AS-i Master Module User`s Manual
Contents
1. Flash ROM setting Details Current value Monitoring display Select input Make text file Setting range OFF Mode Change Request Stop monitor Execute test Operation procedure 1 Switch to the configuration mode Choose Mode Change Request in the setting value field of Configuration Mode Change Request and execute a selection test to switch to the configuration mode Set the LPS Open the A slaves List of Projected Slaves LPS For Write or B slaves List of Projected Slaves LPS For Write sub screen and make settings Refer to Section 3 4 2 14 Choose Register Request in the setting value field of Configuration Register Request and execute a selection test Register the permanent configuration using the commands The minimum configuration to execute the commands for registering the permanent configuration is provided Since the data word to be used is only 0 there are no data word 1 to 3 items lt Used request codes gt 201H For batch registration of whole configuration 141H to 17FH For partial registration Check the command execution result in AS i Command Buffer lt Result gt If any error is found take corrective action in accordance with the error code Refer to Section 3 5 1 Command Buffer lt Request gt List for command details 5 UTILITY PACKAGE GX Configurator AS 4 MELSEC Q Switch to the protected operation mode2. Refer to Section 3 4 2 6 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 6 A slaves List of Projected Slaves LPS For Read Purpose Used to monitor the parameter registration status of each A slaves slave number Operating procedure Monitor Test screen A slaves LPS For Read Setting screen A slaves List of Projected Slaves LPS For Read Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71AS92 Setting item Curent value Setting value Slave Address 14 Not Registered Slave Address 24 Not Registered Slave Address 34 Not Registered Slave Address 44 Not Registered Slave Address 54 Not Registered Slave Address 64 Not Registered Slave Address 7A Not Registered Slave Address 84 Not Registered Slave Address 94 Not Registered Slave Address 104 Not Registered Slave Address 114 Not Registered Flash ROM setting Details Current value Monitoring Cannot execute test Make text file Stop monitor Refer to Section 3 4 2 7 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 7 B slaves List of Projected Slaves LPS For Read Purpose Used to monitor the parameter registration status of each B slaves slave number Operating procedure Monitor Test screen B slaves LPS For Read Sett
3. Refer to Section 3 4 2 8 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 10 A slaves Error Slave List Purpose Used to monitor whether each A slaves slave number is active or inactive Operating procedure Monitor Test screen A slaves Error Slave List Setting screen A slaves Error Slave List Module information Module type AS i Master Module Start 1 0 No 0000 Module model name 0J714A592 Setting item Current value Setting value Slave Address 14 Slave Address 24 Slave Address 34 Slave Address 44 Slave Address 54 Slave Address 64 Slave Address 7A Slave Address 84 Slave Address 9A Slave Address 104 Slave Address 114 Flash ROM setting Details value Monitoring lal Current display Cannot execute test Make text file Stop monitor Refer to Section 3 4 2 9 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 11 B slaves Error Slave List Purpose Used to monitor whether each B slaves slave number is active or inactive Operating procedure Monitor Test screen B slaves Error Slave List Setting screen B slaves Error Slave List Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71A592 Setting item Current value Setting value Slave Address 1B Slave Address 2B Slave
4. 06H O7H 08H The request code is wrong OAH OBH OCH 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 SETTINGS AND PROCEDURES FOR OPERATION This section explains the procedures name of each part installation connection to the AS i system and settings for using the QJ71AS92 in the AS i system 4 1 Outline Procedures for Operation The following chart shows the procedures for using the QJ71AS92 in the AS i system Start Wire the AS i cable jms See section 4 4 4 Turn the AS i power supply ON y Turn the programmable controller system power supply ON Set the slave address H See Section 4 5 Create the program See Chapter 7 i Run the QJ71AS92 End 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 2 Part Names alele a aae eo cp og a LED Display Turned on off to indicate the operating statuses of the QJ71AS92 Refer to Section 4 2 1 When the slave address 0 to 31 are displayed on Code the slave types are also displayed 3 a LED Details AS i Ver 2 11 compatible Group A I O slave Les AS i Ver 2 11 compatible Group B I O slave 4 BALED for future use Used to change between the protected operation mode and configuration mode 5 MODE Switch i Refer to Section 4 5 Used to set the address to the slave or set parameters to the QJ71AS92 6 SET Switch Refer to Section 4 5 Connected to the AS i system using the AS i cable Re
5. 6 TRANSMISSION DELAY TIME MELSEC Q 6 2 Input Transmission Delay 1 When importing the input signal by using the FROM MOV instruction or the auto refresh setting of the utility package Normal value AS i cycle time x 1 sequence scan x 0 5 slave input delay Maximum value AS i cycle time x 2 Sequence scan x 1 slave input delay 6 3 Output Transmission Delay 1 When sending the output signal by using the TO MOV instruction Normal value AS i cycle time x 1 slave output delay Maximum value AS i cycle time x 2 slave output delay When using the auto refresh setting of the utility package Normal value AS i cycle time x 1 sequence scan x 0 5 slave output delay Maximum value AS i cycle time x 2 Sequence scan x 1 slave output delay e 7 PROGRAMMING 7 PROGRAMMING 7 1 I O Slave MELSEC Q 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 This section explains the programs for I O data communication between the QJ71AS92 and I O slaves The system configuration example in 1 shows how the programs perform when the utility package is used and when it is not used 1 System Configuration The QJ71AS92 is mounted on slot 0 of the main base unit Power s CPU QJ71 Input Output WGE SUPR YI Q asg2 module t module xv
