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Mitsubishi Electric MELSEC QS Series User Manual
Mitsubishi Electric MELSEC QS Series User Manual

Mitsubishi Electric MELSEC QS Series User Manual

Cc-link safety system master module
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CC-Link Safety System Master Module
User's Manual
-QS0J61BT12

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Summary of Contents for Mitsubishi Electric MELSEC QS Series

  • Page 1 CC-Link Safety System Master Module User's Manual -QS0J61BT12...
  • Page 3: Safety Precautions

    SAFETY PRECAUTIONS (Always read these instructions before using this equipment.) Before using the product, please read this manual, the relevant manuals introduced in this manual, standard PLC manuals, and the safety standards carefully and pay full attention to safety to handle the product correctly.
  • Page 4 [Design Precautions] WARNING When a safety PLC detects an error in an external power supply or a failure in PLC main module, it turns off all the outputs. Create an external circuit to securely stop the power of hazard by turning off the outputs.Incorrect configuration may result in an accident.
  • Page 5 [Installation Precautions] CAUTION Use a safety PLC in the environment that meets the general specifications described in the QSCPU User's Manual (Hardware Design, Maintenance and Inspection).Using this PLC in an environment outside the range of the general specifications could result in electric shock, fire, erroneous operation, and damage to or deterioration of the product While pressing the installation lever located at the bottom of module, insert the module fixing tab into the fixing hole in the base unit until it stops.
  • Page 6 [Wiring Precautions] CAUTION Tighten a terminal block mounting screw, terminal screw, and module mounting screw within the specified torque range. If the terminal block mounting screw or terminal screw is too loose, it may cause a short circuit, fire, or malfunctions. If too tight, it may damage the screw and/or the module, resulting in a drop of the screw or module, a short circuit or malfunctions.
  • Page 7 [Startup and Maintenance precautions] WARNING Do not touch the terminals while power is on.Doing so could cause shock or erroneous operation. Turn off all phases of the external supply power used in the system when cleaning the module or retightening the terminal block mounting screws, terminal screws, or module mounting screws. Not doing so could result in electric shock.
  • Page 8: Conditions Of Use For The Product

    (h) and other applications where the level of risk to human life, health or property are elevated. (3) Mitsubishi Electric shall have no responsibility or liability for any problems involving programmable controller trouble and system trouble caused by DoS attacks, unauthorized access, computer...
  • Page 9: Revisions

    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 10: Table Of Contents

    INTRODUCTION Thank you for purchasing the Mitsubishi safety programmable controller MELSEC-QS series. Before using the equipment, please read this manual carefully to develop full familiarity with the functions and performance of the QS series PLC you have purchased, so as to ensure correct use. CONTENTS SAFETY PRECAUTIONS ..........................A - 1 CONDITIONS OF USE FOR THE PRODUCT....................A - 6...
  • Page 11 4.2.5 Station number overlap checking function................4 - 17 4.2.6 Slave station cut-off function ....................4 - 18 4.2.7 Automatic return function......................4 - 20 4.2.8 Data link stop function at safety CPU error ................4 - 21 4.2.9 Clearing inputs from data link faulty stations ................4 - 22 4.2.10 Slave station forced clear function at safety CPU stop............
  • Page 12 CHAPTER8 PROGRAMMING SPECIFICATIONS 8 - 1 to 8 - 27 I/O Signals used for Safety CPU Module..................8 - 2 8.1.1 I/O signal list ..........................8 - 2 8.1.2 Details of input signals......................8 - 3 Buffer Memory ..........................8 - 5 8.2.1 Buffer memory list........................
  • Page 13: Introduction

    ABOUT MANUALS Before constructing or designing the safety-related system, be sure to read the following manual. Introduction manual Manual Number Manual Name (Model Code) Safety Application Guide Explains the overview, construction method, laying and wiring examples, and application programs of SH-080613ENG the safety-related system.
  • Page 14: Compliance With The Emc, Low Voltage, And Machinery Directives

    COMPLIANCE WITH THE EMC, LOW VOLTAGE, AND MACHINERY DIRECTIVES To configure a system meeting the requirements of the EMC, Low Voltage, and Machinery Directives when incorporating the Mitsubishi programmable controller (EMC, Low Voltage, and Machinery Directives compliant) into other machinery or equipment, refer to the userAfs manual for the CPU module used.
  • Page 15: About The Generic Terms And Abbreviations

    ABOUT THE GENERIC TERMS AND ABBREVIATIONS This manual uses the following generic terms and abbreviations to describe the QS0J61BT12 CC-Link Safety system master module, unless otherwise specified. Generic Term/ Description Abbreviation Abbreviation for Programmable Controller. General name for safety CPU module, safety power supply module, safety main base unit, Safety PLC CC-Link safety master module and CC-Link safety remote I/O module.
  • Page 16 Generic Term/ Description Abbreviation Remote register (Read area for CC-Link safety system) Information entered in 16-bit units from the remote device station to the master station. (Expressed as RWr for convenience) General product name for the models, SW8D5C-GPPW, SW8D5C-GPPW-A, GX Developer SW8D5C-GPPW-V and SW8D5C-GPPW-VA.
  • Page 17: Product Components

    PRODUCT COMPONENTS The components of the QS0J61BT12 are listed below. Item name Quantity QS0J61BT12 main unit Terminating resistor 110 , 1/2 W (brown-brown-brown) (used when wiring with the Version 1.10 compatible CC-Link dedicated cable or CC-Link dedicated cable) - 15...
  • Page 18 Memo - 16...
  • Page 19: Chapter1 Overview

    OVERVIEW CHAPTER1 OVERVIEW This manual describes the specifications, part names and settings of the QS0J61BT12 CC-Link Safety system master module (hereinafter referred to as the QS0J61BT12) which is used with the MELSEC-QS series programmable controller CPUs. When applying the following program examples to the actual system, make sure to examine the applicability and confirm that it will not cause system control problems.
  • Page 20: Compatibility With Cc-Link

    OVERVIEW 1.2 Compatibility with CC-Link This product supports the following CC-Link functions and performance. Cyclic transmission Less restrictions on the station-to-station cable length CC-Link Safety 1.3 Features The CC-Link Safety system and the QS0J61BT12 feature the following. (1) Safety network system of the highest level The safety master module is a programmable controller which has obtained the highest safety level (IEC61508 SIL3, EN954-1 Category 4, EN ISO13849-1 Category 4 performance level e) applicable to programmable controllers.
  • Page 21: Chapter2 System Configuration

    SYSTEM CONFIGURATION CHAPTER2 SYSTEM CONFIGURATION The system configuration for the CC-Link Safety system is described below. 2.1 System Configuration Up to 64 stations in total of safety remote I/O stations, standard remote I/O stations and remote device stations can be connected to a single safety master station. However, the following conditions must all be satisfied.
  • Page 22: Applicable System

