the PLC data link mode perform the same operation "Board information" setting to ONLINE, and reset. as for the MNETH utility. screen. reset.
Page 188: Flowchart To Use When Error Occurred During Data Link
14 TROUBLESHOOTING MELSEC 14.5 Flowchart to Use when Error Occurred During Data Link The following explains corrective actions when an error occurred during data link. 14.5.1 Flowchart to use when unexpected value is input to specific link device Check the following items. (1) Check for a station with link error using the each station status screen.
Page 189: Flowchart To Use When Communication Is Disabled From Time To Time During User Program
14 TROUBLESHOOTING MELSEC 14.5.3 Flowchart to use when communication is disabled from time to time during user program execution START Did the user program return an error code? Confirm the definition of the error using the error code table, and check the user program and access station.
Page 190: Precautions For Installing Other Optional Board
14 TROUBLESHOOTING MELSEC 14.5.4 Precautions for installing other optional board Executing user programs (including the device monitor utility) for each board simultaneously under the following condition may cause an error. When an error occurs in the user program, take the action shown below. <Condition>...
Page 191: When External Power Supply Function Does Not Work Properly
14 TROUBLESHOOTING MELSEC 14.6 When External Power Supply Function does not Work Properly When the external power supply does not operate properly, check the following items. Item Corrective action Review the wiring of the external power supply cables. Inset the Is the LED of external power supply OFF? connectors and contacts until they click.
Page 192: Troubleshooting For Wdt Error Occurrence
14 TROUBLESHOOTING MELSEC 14.7 Troubleshooting for WDT Error Occurrence 14.7.1 Board WDT error When the board WDT error occurred, check the following items. Item Corrective action Is the board installed properly? • Check the board installation status. • After formatting the HD, install the operating system again. Does the board operate on other personal computer? •...
Page 193: Troubleshooting For Slow Pc Operation
14 TROUBLESHOOTING MELSEC 14.8 Troubleshooting for Slow PC Operation This section explains probable causes and troubleshooting when a PC becomes slow. (1) Possible causes for slow PC operation The MELSECNET/H driver refreshes link device data assigned to another station from the refresh data storage area on the MELSECNET/H board to the MELSECNET/H drive buffer, and those assigned to the host station from the drive buffer to the refresh data storage area at specified intervals.
Page 194: Information Needed When Calling With Inquiry
14 TROUBLESHOOTING MELSEC 14.9 Information Needed when Calling with Inquiry When the troubleshooting cannot solve the problem, or a board failure occurs, please consult your local Mitsubishi service center or representative. Inform the following conditions and situations when inquiring the problems. (1) Product information (a) Product version Inform the model name and version of the board and utility.
Page 195: Appendix 1 Cautions For Accessing Redundant Cpu System
APPENDIX MELSEC APPENDIX Appendix 1 Cautions for Accessing Redundant CPU System This section explains the cautions for accessing a Redundant CPU system using the MELSECNET/H board. Access to Redundant CPU system (1) Redundant CPU specify When the system (control system, standby system, System A, System B) of the Redundant CPU is specified to access the Redundant CPU, the Logical Sta.
Page 196 APPENDIX MELSEC (2) Operation at occurrence of system switching When system switching occurs during access to the Redundant CPU, access to the Redundant CPU set for the Logical Sta. No. is continued. (Example) When the following Logical Sta. No.66 was specified for access Logical Sta.
Page 197 APPENDIX MELSEC (3) Retry processing for error that will occur during system switching processing When the MELSEC data link library is used to access the Redundant CPU during system switching being processed by the Redundant CPU, a system switching error (error code 4248 ), CPU starting error (error code 4004 ), other system CPU module error (error code 4245...
Page 198 APPENDIX MELSEC (4) Automatic switching of communication route If a communication error occurs during access to the Redundant CPU connected to MELSECNET/H, the communication route is automatically switched to continue access to the control system. Hereinafter, this automatic switching of the communication route is referred to as route switching.
Page 199 APPENDIX MELSEC 2) Examples of access by route switching The following shows examples of route switching during access to the control system. <When system switching occurs at communication error> Personal computer Connection to control system (MELSECNET/H board) MELSECNET/H communication Control system Standby system error Tracking cable...
Page 200 APPENDIX MELSEC POINT  Route switching is not executed if a communication error has already occurred at a communication start* for the Redundant CPU specified for the Logical Sta. No. (A communication error occurs.) If a communication error has occurred, refer to (b) in (4) Automatic switching of communication route, and remove the communication disturbance.
Page 201: Appendix 2 Host Station Status At Power On/Off When Using Q80Bd-J71Lp21S-25
APPENDIX MELSEC Appendix 2 Host Station Status at Power ON/OFF When Using Q80BD-J71LP21S-25 When using the Q80BD-J71LP21S-25, the host station status varies depending on the ON/OFF status of the external power supply and personal computer as shown below. (1) When the system is started Host station status External Status...
Page 202: Appendix 3 Procedures For Replacing Boards
APPENDIX MELSEC Appendix 3 Procedures for Replacing Boards This section explains the procedure to replace a MELSECNET/H board. (1) Replacement procedure Start ↓ Record the settings before the replacement Record the channel numbers and parameter settings that were used • • • Chapter 7 PARAMETER SETTINGS before the replacement.
Page 203 APPENDIX MELSEC Set the parameters Set the parameters recorded before the replacement. • • • Chapter 7 PARAMETER SETTINGS ↓ Check the network Test the cable connection and data link on the network. • • • Section 6.5 Test ↓ Execute a user program Execute a user program or utility.
Page 204: Appendix 4 Combinations Of Boards With Existing Software
APPENDIX MELSEC Appendix 4 Combinations of Boards with Existing Software There is no restriction when using MELSECNET/H board with other MELSEC interface boards or MELSOFT products on the same personal computer. For the restrictions of the applicable operating environment and applicable access target, refer to the manual of each product.