6. Options Create start up setting file Tools Intelligent function utility Start Select a target intelligent function module screen amp Intelligent function module utility C MELSEC GPPW QJ E E R Select monitor test module screen Intelligent Function module parameter Online Tools Help Select monitor test module Select a target intelligent function module Start 1 0 No Module type 0000 Start 1 0 No Module type AS i Master Module N When used via online Saaai E 0J714592 operation Module model name QU71AS92 X Select monitor test module Parameter seting module Select Online Monitor Test from th e menu bar Module implementation status Start 1 0 No Module model name Initial setting Auto refresh Start 1 0 No Module model name O000 QJ71ASS2 Unavailable e OOOO OJ714S92 Autorefresh Refer to Section 5 3 3 Auto refresh Monitor Test Monitor Test Enter Start I O No and select Select a module to be Module type and Module model name monitored tested Auto refresh setting screen Monitor Test screen Auto refresh setting Monitor Test Module information Module information Module type AS i Master Module Start 1 0 No Module model name 0J714592 Module type AS i Master Module Start 1 0 No 0000 Module model name 0J71A592 Module side transfer PLC side
7. Setting screen A slaves Number of 1 0 Points Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71AS92 Current value Setting value Setting item Slave Addr 14 1 0 Input Points Slave Addr 14 1 0 Output Points Slave Addr 14 Analog Input Points Slave Addr 14 Analog Output Points Slave Addr 24 1 0 Input Points Slave Addr 24 1 0 Output Points Slave Addr 24 Analog Input Points Slave Addr 24 Analog Output Points Slave Addr 34 1 0 Input Points Slave Addr 34 1 0 Output Points Slave Addr 34 Analog Input Points Flash ROM setting Details Current value Monitoring display Cannot execute test Make text file Stop monitor Refer to Section 3 4 2 20 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS 5 5 15 B slaves Number of I O Points Purpose MELSEC Q Used to monitor the I O input and output points and analog input and output points of each B slaves slave number Operating procedure Monitor Test screen B slaves Number of I O Points Setting screen B slaves Number of 1 0 Points Module information Module type AS i Master Module Module model name 0J714592 Start 1 0 No 0000 Setting item Slave Addr 1B 1 0 Input Points Slave Addr 1B 1 0 Output Points Current value Setting value Slave Addr 1B Analog Input Points
8. Slave address 1 164H to 167H 356 to 359 Slave address 1 Slave address 2 168H to 16BH 360 to 363 Slave address 2 Slave address 3 16CH to 16FH 364 to 367 Slave address 3 Slave address 4 170H to 173H 368 to 371 Slave address 4 Slave address 5 174H to 177H 372 to 375 Slave address 5 Slave address 6 178 to 17BH_ 376 to 379 Slave address 6 Slave address 7 17CH to 17FH 380 to 383 Slave address 7 Slave address 8 180H to 183H 384 to 387 Slave address 8 Slave address 9 184H to 187H 388 to 391 Slave address 9 Slave address 10 188H to 18BH 392 to 395 Slave address 10 Slave address 11 18CH to 18FH 376 to 399 Slave address 11 Slave address 12 190H to 193H 400 to 403 Slave address 12 Slave address 13 194H to 197H 404 to 407 Slave address 13 Slave address 14 198H to 19BH 408 to 411 Slave address 14 Slave address 15 19CH to 19FH 412 to 415 Slave address 15 Analog input Analog Slave address 16 jata 41 1A0H to 1A3H_ 416 to 419 Slave address 16 output data Slave address 17 1A4H to 1A7H 420 to 423 Slave address 17 Slave address 18 1A8H to 1ABH 424 to 427 Slave address 18 Slave address 19 1ACu to 1AFH 428 to 431 Slave address 19 Slave address 20 1B0H to 1B3H 432 to 435 Slave address 20 Slave address 21 1B4H to 1B7H 436 to 439 Slave address 21 Slave address 22 1B8x to 1BBH 440 to 443 Slave address 22 Slave address 23 1BCH to 1BFH 424 to 447 Slave address 23 Slave address 24 1C0H to 1C3H 448 to 451 Slave address 24 Slave
9. Flash ROM setting Details Current value display Monitoring Cannot execute test Make text file Stop monitor Operation procedure 1 Check the command execution result MELSEC Q Check the execution result in the setting value fields of AS i Command Buffer lt Result gt and lt Data Word 0 to 3 gt 4 For the slave parameter read command open the Extended Command Buffer lt Command Data gt sub screen and check the read data 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 7 Configuration Data Registration EEPROM Storage Purpose Used to register the configuration and Storage the data onto the EEPROM Operating procedure Monitor Test screen Configuration Data Registration EEPROM Storage Setting screen Monitor Test Module information Module type AS i Master Module Start 1 0 No 0000 Module model name 0J714A592 Configuration Data Registration EEPROM Save 1 Change to Configuration Mode Change to Configuration Mode when Mode Status is not in Configuration Mode Setting item Current value Setting value Mode Status Configuration Made Change Request OFF Mode Change Request 2 Set LPS A slaves List of Projected Slaves LPS For Write B slaves List of Projected Slaves LPS For write Configuration Register Request Register Request 3 Register Permanent Configuration by Command