    SYSTEM CONFIGURATION 2.2 Applicable System This section explains applicable PLC CPU models and the number of mountable modules. 2.2.1 Applicable modules and number of mountable modules (1) Applicable modules and number of mountable modules The CPU module for which the QS0J61BT12 can be mounted and its mountable number are listed in the table below.
  • Page 23: How To Check The Function Version

    SYSTEM CONFIGURATION 2.2.2 How to check the function version The following shows how to check the function version. (1) How to check the function version of the QS0J61BT12 (a) Checking the "SERIAL" of the rating plate on the module side PASSED CC-Link Safety MASTER UNIT QS0J61BT12...
  • Page 24: Chapter3 Specifications

    SPECIFICATIONS CHAPTER3 SPECIFICATIONS This section describes the specifications of the QS0J61BT12. 3.1 Performance Specifications Table3.1 shows the performance specifications of the QS0J61BT12. Refer to the User’s Manual of the CPU for the general specifications of the QS0J61BT12. Table3.1 Performance Specifications Item Specifications Transmission rate...
  • Page 25: Maximum Overall Cable Distance (For Ver. 1.10)

    SPECIFICATIONS 3.1.1 Maximum overall cable distance (for Ver. 1.10) The relation of the transmission speed and maximum overall cable distance when configuring the entire system with Version 1.10 modules and cable is shown below. Remote I/O station Remote I/O station Remote I/O station Remote I/O station Master Station...
  • Page 26: Cc-Link Dedicated Cable

    SPECIFICATIONS 3.2 CC-Link Dedicated Cable Use CC-Link dedicated cables in the CC-Link Safety systems. Performance of the CC-Link Safety system cannot be guaranteed if any cables other than CC-Link dedicated cables are used. For the specifications and any inquiries on the CC-Link dedicated cables, refer to the following: CC-Link Partner Association website: www.cc-link.org/ Remark...
  • Page 27: Chapter4 Functions

    FUNCTIONS CHAPTER4 FUNCTIONS This chapter explains the functions of the QS0J61BT12. 4.1 Function List Table4.1 below lists the functions. Table4.1 Function list (1/2) Reference Item Description section Communication with safety remote I/ Performs on/off data communication with safety remote I/O Section O stations stations.
  • Page 28 FUNCTIONS Table 4.1 Function list (2/2) Reference Item Description section Synchronous mode: Performs link scan in synchronization with sequence scan. Section Scan synchronization function Asynchronous mode: Performs link scan not in synchronization 4.2.13 with sequence scan. When a communication error occurs between a safety master Safety remote station interlock station and a safety remote station, this function prevents Section...
  • Page 29: Detailed Explanation Of Functions

    FUNCTIONS 4.2 Detailed Explanation of Functions This section provides detailed explanation on the functions of the QS0J61BT12. 4.2.1 Communication with safety remote I/O stations The QS0J61BT12 exchanges ON/OFF data of safety components (e.g. emergency stop buttons, light curtains) and safety relays connected to safety remote I/O stations using its remote input (RX) and remote output (RY).
  • Page 30 FUNCTIONS [Remote input] (3) The safety master module reads input status data of safety remote I/O stations, and saves them in its remote input (RX) area. (4) The safety CPU module saves the remote input (RX) data of the safety master module to the CPU device that is specified with the auto refresh parameter.
  • Page 31 FUNCTIONS [Remote output] (5) The safety CPU module saves the CPU device value set by the auto refresh parameter into the remote output (RY) area of the safety master module. This is performed in the END processing of the sequence scan. (6) The safety master module sends the remote output (RY) values to safety remote I/O stations.
  • Page 32: Communication Across A Network Composed Of Safety Remote Stations And Standard Remote Stations

    FUNCTIONS 4.2.2 Communication across a network composed of safety remote stations and standard remote stations The following is a simplified figure showing how communication is performed when safety remote stations and standard remote stations are connected on the same network. When these remote stations are connected together on the same network, there are no restrictions on the order of connections and station numbers.
  • Page 33 FUNCTIONS [Remote input, Remote register (RWr)] Data in remote input (RX) and remote register (RWr) areas of remote stations are stored into the safety master station. Safety remote I/O station Standard remote I/O station Remote device station (Station No.1, 1 (Station No.2, 1 (Station No.3, 2 occupied station)
  • Page 34 FUNCTIONS [Remote output, Remote register (RWw)] Data in remote output (RY) and remote register (RWw) areas of the safety master station are sent to respective remote stations. Safety remote I/O station Standard remote I/O station Remote device station (Station No.1, 1 (Station No.2, 1 (Station No.3, 2 Safety master station...
  • Page 35: Auto Refresh Function

    FUNCTIONS 4.2.3 Auto refresh function With this function, data in the following devices are refreshed all together to the devices of the safety CPU module when it executes END processing: remote input (RX), remote output (RY) and remote registers (RWr, RWw) of remote stations, and link special relay (SB) and like special register (SW) of the safety master module.
  • Page 36 FUNCTIONS (2) Operation in auto refresh When the auto refresh parameters are set, the relation between the CPU devices and the refresh-target devices (remote input (RX), remote output (RY), remote registers (RWr, RWw), link special relay (SB) and like special register (SW)) is as shown on the system configuration example below.
  • Page 37 FUNCTIONS (3) Precautions for setting the automatic refresh parameters The following are precautions for setting the automatic refresh parameters. 1) On each of safety remote I/O stations, 4 words in the remote register (RWr, RWw) areas are used by the system. 2) When the automatic refresh setting is not made for remote input (RX), remote output (RY), remote register (RWr, RWw), link special relay (SB), and link special register (SW), the resulting operation is shown in "Table4.3 When the...
  • Page 38: Identifying The Communication Target Station (Remote I/O Station)

    FUNCTIONS 4.2.4 Identifying the communication target station (remote I/O station) This function determines whether a safety remote station is properly connected or not. Standard remote stations are not identified by this function. The following shows the identification methods of the safety master station and the ranges allowable for respective methods.
  • Page 39 FUNCTIONS (1) Identifying a safety remote station by link ID Whether the link ID set in a safety master station matches the one set in a safety remote station or not is determined. By using this function, a mistake in connection with the master station can be found. When these link IDs do not match, CC-LINK RECEIVED DATA ERROR (Error code 8332) is saved in the error history of the safety CPU module on the safety master station.
  • Page 40 FUNCTIONS (2) Identifying a safety remote station by product model name Whether the name of the model mounted on a safety remote station matches the one set with a network parameter or not is determined. If they do not match, CC-LINK PRODUCT INFO. MISMATCH (Error code 8310) is saved in the error history of the safety CPU module.
  • Page 41 FUNCTIONS (3) Identifying a safety remote station by module technical version Whether the module technical version of the model mounted on a safety remote station matches the one selected for the network parameter or not is determined. If they do not match, CC-LINK PRODUCT INFO. MISMATCH (Error code 8310) is saved in the error history of the safety CPU module.
  • Page 42 FUNCTIONS (4) Identifying a safety remote station by production information When product information has been specified in the network parameter setting, whether it matches the actual one or not is determined. If the product information set in the network parameter setting does not match that of the actual safety remote station, CC-LINK PRODUCT INFO.
  • Page 43: Station Number Overlap Checking Function