Page 205: Appendix 5 Checking Serial Number And Function Version
Appendix 5 Checking Serial Number and Function Version This section explains how to check serial number, the function version and ROM version of the MELSECNET/H board and the SW0DNC-MNETH-B version. (1) Checking serial number, function version, and ROM version of the...
Page 206: Appendix 6 New And Improved Functions
APPENDIX MELSEC (2) Checking the SW0DNC-MNETH-B version The SW0DNC-MNETH-B version is shown on "Version" tab in the MNETH utility. Click! Appendix 6 New and Improved Functions Appendix 6.1 Change of hardware function The following table shows the new and the improved functions in the MELSECNET/H board.
Page 207: Appendix 7 Restrictions For Operating System
APPENDIX MELSEC Appendix 7 Restrictions for Operating System For the following applicable operating systems, use SW0DNC-MNETH-B with the supported version. The following version of software and manuals are provided continuously. Supported version Operating system SW0DNC-MNETH-B Manual number Windows Server 2008...
Page 208: Appendix 8 Warning Message Appears On Windows
APPENDIX MELSEC Appendix 8 Warning Message Appears on Windows Appendix 8.1 Overview of warning message When an operating system with the user account control function is used, a warning message appears when you run the MELSECNET/H utility or the Device monitor utility. (Refer to Section 9.1) App - 14 App - 14...
Page 209: Appendix 8.2 Methods For Preventing The Warning Message
APPENDIX MELSEC Appendix 8.2 Methods for preventing the warning message POINT The user account control (UAC) function prevents a crash (e.g. prevention of start- up of a program which executes unintended operation). Before setting this function, grasp that the security function offered by UAC will be disabled and fully understand the risk.
Page 210 APPENDIX MELSEC (From preceding page) 4) Set the slide bar "Never notify" and click the "OK" button. (Setting completion) App - 16 App - 16...
Page 211 APPENDIX MELSEC (2) Allowing the warning message without showing it The following shows a procedure for allowing a warning message without showing it. 1) Open the Control Panel. 2) Select [System and Security]. 3) Select [Administrative Tools]. (To next page) App - 17 App - 17...
Page 212 APPENDIX MELSEC (From preceding page) 4) Select [Local Security Policy]. REMARKS When user account control is enabled the following screen appears. Click the Continue or Yes button. 5) Select [Local Policies]. 6) Select [Security Options]. (To next page) App - 18 App - 18...
Page 213 APPENDIX MELSEC (From preceding page) 7) Select [User Account Control: Behavior of the elevation prompt for administrators in Admin Approval Mode Prompt for consent]. 8) Select [Elevate without prompting] on the <<Local Security Setting>> tab, and click the OK button. (Setting completion) App - 19 App - 19...
Page 214: Appendix 9 Behavior When Personal Computer Enters Power Save Mode Or Fast Startup
APPENDIX MELSEC Appendix 9 Behavior When Personal Computer Enters Power Save Mode or Fast Startup MELSECNET/H board does not support the power save mode (hibernate, sleep) and the fast startup function. The following explains the behavior of the personal computer when the personal computer enters each mode.
Page 215: Appendix 9.2 Behavior When The Fast Startup Function Is Enabled
APPENDIX MELSEC Appendix 9.2 Behavior when the fast startup function is enabled (1) Target operating system The following operating systems have the fast startup function.  Windows 10  Windows 8.1, Windows Server 2012 R2  Windows 8, Windows Server 2012 (2) Behavior when the fast startup function is enabled The following explains the behavior of the board when the fast startup function is enabled.
Page 216: Appendix 10 Melsecpowermanager
APPENDIX MELSEC Appendix 10 MELSECPowerManager MELSECPowerManager is a service application which monitors the Windows Power Options settings every 30 seconds to prevent the personal computer from entering the power save mode (hibernate, sleep). MELSECPowerManager is applicable for the following operating systems. ...
Page 217: Appendix 10.3 Checking Melsecpowermanager
APPENDIX MELSEC Appendix 10.3 Checking MELSECPowerManager The following explains how to check the installation and operating status of MELSECPowerManager. The following is a setting example when using Windows 1) Open the Control Panel and select [System and Security]. 2) Select [Administrative Tools]. 3) Double-click [Services].
Page 218 APPENDIX MELSEC (From preceding page) 4) Check if MELSECPowerManager is registered. (Setting completion) POINT  When MELSECPowerManager is disabled, the personal computer may enter the power save mode (hibernate, sleep) automatically depending on the settings on the personal computer. Do not disable MELSECPowerManager because the MELSECNET/H board does not function normally if the personal computer enters the power save mode (hibernate, sleep).
Page 219: Appendix 11 External Dimensions
APPENDIX MELSEC Appendix 11 External Dimensions Appendix 11.1 Q80BD-J71LP21-25, Q80BD-J71LP21G, Q80BD-J71LP21GE 21.6 ERR. BD808C394G51 (unit: mm) Appendix 11.2 Q80BD-J71LP21S-25 21.6 RUN ERR. EXT.PW EXT.PW CLASS2 ONLY + 24V BD808C394G51 BD808C515G51 20.32 (unit: mm) App - 25 App - 25...
Page 220: Appendix 11.3 Q80Bd-J71Br11
APPENDIX MELSEC Appendix 11.3 Q80BD-J71BR11 14 7 21 .6 ERR. (unit: mm) Appendix 11.4 Q81BD-J71LP21-25 RUN ERR. SD RD BD808C394G51 (unit: mm) App - 26 App - 26...
Page 221 WARRANTY Please confirm the following product warranty details before using this product. 1. Gratis Warranty Term and Gratis Warranty Range If any faults or defects (hereinafter "Failure") found to be the responsibility of Mitsubishi occurs during use of the product within the gratis warranty term, the product shall be repaired at no cost via the sales representative or Mitsubishi Service Company.
Page 222 Microsoft, Visual Basic, Visual C++, Visual Studio, Windows, Windows NT, Windows Server, Windows Vista, and Windows XP are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. Oracle and Java are registered trademarks of Oracle and/or its affiliates. The company names, system names and product names mentioned in this manual are either registered trademarks or trademarks of their respective companies.
Page 224 SH(NA)-080128-AC(1709)KWIX MODEL: SW0-MNETH-B-U-E MODEL CODE: 13JR24 HEAD OFFICE : TOKYO BUILDING, 2-7-3 MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN NAGOYA WORKS : 1-14 , YADA-MINAMI 5-CHOME , HIGASHI-KU, NAGOYA , JAPAN When exported from Japan, this manual does not require application to the Ministry of Economy, Trade and Industry for service transaction permission.