10. Perform operation to return from the configuration mode selected in 1 to the protected operation mode Choose Mode Change Request in the setting value field of Protected Operation Mode Change Request and execute a selection test to return to the protected operation mode Check the mode change request result in Mode Change Request Result Current Error Code If any error is found take corrective action in accordance with the error code Storage the configuration data onto the EEPROM 1 Choose Write Request in the setting value field of Turn OFF the EEPROM Write Request and execute a selection test to make a EEPROM write request Confirm that EEPROM write is complete Making a write request changes the indication in the setting value field of EEPROM Write Request as indicated below At normal completion Not yet written Writing gt Write completed At abnormal completion Not yet written gt Writing gt Write Failed a 14_If the write time is short Writing does not appear If Write Failed has occurred scroll the screen check the error codes in Current Error Code and Error Code History 1 5 and take corrective action according to the error codes Choose OFF in the setting value field of Turn OFF the EEPROM Write Request and execute a selection test to turn OFF the EEPROM write request 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 7 1 Setting the Configuration Data
11. Read Parameters Add tx st 7 Staus Store Actual Parameters tx stm 8 Status Set Permanent Configuration S Addr S Config x fcmo 9 Status S_Config Get Permanent Configurations Add x fowo 10 Status Store Actual Configuration x ow 11 Status S_Config Read Actual Configurations Addr x fm Get_LPS Get_LAS Get_LDS BFM BFM Get_Flag_Config_OK x Oam 16 2 Status Flag Get Fag toso0 x eM 16 3 Status Flag Get Flag Auto Address Assign Jx BEM O 164 Status Flag Get Flag Auto Prog Available tx BEM Status Flag Get_Flag_Configuration_Active I O and BFM 16 6 Status Flag Get Fiag Normal Operation Active x WO and BEM 167 Staus Flag Get Flag apro oe Joas O 16 8 Status Flag Get Fiag Offine Ready tx st eM Get_Flag Periphery OK Set_Operation_Mode Mode 19 Staus Activate Data Exchange Mode J o o b 221 Status Resp Cmd Reset AS i Slave S Add RESET o deo oo i yO 222 Status Resp Cmd Read IO_Configuration s_AdarconF d e i y O 22 3 Status Resp Cmd Read Identification Code S_Adar IDcoD J o o y O F 2 a eooo b eooo b TTT TT W W a s 22 7 Status Resp Cmd Read Ext D Code 2S Addriocopa d o ooo B Integrated support of slave profes oo O App 2 App 2 APPENDIX MELSEC Q Key to the symbols for column 3 meaning x implemented not available meaning
12. implemented by Buffer Memory BFM CMD implemented by Command request Key to the symbols for column 4 1 0 implemented by I O signal not available App 3 App 3 APPENDIX MELSEC Q Appendix 3 Differences between QJ71AS92 and A1SJ71AS92 1 The following table indicates the differences in specifications between the QJ71AS92 and A1SJ71AS92 fea Connectable Connectable When slaves are not grouped into A and B Ver 2 04 compatible I O slave e Analog slave e Ver 2 11 compatible I O slave Approx 5ms I O refresh When slaves are grouped into A time and B e Ver 2 11 compatible I O slave When grouped 35ms channel 1 70ms channel 2 105ms channel 3 140ms channel 4 EEPROM for registration of slave Flash ROM for registration of slave configuration configuration Number of writes 100 000 times Number of writes 10 000 times max max Number of occupied VO points 32 points vO assignment 32 32 points vO assignment 32 intelligent points special points 2 Precautions for diverting the system The following table indicates the precautions for diverting the A1SJ71AS92 system QJ71AS92 A1SJ71AS92 Allowed 2 Grouping Not allowed compatible with AS i Ver 2 11 AS i Ver 2 04 compatible I O slave Connectable_ AS i Ver 2 11 compatible I O slave Analog slave Internal memory AS i Ver 2 04 compatible I O slave slave Analog slave AS i Ver 2 04
13. Hard disk For installation 65 MB or more space 10 MB or more Display 800 X 600 dots or more resolution Microsoft Windows 95 Operating System English version Microsoft Windows 98 Operating System English version Microsoft Windows Millennium Edition Operating System English version Microsoft Windows NT Workstation Operating System Version 4 0 English version Microsoft Windows 2000 Professional Operating System English version Microsoft Windows XP Professional Operating System English version Microsoft Windows XP Home Edition Operating System English version Microsoft Windows Vista Home Basic Operating System English version Microsoft Windows Vista Home Premium Operating System English version Microsoft Windows Vista Business Operating System English version Microsoft Windows Vista Ultimate Operating System English version Microsoft Windows Vista Enterprise Operating System English version 1 Install GX Configurator AS in GX Developer Version 4 or higher in the same language GX Developer English version and GX Configurator AS Japanese version cannot be used in combination and GX Developer Japanese version and GX Configurator AS English version cannot be used in combination 2 GX Configurator AS is not applicable to GX Developer Version 3 or earlier 3 At least 15GB is required for Windows Vista 4 Resolution of 1024 x 768 dots or more is recommended fo