    FUNCTIONS 4.2.5 Station number overlap checking function This function checks the status of the remote stations connected to the safety master station to check if there is duplication in occupied station numbers and if more than one station have station number 0 in the system. (1) Checking for occupied station number overlap When the PLC is powered OFF and then ON or when data link is started due to reset cancellation of the safety CPU module, this function checks remote stations for any...
  • Page 44: Slave Station Cut-Off Function

    FUNCTIONS 4.2.6 Slave station cut-off function When a remote station becomes incapable of continuing data link due to a reason such as power-off or a safety monitoring timeout error, this function disconnects that remote station only, allowing the other normal stations to continue the data link. Safety Down master...
  • Page 45 FUNCTIONS POINT In the event of cable disconnection, the data link cannot be performed because there is no terminating resistor. (The "ERR." LED on the safety master module turns ON.) Safety master station Remote Remote station station Terminating Disconnection Terminating resistor resistor 4.2 Detailed Explanation of Functions...
  • Page 46: Automatic Return Function

    FUNCTIONS 4.2.7 Automatic return function This function allows remote stations that have been disconnected from the data link due to a cause such as power-off to automatically reconnect to the data link when they return to the normal status. [Setting method] Set the "Automatic reconnection station count"...
  • Page 47: Data Link Stop Function At Safety Cpu Error

    FUNCTIONS 4.2.8 Data link stop function at safety CPU error This function stops the data link when "an error that stops operation" occurred on the PLC CPU of the safety master station. 4.2 Detailed Explanation of Functions - 21 4.2.8 Data link stop function at safety CPU error...
  • Page 48: Clearing Inputs From Data Link Faulty Stations

    FUNCTIONS 4.2.9 Clearing inputs from data link faulty stations The safety master station clears (turns OFF) input data (RX) received from a remote station that has a data link error. Note that remote register (RWr) data is held. (1) Input (received) data that are cleared The following figure shows the target buffer memory areas.
  • Page 49: Slave Station Forced Clear Function At Safety Cpu Stop

    FUNCTIONS 4.2.10 Slave station forced clear function at safety CPU stop This function forcibly clears the remote output (RY) to slave stations when the safety CPU module is stopped. The following is applied depending on the remote output (RY) refresh device setting of the automatic refresh parameter.
  • Page 50 FUNCTIONS [Setting method] In GX Developer, make setting in "Operational setting" of the network parameter and in "Case of CPU STOP setting". For more details on the setting, see Section 6.3. - 24 4.2 Detailed Explanation of Functions 4.2.10 Slave station forced clear function at safety CPU stop...
  • Page 51: Error History Registration Function

    FUNCTIONS 4.2.11 Error history registration function When a moderate error (causing I/O stop) occurs at a safety remote station, or when a communication fault occurs between a safety master station and a safety remote station, the error information is saved in the safety CPU module as an error log. (1) When a moderate error occurred on a safety remote station (3) Error information transferred from the safety master module is registered to...
  • Page 52: Reserved Station Function

    FUNCTIONS 4.2.12 Reserved station function This function prevents safety remote I/O stations, standard remote I/O stations and remote device stations that are not connected (that will be connected in the future) from being treated as "Data link faulty station" by the safety master station. Station that will be connected in the future Safety master station (Reserved station)
  • Page 53: Scan Synchronization Function

    FUNCTIONS 4.2.13 Scan synchronization function Whether to make the link scan synchronized with the sequence scan or not is selected. [Synchronous mode] Link scan is synchronized with sequence scan. Therefore longer sequence scan causes longer link scan interval. IMPORTANT The sequence scan time must not exceed the time given in the listed below. If the scan time exceeds the limit, a time out error occurs at each station.
  • Page 54 FUNCTIONS f: Delay time due to data transmission from the safety master module to a safety remote I/O station g: Delay time due to internal processing of a safety remote I/O station h: Delay time due to a response delay of a safety remote I/O station (b) Sequence scan <...
  • Page 55 FUNCTIONS [Asynchronous mode] Data link is performed without synchronization with the sequence scan. Safety CPU module (Sequence scan) Safety master module buffer memory (Remote input RX/ remote output RY) Link scan Response time of first station Response time of target station Response time of last station Safety remote I/O station response...
  • Page 56: Safety Remote Station Interlock Function

    FUNCTIONS 4.2.14 Safety remote station interlock function When an error causing I/O stop occurs in a safety remote station, or when a communication error occurs between a safety master station and a safety remote station, this function prevents automatic restart of input/output to/from the relevant safety remote station(s), so that the machine will not suddenly restart causing a dangerous condition.
  • Page 57 FUNCTIONS [How to confirm the interlock status] The interlock status can be confirmed by the fact that the bit corresponding to the station number is ON in the special register SD1072 to SD1075 (Safety station interlock status). If the safety remote station is connected to the second safety master module, check the special register SD1272 to SD1275.
  • Page 58: Link Scan Time

    DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE CHAPTER5 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE This chapter explains the data link processing time including the link scan time and transmission delay time, and status of each station at error occurrence. 5.1 Link Scan Time The following shows how to culculate the link scan time for the CC-Link Safety systems.
  • Page 59 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE ST : Constant (For Asynchronous mode only. For Synchronous mode, ST = 0) (1) or 2), whichever is greater. Ignore 2) when B = 0.) 1) 800 + (A 2) 900 + (B RT : Retry processing time (only when a faulty station is detected) (No.
  • Page 60: Transmission Delay Time

    DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE 5.2 Transmission Delay Time This section explains the transmission delay time (the length of time before data transmission is completed). 5.2.1 Safety master station Safety remote I/O station (1) Safety refresh monitoring time The safety refresh monitoring time is used to check that safety data link is normally performed between the safety master station and safety remote stations.
  • Page 61 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE (Example) In Synchronous mode, when the sequence scan time of the safety CPU module is 10ms, the link scan time is 1ms, the safety refresh response processing time is 9.6ms: 3 + ((SM 2 + (SM ) [ms]...
  • Page 62 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE (2) Safety data monitoring time The safety data monitoring time is a monitoring time in a safety remote station, which is used to check that an operation, from reading a safety input from an external device to receiving a safety output from a safety master module, is performed normally.
  • Page 63 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE (3) Safety master station (RX) Safety remote I/O station (input) The following indicates the time from when a signal is input to a safety remote I/O station until when a device of the safety CPU module turns OFF (or ON). The time can be calculated in different formulas, depending on the combination of the versions of safety CPU module, safety master module, and safety remote I/O stations to be used.
  • Page 64 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE [Normal value (CC-Link Safety line is unstable.)] (Safety refresh monitoring time 2) + Safety remote station input response time (((SM 2 + (SM n) +SM) [ms] • SM :Sequence scan time of safety CPU module •...
  • Page 65 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE (4) Safety master station (RY) Safety remote I/O station (output) The following indicates the time from when a device of the safety CPU module turns OFF (or ON) until when a safety remote I/O station outputs OFF (or ON). The time can be calculated in different formulas, depending on the combination of the versions of safety CPU module, safety master module, and safety remote I/O stations to be used.
  • Page 66 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE [Normal value (CC-Link Safety line is unstable.)] (Safety refresh monitoring time 2) + Safety remote station output response time (((SM 2 + (SM n) +SM) [ms] • SM :Sequence scan time of safety CPU module •...
  • Page 67 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE (5) Response performance The response performance is the time from when a signal is input to a remote station and then sequence processing is performed in the safety CPU module until when a signal is output from a remote station.
  • Page 68: Safety Master Station Standard Remote I/O Station

    DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE 5.2.2 Safety master station Standard remote I/O station (1) Safety master station (RX) Standard remote I/O station (input) The following indicates the time from the moment a signal is input to a standard remote I/O station until a device of the safety CPU module turns ON (or OFF).
  • Page 69 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE [Maximum value] (a) Synchronous mode 2 + Remote I/O station input response time * [ms] • SM:Sequence scan time of safety CPU module • LS :Link scan time (Refer to Section 5.1.) •...
  • Page 70 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE (2) Safety master station (RY) Standard remote I/O station (output) The following indicates the time from the moment a device of the safety CPU module turns ON (or OFF) until a standard remote I/O station outputs ON (or OFF). [Calculation formula] [Normal value] (a) Synchronous mode...
  • Page 71 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE [Maximum value] (a) Synchronous mode n + LS 2 + Remote I/O station output response time [ms] • SM:Sequence scan time of safety CPU module • LS :Link scan time (Refer to Section 5.1.) •...
  • Page 72: Safety Master Station Remote Device Station

    DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE 5.2.3 Safety master station Remote device station (1) Safety master station (RX) Remote device station (input/RWr) The following indicates the time from the moment a signal is input to a remote device station until a device of the safety CPU module turns ON (or OFF).
  • Page 73 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE [Maximum value] (a) Synchronous mode 2 + Remote device station processing time [ms] • SM:Sequence scan time of safety CPU module • LS :Link scan time (Refer to Section 5.1.) •...
  • Page 74 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE (2) Safety master station (RY) Remote device station (output/RWw) The following indicates the time from the moment a device of the safety CPU module turns ON (or OFF) until the remote device station outputs ON (or OFF). [Calculation formula] [Normal value] (a) Synchronous mode...
  • Page 75 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE [Maximum value] (a) Synchronous mode n + LS 2 + Remote device station processing time [ms] • SM:Sequence scan time of safety CPU module • LS :Link scan time (Refer to Section 5.1.) •...
  • Page 76: Auto Refresh Time

    DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE 5.3 Auto Refresh Time This section explains the auto refresh time (the extended time in the END processing time, which is spent for automatic refresh processing of the safety CPU module). [Calculation formula] KM1 + KM2 [(RX + RY) / 16 + RWw + RWr] + [KM3...
  • Page 77 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE (Example) When RX 1344 points, RY 1344 points, RWw 168 points, RWr 168 points, SB 512 points, and SW 512 points are refreshed in a system including a single safety master module (The number of connected safety remote I/O stations is 42): Auto refresh time = KM1 + KM2 [(RX + RY) / 16 + RWw + RWr] +...
  • Page 78: Station Status At Error Occurrence

    DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE 5.4 Station Status at Error Occurrence Table5.1 lists station status at error occurrence in classification by station type. In Table5.1, the data in the "Safety master station" column represent the following: Remote input (RX) Remote register (RWr) Remote output (RY)
  • Page 79 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE Table5.1 Station status at error occurrence (2/3) Safety master station Remote I/O station Remote device station, Remote Remote Remote Remote Remote Remote Remote Remote Data link status input register output register Input Output...
  • Page 80 DATA LINK PROCESSING TIME AND STATION STATUS AT ERROR OCCURRENCE Table5.1 Station status at error occurrence (3/3) Safety master station Remote I/O station Remote device station, Remote Remote Remote Remote Remote Remote Remote Remote Data link status input register output register Input Output...
  • Page 81: Chapter6 Parameter Setting

    PARAMETER SETTING CHAPTER6 PARAMETER SETTING This chapter explains the parameter setting that is required to perform data link in the CC- Link Safety systems. 6.1 Procedure for Parameter Setting and Data Link Startup The following explains the procedure for setting the parameters and starting the data link. For procedures for starting operations after the parameter setting, refer to Section 7.1.
  • Page 82: Parameter Setting Items

    PARAMETER SETTING 6.2 Parameter Setting Items Table6.1 lists the parameter setting items. Table6.1 Parameter setting items (1/2) Reference Setting item Description section Set the number of modules installed with a single safety CPU module. No. of boards in Section 6.3.1 Default value: No setting module (2)(a)
  • Page 83 PARAMETER SETTING Table6.1 Parameter setting items (2/2) Reference Setting item Description section Set a device to which remote input (RX) is refreshed by the automatic refresh function. Section 6.3.1 Default value: No setting Remote input (RX) Setting range: X, M, B, D, W (The device number must be within the device range of the (2)(k) safety CPU module.) Set a device to which remote output (RY) is refreshed by the automatic refresh function.
  • Page 84: Parameter Setting Example

    PARAMETER SETTING 6.3 Parameter Setting Example This section explains the parameter setting on GX Developer. For details on the GX Developer operation, refer to the GX Developer Operating Manual. The explanations in this section are based on the following system configuration example. Safety CPU module Safety master module Safety refresh monitoring time: 200ms...
  • Page 85 PARAMETER SETTING (2) Set the network parameters in the following steps. (a) Set the "No. of boards in module " for which the network parameters are to be set. Default value : None Setting range: 1 to 2 (Boards) * Example) Set 1 (Board).
  • Page 86 PARAMETER SETTING (e) Set a mode of the CC-Link Safety system in "Mode". Default value: Safety remote net (Ver.1 mode) Setting range: Safety remote net (Ver.1 mode) Offline Hardware test Line test Example) Select "Safety remote net (Ver.1 mode)". (f) Set transmission speed of the CC-Link Safety system in "Transmission speed".
  • Page 87 PARAMETER SETTING (l) Specify a refresh device for remote output (RY) in "Remote output (RY)". Default value : None Setting range: Device name - Select from Y, M, B, D,W,T,ST or C. Device number - Within the range of the device points that the CPU has.
  • Page 88 PARAMETER SETTING (q) Set the number of retries to be performed when a communication error occurs in "Retry count". Default value : 3 (times) Setting range: 1 to 7 (times) Example) Set to 3. (Enter "3".) (r) Set the number of modules that can rejoin the system in a single link scan in "Automatic reconnection station count".
  • Page 89 PARAMETER SETTING (u) Click the "Set" button located under the Safety remote station setting on the "Station information" screen, and set the safety remote station parameters. For the settings, refer to the manual of the safety remote module to be used. Example) The following is a setting example for the QS0J65BTB2-12DT.
  • Page 90: Chapter7 Procedure Before Starting Data Link