This manual is also suitable for:

Q80bd-j71lp21s-25 Q80bd-j71lp21g Q80bd-j71lp21-25 Q80bd-j71br11 Q81bd-j71lp21-25

Mitsubishi Electric SW0DNC-MNETH-B User Manual

Appendix 3, Appendix

1 Overview

2 System Configuration

3 Specifications

4 Function

5 Emc and Low Voltage Directive

6 Procedure and Settings up to the Point of Operation

7 Parameter Settings

8 Installing and Uninstalling Software Package

9 Utility Operations

10 Melsec Data Link Library

11 Programming

12 Application Functions

13 Error Code

14 Troubleshooting

Appendix 1 Cautions for Accessing Redundant CPU System

Appendix 2 Host Station Status at Power ON/OFF When Using Q80BD-J71LP21S-25

Appendix 3 Procedures for Replacing Boards

Appendix 4 Combinations of Boards with Existing Software

Appendix 5 Checking Serial Number and Function Version

Appendix 6 New and Improved Functions

Appendix 6.1 Change of Hardware Function

Appendix 6.2 Update of Software Package

Appendix 7 Restrictions for Operating System

Appendix 8 Warning Message Appears on Windows

Appendix 8.1 Overview of Warning Message

Appendix 8.2 Methods for Preventing the Warning Message

Appendix 9 Behavior When Personal Computer Enters Power Save Mode or Fast Startup

Appendix 9.1 Behavior When the Personal Computer Enters the Power Save Mode (Hibernate, Sleep)

Appendix 9.2 Behavior When the Fast Startup Function Is Enabled

Appendix 10 Melsecpowermanager

Appendix 10.1 Installing Melsecpowermanager

Appendix 10.2 Uninstalling Melsecpowermanager

Appendix 10.3 Checking Melsecpowermanager

Appendix 11 External Dimensions

Appendix 11.1 Q80BD-J71LP21-25, Q80BD-J71LP21G, Q80BD-J71LP21GE

Appendix 11.2 Q80BD-J71LP21S-25

Appendix 11.3 Q80BD-J71BR11

Appendix 11.4 Q81BD-J71LP21-25

Quick Links

Troubleshooting

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Summary of Contents for Mitsubishi Electric SW0DNC-MNETH-B