14. Make text file Stop monitor Refer to Section 3 4 2 19 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 21 Analog Output Data Slave Addr 1 31 Purpose Used to monitor the analog output data from channels 1 to 4 of each slave number Operating procedure Monitor Test screen Analog Output Data Setting screen Analog Output Data Slave Addr 1 31 Module information Module type AS i Master Module Start 1 0 No 0000 Module model name 0J71A592 Setting item Current value Setting value Analog Output Data to Slave Address 1 CH1 Analog Output Data to Slave Address 1 CH2 Analog Output Data to Slave Address 1 CH3 Analog Output Data to Slave Address 1 CH4 Analog Output Data to Slave Address 2 CH1 Analog Output Data to Slave Address 2 CH2 Analog Output Data to Slave Address 2 CH3 Analog Output Data to Slave Address 2 CH4 Analog Output Data to Slave Address 3 CH1 Analog Output Data to Slave Address 3 CH2 Analog Output Data to Slave Address 3 CH3 Flash ROM setting Details Current value Monitoring display Decimal input Make text file Setting range 32768 32767 Stop monitor Execute test Refer to Section 3 4 2 19 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 6 Command Request Command Result Purpose Used to reque
15. Communication with analog slaves Provided that one channel is equal to 16 bits the QU71AS92 can communicate with AS i analog input or output slaves of one to four channels 3 Overall distance The overall distance is 100m Note that the overall distance can be extended to up to 300m by using two repeaters 4 Automatic slave address assignment function Automatic address assignment function The QJ71AS92 can automatically assign the same address to the new slave same type of product whose slave address is 0 when changing a slave 5 Easy setting by using utility package Sold separately GX Configurator AS is available as an utility package Sold separately Although not necessarily required GX Configurator AS enables the automatic refresh to be set from within the software resulting in easy sequence programming slave address setting and monitoring of the setting and operation statuses 2 SYSTEM CONFIGURATION MELSEC Q 2 SYSTEM CONFIGURATION This chapter explains the system configuration of the QU71AS92 2 1 Applicable Systems This section describes the applicable systems 1 Applicable modules and base units and No of modules a When mounted with a CPU module The table below shows the CPU modules and base units applicable to the QJ71AS92 and quantities for each CPU model Depending on the combination with other modules or the number of mounted modules power supply capacity may be insufficient Pay atten
16. End setup Start 1 0 No 0000 Setting item A slaves Error Slave List Module side Transfer word count Module side Buffer size Module side Buffer offset Transfer direction PLC side 2 Device B slaves Error Slave List A slaves List of Peripheral Faults LPF B slaves List of Peripheral Faults LPF A slaves Number of 1 0 Points Slave Addr 14 314 B slaves Number of 1 0 Points Slave Addr 1B 31B EC Flag A slaves Input Data of Slave Addr From 14 34 and a part of EC Flag A slaves input Data of Slave Addr From Make text file Auto refresh setting Module information Module type AS i Master Module Module modelname QJ71AS92 End setup Start 1 0 No Setting item B slaves Input Data of Slave Addr From 18 318 A slaves Output Data of Slave Addr From TA3TA B slaves Output Data of Slave Addr From 1B 31B Analog Input Data Slave Addr 1 31 Module side Transfer word count Module side Buffer size Module side Butfer offset Transfer direction PLC side 2 Device 2 zz 7S Analog Output Data Slave Addr 1 31 Command Butfer lt Command gt Command Butfer lt Request Data Word 0 3 and Argument gt Extended Command Buffer lt Command D atal gt Make text file End setup b a 1 e The A slaves List of Active Slaves LAS is transferred to D3
17. Low Voltage Directives compliant into other machinery or equipment refer to Chapter 9 EMC AND LOW VOLTAGE DIRECTIVES of the QCPU User s Manual Hardware Design Maintenance and Inspection The CE mark indicating compliance with the EMC and Low Voltage Directives is printed on the rating plate of the programmable controller For the product No additional measures are necessary for the compliance of this product with the EMC and Low Voltage Directives Generic Terms and Abbreviations Unless otherwise specified the following generic terms and abbreviations are used to explain the QJ71AS92 type AS i master module in this manual Abbreviation general terms Description of the abbreviation general terms QJ71AS92 Abbreviation of QJ71AS92 Generic term for QQ 0JCPU QOO0CPU Q01CPU Q02CPU QO2HCPU QO6HCPU Q12HCPU Q25HCPU QO02PHCPU QO6PHCPU Q12PHCPU Q25PHCPU QCPU Q mode Q12PRHCPU Q25PRHCPU QO02UCPU QO3UDCPU QO4UDHCPU QO6UDHCPU Q13UDHCPU Q26UDHCPU QO03UDECPU Q04UDEHCPU QO6UDEHCPU Q13UDEHCPU and Q26UDEHCPU Extension cable Generic term for QC05B QCO6B QC12B QC30B QC100B extension cable Generic term for QJ71AS92 type AS i master module setting and monitor tool GX Configurator AS SW1D5C QASU E Generic product name for SWnD5C GPPW E SWnD5C GPPW EA SWnD5C GPPW GX Developer EV and SWnD5C GPPW EVA n is 4 or greater A and V mean volume license product and upgrade product respectively Abbreviation fo
18. Program or GX Configurator AS 2 lt Select the configuration mode gt If the CM LED is not ON press the MODE switch until the CM LED is lit to select the configuration mode lt Method of erasing the slave address set the slave address to 0 gt When the slave address you want to erase is displayed on the CODE LED press the SET switch for more than 5 seconds See Section 4 5 3 lt Method of setting the slave address to the slave of slave address 0 gt See Section 4 5 2 1 Press the SET switch to display the address you want to set on the CODE LED 2 Hold down the SET switch until the address displayed on the CODE LED flickers 3 After it has flickered press the SET switch again This sets the slave address displayed on the CODE LED to the slave of slave address 0 1 The slave address can be set to only the slave that has been set to address 0 ate EA iahaie amp sata Raia G66 wialera e e w AA T L ET L EET A For details of the method of using the switches See Section 4 5 1 and later lt Send the command gt 1 Set 2004 in the command buffer lt request gt buffer memory address 55n 2 Set the current slave address in the command buffer lt request data word 0 gt buffer memory address 56x 3 3 Set a new slave address in the command buffer lt request data word 1 gt buffer memory address 571 3 4 Turn Y12 ON command request 5 Turn Y12 OFF after making sur