    PROCEDURE BEFORE STARTING DATA LINK CHAPTER7 PROCEDURE BEFORE STARTING DATA LINK This chapter explains the procedure from the module installation to the data link startup. 7.1 Procedures before System Operation The following describes the procedure from the module installation to system startup. Start (1) Install the modules Install the safety power supply module and the safety master module on the...
  • Page 91: Module Installation Procedure

    PROCEDURE BEFORE STARTING DATA LINK 7.2 Module Installation Procedure The following describes the procedure from the module installation to the operation check of the safety master module. Start (1) Install the modules Install the safety power supply module, safety CPU module and safety master module on the safety main base unit.
  • Page 92: Mounting And Installation

    PROCEDURE BEFORE STARTING DATA LINK 7.3 Mounting and Installation Handling precautions to be taken from when unpacking the safety master module until its installation are described below. For details on implementation and installation of the module, refer to the "QSCPU User's Manual (Hardware Design, Maintenance and Inspection)."...
  • Page 93 PROCEDURE BEFORE STARTING DATA LINK POINT (1) Always turn the power of the corresponding station OFF before mounting or removing the terminal block. If it is mounted or removed without turning OFF the power, correct data transmission by the mounted or removed station will not be guaranteed.
  • Page 94: Installation Environment

    PROCEDURE BEFORE STARTING DATA LINK 7.3.2 Installation Environment For the installation environment, refer to the QSCPU User's Manual (Hardware Design, Maintenance and Inspection). 7.3 Mounting and Installation 7.3.2 Installation Environment...
  • Page 95: Part Names And Settings

    PROCEDURE BEFORE STARTING THE DATA LINK 7.4 Part Names and Settings This section explains the part names of the safety master module, together with the LED indications and the setting method of the switches. QS0J61BT12 L RUN L ERR. ERR. (FG) 7.4 Part Names and Settings...
  • Page 96 PROCEDURE BEFORE STARTING THE DATA LINK Name Details LED indicators Indicates the data link state by turning the LEDs ON or OFF. LED name Details ON: Module is normal OFF: Watch dog timer error ON: Communication error in all stations Turns ON when the following type of error occurs.
  • Page 97: Checking The Module Status (Hardware Test)

    PROCEDURE BEFORE STARTING THE DATA LINK 7.5 Checking the Module Status (Hardware Test) The hardware test checks whether or not each module works properly by itself. Always perform this hardware test before configuring the system and for each module by itself without connecting the cable.
  • Page 98 PROCEDURE BEFORE STARTING THE DATA LINK From the previous page (6) Confirm the execution The "MST" LED on the safety master module flashes during the hardware test. (7) Check the result Check the result of the hardware test with the LEDs on the safety master module and the safety CPU module.
  • Page 99: Cc-Link Dedicated Cable Wiring

    PROCEDURE BEFORE STARTING THE DATA LINK 7.6 CC-Link Dedicated Cable Wiring This section explains how to connect the safety master module, safety remote I/O module, standard remote I/O module and/or remote device module with CC-Link dedicated cables. (1) The cable connecting sequence is not related with the station No. (2) Be sure to connect the "terminating resistors"...
  • Page 100: T-Branch Connection With The Cc-Link Dedicated Cable

    PROCEDURE BEFORE STARTING THE DATA LINK 7.7 T-Branch Connection with the CC-Link Dedicated Cable This section explains how to perform a T-branch connection using the CC-Link dedicated cable. 7.7.1 T-Branch system configuration The following shows a system configuration using T-branch connection. T-branch terminal block/connecter (Main line)
  • Page 101: T-Branch Communication Specifications List

    PROCEDURE BEFORE STARTING THE DATA LINK 7.7.2 T-Branch communication specifications list The following describes the communication specifications for T branch connection. For communication specifications not listed below, see Section 3.1. Item Specification Remarks Transmission speed 625kbps 156kbps For 10, 5, or 2.5Mbps, form T-branching using repeaters. Indicates the length of the cable between terminating Maximum length 100m...
  • Page 102: Checking The Connection Status (Line Test)

    PROCEDURE BEFORE STARTING THE DATA LINK 7.8 Checking the Connection Status (Line Test) After connecting all the modules with CC-Link dedicated cables, check if the safety remote I/O stations, standard remote I/O stations and remote device stations are correctly connected and if a data link is established between them. Line test 1 checks the status of communication with all modules that have been connected.
  • Page 103 PROCEDURE BEFORE STARTING THE DATA LINK From the previous page (5) Conduct a line test After performing Write to PLC from GX Developer, turn OFF and ON the PLC, or reset the safety CPU module and then cancel the reset status. Then, conduct the specified line test.
  • Page 104: Chapter8 Programming Specifications

    PROGRAMMING SPECIFICATIONS CHAPTER8 PROGRAMMING SPECIFICATIONS This chapter explains the specifications involving programming. For explanations of special relays (SM) and special registers (SD) of the safety CPU module, refer to QSCPU User's Manual (Function Explanation Program Fundamentals).
  • Page 105: I/O Signals Used For Safety Cpu Module

    PROGRAMMING SPECIFICATIONS 8.1 I/O Signals used for Safety CPU Module This section explains I/O signals used between the safety master module and the safety CPU module. 8.1.1 I/O signal list Table8.1 shows a list of the I/O signals. The character "n" in the table indicates the head I/O number of the safety master module and it depends on the module installation position and the module which is installed before the master module.
  • Page 106: Details Of Input Signals

    PROGRAMMING SPECIFICATIONS 8.1.2 Details of input signals The following explains the on/off timings and conditions of the input signals shown in Table8.1: (1) Module error: Xn0 This signal indicates whether the module is normal or faulty. OFF : Module normal ON : Module error Module error ( Xn0)
  • Page 107 PROGRAMMING SPECIFICATIONS (4) Module ready: XnF This signal indicates whether the module is ready to operate. (a) When the module reaches ready-to-operate status, this signal turns ON automatically. (b) This signal turns OFF when either of the following conditions occurs: 1) When an error is detected in the switch setting of the module 2) When the module error signal (Xn0) turns ON Power ON...
  • Page 108: Buffer Memory

    PROGRAMMING SPECIFICATIONS 8.2 Buffer Memory The buffer memory is used for data transfer between the safety master module and safety CPU module. Data are stored in the Parameter information area and I/O data (RX, RY, RWr, RWw) are auto-refreshed to CPU devices according to the parameter settings written to the PLC. The following buffer memory addresses are used for monitoring or device testing in GX Developer.
  • Page 109: Buffer Memory Details