19. gt to the permanent parameter 1 of the slave address n n request code 80h A1H to BFH Writes the value of the command buffer lt request data word 0 gt to the permanent parameter 1 of the slave address n n request code AOp C1H to DFH Reads the permanent parameter 1 of the slave address n n request code COn The result is written to the command buffer lt result data word 0 gt E1H to FFH Reads the permanent parameter 1 of the slave address n n request code EOn The result is written to the command buffer lt result data word 0 gt 3 SPECIFICATIONS Command code 101H to 11FH 121 to 13FH 141 to 15FH 161 to 17FH 181H to 19FH 1A1H to 1BFH MELSEC Q O Enabled Disabled Operating Target Slave Status Reads the actual configuration of the slave address n n request code 1004 The result is written to the command buffer lt result data word 0 gt Reads the actual configuration of the slave address n n request code 120 The result is written to the command buffer lt result data word 0 gt Writes the value of the command buffer lt request data word 0 gt to the permanent configuration of the slave address n n request code 140h Writes the value of the command buffer lt request data word 0 gt to the permanent configuration 2 of the slave address n n request code 1604 Reads the permanent configuration of the slave address
20. 12 Setting item Buffer size Buffer offset gracion Device Setting item Curent value Setting value Configuration Error LDS_0 Detection of Slave Addr 0 Automatic Address Assignment Function Automatic Address Assignment Available Configuration Mode Active Current Error Code Error Code History 1 5 A slaves List of Detected Slaves LDS B slaves List of Detected Slaves LDS A slaves List of Active Slaves LAS B slaves List of Active Slaves LAS A slaves List of Projected Slaves LPS For Read B slaves List of Projected Slaves LPS For Read A slaves List of slaves that differ from settings B slaves List of slaves that differ from settings p Details Current value Monitoring display Cannot execute test Make text file Make text file End setup Refer to Section 5 4 Stop monitor Refer to Section 5 5 5 UTILITY PACKAGE GX Configurator AS 5 3 3 Starting the Intelligent function module utility Operating procedure Intelligent function module utility is started from GX Developer Setting screen Intelligent function module utility C MELSEC GPPWiQJ EBR Intelligent Function module parameter Online Tools Help Select a target intelligent function module Start 1 0 No Module type 0000 AS i Master Module Module model name QJ714592 Parameter setting module Intelligent
21. 5 8 B slaves lt A slaves B slaves A slaves B slaves lt List of slaves that differ from settings Section 5 5 9 A slaves Error Slave List Section 5 5 10 B slaves Error Slave List Section 5 5 11 A slaves List of Peripheral Faults LPF Section 5 5 12 B slaves List of Peripheral Faults LPF Section 5 5 13 m oa YS 5 UTILITY PACKAGE GX Configurator AS MELSEC Q A slaves Number of I O Points Section 5 5 14 B slaves Number of I O Points Section 5 5 15 A slaves Input Data of Slave Addr From 1A 31A Section 5 5 16 B slaves Input Data of Slave Addr From 1B 31B Section 5 5 17 A slaves Output Data of Slave Addr From 1A 31A Section 5 5 18 B slaves Output Data of Slave Addr From 1B 31B Section 5 5 19 Analog Output Data Slave Addr 1 31 Section 5 5 21 Comment Request 1 Set request code in the Command buffer AS i Command Buffer lt Command gt AS i Command Buffer lt Data Word 0 gt AS i Command Buffer lt Data Word 1 gt AS i Command Buffer lt Data Word 2 gt AS i Command Buffer lt Data Word 3 gt Extended Command Buffer lt Command Data gt 2 Execute the Command Section 5 6 Command Execution Request 3 Check the Command execution result AS i Command Buffer lt Result gt AS i Command Buffer lt Data Word 0 gt Gut ott ae i Command Buffer lt Data Word 1 gt AS iCommandBuffer lt DataWord2 gt 2
22. AS i cable ASI FG 2 4 The ASI and ASI terminals are connected within the module respectively 2 Always ground the FG terminal to the protective ground conductor 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 5 Start Up After powering on the programmable controller the QJ71AS92 is placed in the normal operation status ready to communicate data with the slaves via the following communication phases Off line phase In this phase the QJ71AS92 is initialized Communication in the AS i system is not started If sufficient power is not supplied from the AS i power supply to the AS i system the QJ71AS92 remains in the offline phase The U ASI LED is not lit When AS i power is supplied the QJ71AS92 switches to the detection phase Detection phase In this phase the QJ71AS92 checks for the slaves that are ready for communication in the AS i system It remains in the detection phase until it finds at least one slave Activation phase In this phase the slaves found by the QJ71AS92 in the detection phase become ready to communicate Normal operation In the normal operation status the QJ71AS92 can communicate data with all the slaves that are ready for communication The QJ71AS92 sends a management message to check for a newly connected slave and if it exists makes it ready for communication The normal operation phase has the configuration mode and pr