    PROGRAMMING SPECIFICATIONS 8.2.2 Buffer memory details The following explains the details of the items shown in Table8.2, "Buffer Memory List" in Section 8.3.1. (1) Parameter information area This area stores the parameter settings that were written from GX Developer to the PLC.
  • Page 110 PROGRAMMING SPECIFICATIONS Table8.3 Parameter Information Area List (2/2) Address Item Description Data range Default value Hex. Dec. 0101 ( Remote I/O station, Stores the set data of the Occupies 1 Number of Station number connected remote I/O Station type occupied stations station, Station stations and remote device Station...
  • Page 111 PROGRAMMING SPECIFICATIONS (2) Remote input (RX) and remote output (RY) (a) Safety master station Safety remote I/O station/standard remote I/O station/ remote device station 1) Safety master station • The data input from safety remote I/O stations, standard remote I/O stations and/or remote device stations are stored.
  • Page 112 PROGRAMMING SPECIFICATIONS (b) Safety master station Safety remote I/O station/standard remote I/O station/ remote device station 1) Safety master station • The data output to safety remote I/O stations, standard remote I/O stations and/or remote device stations are stored. • An area of 2 words are allocated to each station. The refresh source CPU devices are specified on the parameter setting screen of GX Developer.
  • Page 113 PROGRAMMING SPECIFICATIONS (3) Remote registers (RWw and RWr) (a) Safety master station (RWw) Remote device station (RWw) 1) Safety master station • The data to be sent to the remote register (RWw) of a remote device station are stored. • An area of 4 words is allocated to each station. The refresh source CPU devices are specified on the parameter setting screen of GX Developer.
  • Page 114 PROGRAMMING SPECIFICATIONS The following tables show the station numbers and corresponding buffer memory addresses. Table of station numbers and corresponding buffer memory addresses Buffer Buffer Buffer Buffer Buffer Station Station Station Station Station memory memory memory memory memory number number number number number...
  • Page 115 PROGRAMMING SPECIFICATIONS (b) Master station (RWr) Remote device station (RWr) 1) Safety master station • The data to be sent from the remote register (RWr) of a remote device station are stored. • An area of 4 words is allocated to each station. The refresh target CPU devices are specified on the parameter setting screen of GX Developer.
  • Page 116 PROGRAMMING SPECIFICATIONS The following tables show the station numbers and corresponding buffer memory addresses. The Slave station offset, size information area is not auto-refreshed. For checking the data, use the monitoring function of GX Developer. Table of station numbers and corresponding buffer memory addresses Buffer Buffer Buffer...
  • Page 117 PROGRAMMING SPECIFICATIONS Table8.4 Buffer Memory Address Mapping for Station Numbers and RX/RY/RWw/RWr Offset and Size Buffer memory address Item Default (Hex.) Hex. Dec. Station No. 1 RX offset 0000 Station No. 1 RX size 0000 45EH 1118 Station No. 64 RX offset 0000 1119 Station No.
  • Page 118 PROGRAMMING SPECIFICATIONS (5) Link special relays (SB) The link special relays store the data link status using bit ON/OFF data. CPU devices to be refreshed are specified on the parameter setting screen of GX Developer. For the setting details, refer to CHAPTER 6. Buffer memory addresses 5E0H to 5FFH correspond to link special relays SB0000 to SB01FF.
  • Page 119 PROGRAMMING SPECIFICATIONS (6) Link special registers (SW) The link special registers store the data link status using word data. CPU devices to be refreshed are specified on the parameter setting screen of GX Developer. For the setting details, refer to CHAPTER 6. Buffer memory addresses 600H to 7FFH correspond to link special registers SW0000 to SW01FF.
  • Page 120: Link Special Relays And Registers (Sb/Sw)

    PROGRAMMING SPECIFICATIONS 8.3 Link Special Relays and Registers (SB/SW) The data link status can be checked with bit data (link special relays: SB) and word data (link special registers: SW). The SB and SW represent the information in the buffer memory of the safety master module, which are read into the devices specified with automatic refresh parameters for use.
  • Page 121 PROGRAMMING SPECIFICATIONS Table8.5 Link Special Relay List (2/3) Availability :Available, :Not available) Number Name Description Online* Offline* SAFETY TEST MODE MODE Indicates the line test request (SB0008) acceptance status. SB004C Line test acceptance OFF : Not accepted (5E4 ,b12) status : Instruction acknowledged Indicates the line test completion status.
  • Page 122 PROGRAMMING SPECIFICATIONS Table8.5 Link Special Relay List (3/3) Availability ::Available, :Not available) Number Name Description Online* SAFETY TEST Offline* MODE MODE Indicates the information on the reserved stations specified by parameters. SB0074 Reserved station OFF : No specification (5E7 ,b4) specified status Specification exists (Information stored in SW0074 to SW0077)
  • Page 123: Link Special Registers (Sw)

    PROGRAMMING SPECIFICATIONS 8.3.2 Link special registers (SW) Data in SW0000 to SW001F are changed with a sequence program or the device test function of GX Developer, and data are automatically stored in SB0020 to SB01FF. The values in parentheses in the number column indicate the buffer memory addresses. Table8.6 Link Special Register List (1/7) Availability :Available,...
  • Page 124 PROGRAMMING SPECIFICATIONS Table8.6 Link Special Register List (2/7) Availability :Available, : Not available) Number Name Description Online*1 SAFETY TEST Offline* MODE MODE Stores the transmission rate setting. : Cancel : Set b7 b6 b5 b4 b3 b1 b0 SW0059 Transmission (659 rate setting 10Mbps...
  • Page 125 PROGRAMMING SPECIFICATIONS Table8.6 Link Special Register List (3/7) Availability :Available, :Not available) Number Name Description Online* SAFETY TEST Offline* MODE MODE Indicates the retry count setting information when there is an error SW0064 No. of retries response. (664 information 1 to 7 (times) No.
  • Page 126 PROGRAMMING SPECIFICATIONS Table8.6 Link Special Register List (4/7) Availability :Available, :Not available) Number Name Description Online* Offline* SAFETY TEST MODE MODE SW0080 Stores the data link status of each station. Reserved stations are (680 excluded. 0 : Normal 1 : Data link error occurred SW0081 (681 Other station...
  • Page 127 PROGRAMMING SPECIFICATIONS Table8.6 Link Special Register List (5/7) Availability :Available, :Not available) Number Name Description Online*1 Offline*2 SAFETY TEST MODE MODE SW008C Indicates the switch change status of other stations that are performing (68C data link. 0 : No change 1 : Changed SW008D Other station...
  • Page 128 PROGRAMMING SPECIFICATIONS Table8.6 Link Special Register List (6/7) Availability :Available, :Not available) Number Name Description Online* Offline* SAFETY TEST MODE MODE Stores the consistency status between the actual installation and the parameter settings. Reserved stations are excluded. SW009C A matching error occurs in either of the following cases. (69C 1) Station type mismatch* 2) Mismatch in number of occupied stations...
  • Page 129 PROGRAMMING SPECIFICATIONS Table8.6 Link Special Register List (7/7) Availability :Available, :Not available) Number Name Description Online* SAFETY TEST Offline* MODE MODE SW0140 Indicates the slave stations compatible with CC-Link ver. 2. (740 0 : Ver.1 compatible slave station 1 : Ver.2 compatible slave station SW0141 Compatible (741...
  • Page 130 PROGRAMMING SPECIFICATIONS The timing when the data in a link special register (SW) is updated differs depending on the link register number. Table8.7 lists the update timings of link special registers. Table8.7 Update timing of the link special registers Link special Data update timing Link special register Data update timing...
  • Page 131: Chapter9 Troubleshooting