23. B1EH B LED ON Communication with the slave of the corresponding slave address in group B cannot be made in the protected operation mode Communication with the non grouped slave of the corresponding slave ea ea address cannot be performed in the protected operation mode or AS i Ver 2 04 compatible I O slave analog slave Internal error Please consult your local Mitsubishi service center or E52H S representative explaining a detailed description of the o problem E80u The slave address 0 was recognized The QJ71AS92 cannot end the configuration mode 0 Ew O O8 O A general error occurred during a slave address change The QJ71AS92 has been set in the switch operation disabled status from E82H 82 the CPU module An error occurred during slave address change The slave of the slave E90H address 0 does not exist An error occurred during slave address change The assigned slave E91H 91 address has already been used An error occurred during slave address change A new slave address E92H 92 cannot be set An error occurred during slave address change The new slave address can E93H 93 R be stored into only the nonvolatile memory of the slave An error occurred during slave address change in the protected operation E94H 94 Re i ae mode The configuration information of the slave is in error An error occurred during slave address change in the protected operation E95H mode The slave address that caused the sett
24. CODE _ Alternatively turn Y16 ON I thes In this mode assign any slave address to the slave of slave address 0 Refer to LI o8 Section 4 5 2 Slave address assignment MODE SETO Press the MODE switch until the CM LED turns on When assigning the slave address with the QJ71AS92 connected to the slave of slave address 0 please make sure that only one slave of slave address 0 is connected to it The QJ71AS92 will not perform slave address assignment when being connected with more than two slaves of slave address 0 ie 2 Put the QJ71AS92 in the protected operation mode and register the cM O I PRG ENA configuration data of the slaves A Sea es Press the MODE switch until the CM LED is off Alternatively turn Y17 ON Normally set this mode when operating the AS i system OA OB If the MODE switch is not pressed until CM LED turns off the configuration data MODE XS of the slaves is not registered properly even though CM LED is on If the SETO ERR LED is lit restart operation from 1 Press the MODE switch until the CM LED turns off pete 3 Press the MODE and SET switches simultaneously until gd cM LIL PRG ENA appears on the CODE LED Alternatively turn Y1C ON The SEE configuration data are written to the EEPROM CODE OA MODE X switch simultaneously until gd appears on the CODE LED Press the MODE switch and g 4 SETTINGS AND PROCEDURES FOR OPE
25. Moves the cursor one page down Down Completes the entry in the cell 2 Operation Command Buttons Current value displa Displays the current value of the item selected Make text file Creates a file containing the screen data in text file format Start monitor Starts monitoring of the current value field Stop monitor Stops monitoring of the current value field Execute test Registers the setting data of the selected item in the QJ71AS92 To apply Execute test to multiple items simultaneously set the data for the corresponding items select the multiple items while pressing down Ctrl then click Execute test Close Closes the screen that is currently open and returns to the previous screen 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 3 Data created with the utility package The following data or files that are created with the utility package can be also handled in GX Developer Figure 5 1 shows respective data or files are handled in which operation lt Intelligent function module parameters gt a This represents the data created in Auto refresh setting and they are stored in an intelligent function module parameter file in a project created by GX Developer Project Program Parameter PLC Parameter Network Parameter Intelligent Function Module Parameter b Steps 1 to 3 shown in Figure 5 1 are performed as follows 1 From GX Developer select Proj
26. SET switches simultaneously to save the above registered configuration data onto the EEPROM 4 It should be noted that resetting the CPU module will change erase the above registered data into the configuration data that were previously saved on the EEPROM For details of the method of using the switches Refer to Section 4 5 1 and later 5 Refer to Sections 5 6 and 5 7 for the operation of GX Configurator AS 6 Refer to Section 3 5 1 for the values to be set to the command data 7 Refer to Section 3 3 2 12 for the timing of turning Y1C from OFF to ON to OFF lt Select the configuration mode gt If the CM LED is not ON turn Y16 configuration mode from OFF to ON to OFF to select the configuration mode lt Method of registration after clearing the previous configuration data gt 1 Set 2014 in the command buffer lt request gt buffer memory address 55x 2 Turn Y12 ON command request 3 Turn Y12 OFF after making sure that X12 command completion has turned ON 4 Check the result of the command buffer lt result gt buffer memory address 25n lt Method of addition deletion to the previous configuration data gt 1 Set the LPS for write buffer memory addresses 491 to 4Cx and turn Y13 ON configuration registration request 2 Turn Y13 OFF after confirming that X3 configuration registration completion has turned ON 3 Set the permanent configuration setting command 14