    TROUBLESHOOTING CHAPTER9 TROUBLESHOOTING This chapter describes the details of the problems that may occur in the CC-Link Safety System, and lists the check items and procedures for each of the possible problems. 9.1 Checking the Condition by Each Problem The following lists the details of the check items and procedures for each problem occurrence.
  • Page 132 TROUBLESHOOTING Description of problem Check item Check procedure Check result Corrective action Modify the sequence Doesn’t the sequence The maximum scan time program to shorten the scan time exceed the exceeds the allowable scan time, or reduce the allowable value for each value.
  • Page 133 TROUBLESHOOTING Description of problem Check item Check procedure Check result Corrective action The auto refresh setting Modify the auto refresh Is the auto refresh setting Check the auto refresh is incorrectly made. setting. correctly made? setting. The auto refresh setting Check other items.
  • Page 134 TROUBLESHOOTING Description of problem Check item Check procedure Check result Corrective action Check if the safety master Secure a normal Connected modules on the same base connection state. are connected via CC-Link Not connected Check other item. or not. "ERR" LED on the Take measures referring to Are the safety master safety master module is...
  • Page 135 TROUBLESHOOTING Description of problem Check item Check procedure Check result Corrective action From GX Developer, Any of the operations Reset the safety CPU or check if the following has shown in the left has been turn OFF the power and been done.
  • Page 136 TROUBLESHOOTING Description of problem Check item Check procedure Check result Corrective action Correct the transmission speed set in network Check if the transmission Not matched parameters or the one set Is the transmission speed speed set in network on the remote station to setting of the remote parameters is matched make them matched.
  • Page 137 TROUBLESHOOTING Description of problem Check item Check procedure Check result Corrective action Check the CC-Link Remove the cause of the dedicated cables (for A cable fault is found. fault and correct the breakage, short-circuit, connection. Is there any breakage on incorrect wiring, poor CC-Link dedicated contact or...
  • Page 138 TROUBLESHOOTING Description of problem Check item Check procedure Check result Corrective action The number of connected Reduce the number of remote stations is connected remote Is the number of Check if it is within the exceeding the limit. stations. connected remote stations allowable range or not within the allowable referring to Section 2.1...
  • Page 139 TROUBLESHOOTING Description of problem Check item Check procedure Check result Corrective action Increase the transmission The permitted value is When multiple remote Does the scan time rate, or reduce the Check special register exceeded. stations are powered off exceed the permitted number of retries.
  • Page 140: Check With Leds (1) - At System Start-Up

    TROUBLESHOOTING 9.2 Check with LEDs (1) - at System Start-up This section explains troubleshooting using the LEDs at system start-up. 9.2.1 When "RUN" LED on the safety master module does not turn ON with "POWER" LED on the safety power supply module being ON The "RUN"...
  • Page 141: When "Err." Led On The Safety Master Module Turns On Or Flashes With "Run" Led On The Safety

    TROUBLESHOOTING 9.2.2 When "ERR." LED on the safety master module turns ON or flashes with "RUN" LED on the safety master module being ON The "ERR." LED on the safety master module turns ON or flashes. Does the setting in network parameters match the implementedsystem configuration? (Check if SW009C to SW009F (buffer memory address 69C...
  • Page 142 TROUBLESHOOTING Is the same ID used for the link ID set in network parameters and the link ID setting on the remote station? Modify the link ID setting. Is "ERR." LED on the safety CPU module ON? Is the error code in the PLC diagnostics error history within the range between 8300 and 8499? Refer to the troubleshooting of the...
  • Page 143 TROUBLESHOOTING Is "POWER" LED on the remote station Does the supply voltage conform to the specifications? Is "ERR." LED on the remote station ON? (Is "RUN" LED OFF?) Use a supply voltage compliant with the specifications. Is "ERR." LED on the remote station flashing? The remote station may be faulty.
  • Page 144 TROUBLESHOOTING Is the transmission speed setting correctly made? Correct the transmission speed setting. Are terminating resistors connected at both ends? Connect terminating resistors at both ends. Do the terminating resistors used conform to the CC-Link dedicated cable specifications? Use terminating resistors compliant with the CC-Link dedicated cable specifications.
  • Page 145: When Receiving Inputs Or Outputting Data From A Remote Station Is Not Possible Despite "Err." Led Off Status Of The Safety Master Module

    TROUBLESHOOTING 9.2.3 When receiving inputs or outputting data from a remote station is not possible despite "ERR." LED OFF status of the safety master module Inputs from a remote station cannot be received/A remote station cannot output data. Are remote input RX, remote output RY, and remote registers RWr/RWw in buffer memory updated? (Check this with the buffer memory...
  • Page 146: Check With Leds (2) - During System Operation

    TROUBLESHOOTING 9.3 Check with LEDs (2) - During System Operation This section explains troubleshooting using the LEDs while the system is in operation. 9.3.1 When "ERR." LED on the safety master module turns ON or flashes with "RUN" LED on the safety master module being ON The "ERR."...
  • Page 147 TROUBLESHOOTING Is "POWER" LED on the remote station ON? Does the supply voltage conform to the specifications? Is "ERR." LED on the remote station ON? (Is "RUN" LED OFF?) Use a supply voltage compliant with the specifications. Is "ERR." LED on the remote station flashing? The remote station may be faulty.
  • Page 148 TROUBLESHOOTING Is the transmission speed setting correctly made? Correct the transmission speed setting. Are a terminating resistors connected at both ends? Connect terminating resistors at both ends. Do the terminating resistors used conform to the CC-Link dedicated cable specifications? Use terminating resistors compliant with the cable Are the CC-Link dedicated cables properly connected?
  • Page 149: When Receiving Inputs Or Outputting Data From A Remote Station Is Not Possible With "Err." Led On The Safety Master Module Being Off

    TROUBLESHOOTING 9.3.2 When receiving inputs or outputting data from a remote station is not possible with "ERR." LED on the safety master module being OFF Inputs from a remote station cannot be received/A remote station cannot output data. Has an error occurred on the remote station? (Check this with the other station monitor of the CC-Link diagnostics.) Refer to the troubleshooting pages...
  • Page 150: When "Run" Led On The Safety Master Module Turns Off Suddenly