27. Slave address erasure This section describes the procedure of assigning the slave address 0 to the slave with No 10 Following is the example when the slaves of slave No 1 and 2 have been registered 1 Put the QJ71AS92 in the configuration mode by reference Section 4 5 1 1 All the slave addresses recognized in the AS i system are displayed on the CODE LED in order 2 When the slave No 10 is displayed press the SET switch for more than five seconds This sets slave address 0 to the slave 0 is stored into the nonvolatile memory of the slave At the same time 0 appears on the CODE LED of the QJ71AS92 Press the SET switch for more than five seconds CODE A OB MODE O SET stave address 0 is sot 3 When you release the SET switch the CODE LED displays the slave address of the slave that has been recognized again 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 5 4 Automatic slave address assignment function The automatic slave address automatically assigns the same address to the new slave same type of product whose slave address is 0 when changing a slave The following conditions must be satisfied to function the automatic slave address assignment 1 The QJ71AS92 is in the protected operation mode 2 The automatic slave address assignment function is valid See Section 3 3 2 9 3 Only one of the slaves in the configuration is not recognized When
28. Write of intelligent function module parameters Refer to section 5 3 3 Write the intelligent function module parameters to the CPU module Perform this operation on the Select a target intelligent function module screen 7 PROGRAMMING 2 Program Examples x0 H CID X Turns ON refresh command x0 x5 X6 X7 NO HK r r r V gt ov Ssoin2 00 k2v90 J Outputs input data from slave No 5 to Y94 to Y97 x0 X5 X6 x7 WO 1 if if AF if mov KIX50 D300 J Transfers X50 to X53 to output data for slave No 4 x0 x5 X6 X7 WO 1 if if r s 1H mov KO D300 J Stops output to slave if slave No 4 cannot communicate Explanation of devices XO Module ready ON when normal X5 AS i power failure OFF when normal X6 Normal operation active OFF when in normal operation X7 Configuration mode active OFF except when in configuration mode D200 Input data from slave address 4 to 7 Input data from slave address 4 is in bits 0 to 3 D300 Output data to slave address 4 to 7 Output data to slave address 5 is in bits 4 to 7 MO Configuration error flag 7PR RAMMIN oi MELSEC Q 7 1 2 Program example when utility package is not used 1 Program Examples U0 Bmov G21 K4MIOO K2 J Reads active slave list 1 CiD J Turns ON refresh command x0 x5 x6 XI UO s A r ae a A s i K2316 J Reads input data from slave UO G0 0 300 X Reads configuration error flag W3
29. X2 ON Command completed Command completion ON Y12 OFF ON X2 OFF Command execution Command Completion 55H to 59H Command Result Result 25H to 29H es 1 Do not turn Y12 OFF until X2 turns ON during command execution Request PECIFICATION eS A ae MELSEC Q 3 X3 Configuration Registration Completion Y13 Configuration Registration Request A request to register the projected slave list LPS of the buffer memory is made when Y13 turns ON When Y13 turns ON the QJ71AS92 executes registration of configuration data and X3 turns ON upon completion of the registration Y13 is valid in the configuration mode X7 ON 0 Buffer memory address 49H to 4AH A slaves List of Projected Slaves LPS For Write 4Bu to 4CH B slaves List of Projected Slaves LPS For Write Y13 ON Configuration registration requested X3 ON Configuration registration completed ON Y13 X3 F s Registration Registration completion execution Projected Slave List for write 49H to 4AH 4BH to 4CH Slave list ON X7 OFF 1 Do not turn Y13 OFF until X3 turns ON during registration request Refer to Section 4 5 for details of configuration mode 2 If Y13 is turned ON in a mode other than configuration mode X7 OFF configuration data will not be registered although X3 turns ON PECIFICATION eS A ae MELSEC Q 4 X4 Configuration
30. address 25 1C4H to 1C7H 452 to 455 Slave address 25 Slave address 26 1C8H to 1CBH 456 to 459 Slave address 26 332 to 335 Slave address 27 1CCu to 1CFH 460 to 463 Slave address 27 Slave address 28 1D0H to 1D3H 464 to 467 Slave address 28 Slave address 29 1D4H to 1D7H 468 to 471 Slave address 29 Slave address 30 1D8H to 1DBH 472 to 475 Slave address 30 Slave address 31 1DCH to 1DFH 476 to 479 Slave address 31 1 7FFFH is stored when no communication is made Example Buffer memory address Un G228 to Un G231 Example Buffer memory address Un G356 to Un G359 Buffer memory address 1644 356 Analog output data to slave address 1 Channel 1 165 357 Analog output data to slave address 1 Channel 2 1664 358 Analog output data to slave address 1 Channel 3 1674 359 Analog output data to slave address 1 Channel 4 For the range of analog output data refer to the manual of each analog slave 3 26 3 26 PECIFICATION eS A ae MELSEC Q 20 Number of I O Points Buffer memory address 1E0H to 1FFH 200H to 21FH Un G480 to Un G511 Un G512 to Un G543 The following table lists the numbers of I O points and analog I O points of the slaves in the configuration are displayed Address A Address Details Details Hexadecimal Decimal Hexadecimal Decimal 2001 512__ Invalid 0 fixed Slave address 1A 2014 513 Slave address 1B Slave address 2A 2024 514 Slave address 2B Slave add