    TROUBLESHOOTING 9.3.3 When "RUN" LED on the safety master module turns OFF suddenly The "RUN" LED turned OFF suddenly. Is "POWER" LED on the safety power supply module ON? Refer to the troubleshooting of the safety power supply module. Is "ERR." LED on the safety CPU module flashing? Reset the safety CPU module with the RUN/STOP/RESET switch.
  • Page 151: Cc-Link Diagnostics Using Gx Developer

    TROUBLESHOOTING 9.4 CC-Link Diagnostics Using GX Developer Check the status of each module after connecting all the modules with CC-Link dedicated cables, and verify that data link can be performed normally. (1) Host monitoring Follow the procedure below to monitor various states including the data link status of the safety master station (the station to which GX Developer is connected).
  • Page 152 TROUBLESHOOTING (2) Other station monitoring Follow the procedure below to monitor the states such as the data link status of a remote station (stations other than the one to which GX Developer is connected). (a) Operating procedure [Diagnostics] [CC-Link / CC-Link/LT Diagnostics] 1) Select "CC-Link Safety"...
  • Page 153 TROUBLESHOOTING (3) Line test This test checks the operating status of the connected remote stations. Normal stations are displayed "blue", abnormal stations "red", reserved stations "green", and unused stations "gray". The line test is available only when the safety CPU module is in TEST MODE. (a) Operating procedure [Diagnostics] [CC-Link / CC-Link/LT Diagnostics]...
  • Page 154 TROUBLESHOOTING (4) H/W Information The H/W Information screen displays the operation and setting statuses of the safety master module. (a) Operating procedure [Diagnostics] [System monitor] 1) Select the QS0J61BT12. 2) Click the button. Module Detailed Information 3) Click the button. H/W Information (b) Product information The function version and serial No.
  • Page 155 TROUBLESHOOTING (c) H/W LED Information The H/W LED Information area displays the following data link information. If network parameters are not set, "0" is displayed for each of transmission speeds "156K to 10M". Item Value 1: Module is operating normally. 0: Watchdog timer error 1: All stations are faulty.
  • Page 156 TROUBLESHOOTING (d) H/W SW Information The H/W SW Information area displays the following information. Item Value STNo. Station No. setting value S _STNo. Unused (Fixed to 0) Transmission speed setting status : 156kbps : 625kbps B RATE : 2.5Mbps : 5Mbps : 10Mbps Mode setting status : Online...
  • Page 157: Error Codes

    In the case of failure, please B100 System error A system error was detected. consult your local Mitsubishi Electric representative for repair. (5) If the problem is not resolved by the actions above, please consult your local Mitsubishi Electric representative.
  • Page 158 In the case of failure, please B300 System error A system error was detected. consult your local Mitsubishi Electric representative for repair. (5) If the problem is not resolved by the actions above, please consult your local Mitsubishi Electric representative.
  • Page 159 (2) If the error still occurs after the correction, error (parameter) there is a hardware error on the safety master module. Please consult your local Mitsubishi Electric representative. Perform the following procedures: (1) Correct the network parameter and write it The parameter for the total number of to the PLC.
  • Page 160 (2) If the error still occurs after the correction, error(parameter) there is a hardware error on the safety master module. Please consult your local Mitsubishi Electric representative. Perform the following procedures: (1) Correct the network parameter and write it Automatic reconnection The parameter for the number of automatic to the PLC.
  • Page 161 B800 System error A system error was detected. manual. In the case of failure, please consult your local Mitsubishi Electric B900 System error A system error was detected. representative for repair. (5) If the problem is not resolved by the...
  • Page 162 BF00 System error A system error was detected. manual. In the case of failure, please consult your local Mitsubishi Electric representative for repair. (5) If the problem is not resolved by the actions above, please consult your local Mitsubishi Electric representative.
  • Page 163: Appendix

    APPENDIX APPENDIX Appendix 1 External Dimensions Diagram ït This section describes the external dimensions of the QS0J61BT12. QS0J61BT12 L RUN ERR. L ERR. 1:NC 2:NC 3:DA 4:SLD 5:DB 6:(FG) 7:DG (FG) 27.4 (3.54) (1.08) Unit: mm (inch) Appendix 1 External Dimensions Diagram...
  • Page 164: Appendix 2 Transmission Delay Time When Module Whose Serial Number (First Five Digits) Is "10031" Or Earlier Is Included

    APPENDIX Appendix 2 Transmission Delay Time when Module whose Serial Number (First Five Digits) is “10031” or Earlier is Included When even one module whose serial number (first five digits) is "10031“ or earlier is included in the system, which is configured with the safety CPU module, safety master module, and safety remote I/O stations (QS0J65BTB2-12DT), the calculation formula for transmission delay time (the length of time before data transmission is completed) between a safety master station and safety remote I/O stations will be as follows.
  • Page 165 APPENDIX (3) Safety master station (RY) Safety remote I/O station (output) [Normal value (CC-Link Safety line is stable.) n) + LS + (SM m + Safety remote station output response time [ms] ït [Normal value (CC-Link Safety line is unstable.)] (Safety refresh monitoring time 2) + Safety remote station output response time 4 [ms]...
  • Page 166 APPENDIX Memo Appendix 2 Transmission Delay Time when Module whose Serial Number (First Five Digits) is “10031” or Earlier is Included...
  • Page 167: Index

    INDEX Scan synchronization function ....4-27 Slave station cut-off function ....4-18 Auto refresh function .
  • Page 168 1. Limited Warranty and Product Support. a. Mitsubishi Electric Company ("MELCO") warrants that for a period of eighteen (18) months after date of delivery from the point of manufacture or one year from date of Customer's purchase, whichever is less, Mitsubishi MELSEC Safety programmable controllers (the "Products") will be free from defects in material and workmanship.
  • Page 169 g. The Product information and statements contained on MELCO's website and in catalogs, manuals, technical bulletins or other materials provided by MELCO are provided as a guide for Customer's use. They do not constitute warranties and are not incorporated in the contract of sale for the Products. h.
  • Page 170 TRADEMARKS The company names, system names and product names mentioned in this manual are either registered trademarks or trademarks of their respective companies.   In some cases, trademark symbols such as ' ' or ' ' are not specified in this manual. SH(NA)-080600ENG-E...
  • Page 172 SH(NA)-080600ENG-E(2311)MEE MODEL: QS0J61BT12-U-SY-E MODEL CODE: 13JR88 HEAD OFFICE: TOKYO BLDG., 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN NAGOYA WORKS: 1-14, YADA-MINAMI 5-CHOME, HIGASHI-KU, NAGOYA 461-8670, JAPAN When exported from Japan, this manual does not require application to the Ministry of Economy, Trade and Industry for service transaction permission. Specifications subject to change without notice.

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