31. address 4 I I i Slaves are changed into Ver 2 11 compatible products j I I j l A Slave Slave Slave Slave i address 2A address 3A address 2B address 3B Group 1 App 5 App 5 APPENDIX MELSEC Q 3 Prepare two QJ71AS92 modules Then connect the slaves of the first and second systems to the respective modules first second module module fae SE EA i Slave Slave Slave eres 1 SE soos i laddress 2 address 3 adaress 4 i s Group 1 of the first module Group 1 of the second module 3 Precautions for program utilization QJ71AS92 MSJAS92 sd Module ready signal XO Also used as module ready signal e ON Normal O Normal e OFF Watchdog timer error occurred e OFF Watchdog timer error occurred Watchdog timer error signal 1 When values are set in the projected slave list LPS for write buffer memory addresses 49H to 4Cu and Configuration Registration Request Y13 is turned ON they are registered 2 The registration result is reflected on the projected slave list LPS for read buffer memory addresses 19H to 1Cu and configuration register completion X3 is turned ON 1 When a command is written to the command 1 When a command is written to the buffer lt request gt buffer memory addresses command buffer lt request gt buffer 55H to 59H and command execution request memory addresses 55H to 59H B5H to Y
32. area starting from the specified device number For example if X10 is entered data are stored in X10 to X1F 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 2 Command buttons Make text file Creates a file containing the screen data in text file format Saves the set data and ends the operation Cancels the setting and ends the operation Explanation of items Current Error Code Error Code History 1 5 Section 3 4 2 17 A slaves List of Detected Slaves LDS Section 3 4 2 5 B slaves List of Detected Slaves LDS A slaves List of Active Slaves LAS s Section 3 4 2 6 B slaves List of Active Slaves LAS A slaves List of Projected Slaves LPS For Read Section 3 4 2 7 B slaves List of Projected Slaves LPS For Read A slaves List of slaves that differ from settings Section 3 4 2 8 B slaves List of slaves that differ from settings A slaves Error Slave List z Section 3 4 2 9 B slaves Error Slave List A slaves List of Peripheral Faults LPF Section 3 4 2 18 B slaves List of Peripheral Faults LPF A slaves Number of I O Points Slave Addr 1A 31A Section 3 4 2 20 B slaves Number of I O Points Slave Addr 1B 31B EC Flag Section 3 4 2 4 A slaves Input Data of Slave Addr From 1A 3A and part of EC Flag Section 3 4 2 1 A slaves Input Data of Slave Addr From 4A 31A Section 3 4 2 2 B slaves Input Data of Slave Addr F
33. compatible I O slave App 4 App 4 APPENDIX MELSEC Q Example When two systems are controlled by the A1SJ71AS92 A1SJ71AS92 Ses E bo 3 See sae se fees ae holes Slave Slave Slave Slave Slave Slave address 1 address 2 address 3 address 2 address 3 address 4 Le kee oie ae ee ou eyes K ah Cn Te Ee en Group 1 Group 2 The A1SJ71AS92 system can be diverted to the QJ71AS92 system in any of the following three methods In any of the three methods the program for the second system slaves must be modified 1 Change the slave addresses of the second system into the slave addresses not used in the first system and connect the second system to the first system QJ71AS92 1 1 Slave Slave Slave Slave Slave Slave address 1 address 2 address 3 address 2 address 3 address 4 F I i j l Slave address change i Slave Slave l i address 5 address 6 Group 1 2 Change the slaves whose slave addresses overlap in the first and second systems into the AS i Ver 2 11 compatible slaves Then split the slaves into two groups A and B and assign different slave addresses to group A and B and connect the second system to the first system QJ71AS92 Zor N 1 Slave Slave Slave Slave Slave Slave I address 1 address 2 address 3 address 2 address 3
34. detected slave list LDS and projected slave list LPS for read Namely only the slaves already registered to the projected slave list LPS for read from among the detected slaves slaves that are ON in the detected slave list LDS are ready for communication Related items Section 3 4 2 5 Section 3 4 2 7 PECIFICATION eS A ae MELSEC Q 7 List of Projected Slaves LPS For Read Buffer memory address 19H to 1AH 1BH to 1CH Un G25 to Un G26 Un G27 to Un G28 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Not used 0 fixed The bits corresponding to the registered slave addresses as the projected slaves in the QJ71AS92 turn on When the bit is ON the slave corresponding to that bit is ready for communication in the AS i system in the projected operation mode When the bit is OFF the slave corresponding to that bit is not ready for communication in the AS i system in the projected operation mode At power on of the programmable controller the data Stored on the EEPROM in the QJ71AS92 are used to make initialization e If the LPS has been set communication cannot be made when the permanent configuration differs from the actual configuration Related item Section 3 5 1 e To read write the configuration use the command buffer lt request gt buffer memory addresses 101H to 13FH 141H to 17FH Refer to Section 3 5 1 for command details Related item Sec
35. eee dace se okie ett a a a a a sa tad ea a aa a aR A 5 CONTENTS e tates toe oh Recah te Sta ee Ne ee eh Ane a tat Nee rie See Ae eae ta aa tLe A 5 Compliance with the EMC and Low Voltage Directives ceeceeeceeeceeeeeeeeeeeeeeeeeeeeeeeeeeeeesaeeeaeesaeeeaeeeaneas A 8 Generic Terms and Abbreviations sci itia dca ddd a aa Aen e cain ae a ed tha date A 9 Product StruCture foie rier eae estat Aa a rea ea gelatine Anzai ee ae danse tad eaae aea a A 10 1 OVERVIEW 1 1to1 2 TTF atures ennea so es et Ae Bots es oe A en A a a i ee a ee Go ee ar A rd 1 2 2 Applicable S yS E S T r eate sate ta he deba te anak edie eden ald ae ae bh eee dae Peat a sae 2 1 2 2 How to Check the Function Version and Software Version cccccceseceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeeeas 2 3 2 3 AS i System Connection Methods cccceccsecceeeeeeeeeeeeceeesaeeseeeseeseeseeseeseesieesieeseeseesieesieesietieetieesieess 2 5 2 4 Precautions for System Configuration ccecccecceeeeseeeeeeeeneeseeeseeeseeeseeseeesieesieeseesieesieesieesieesietieesieeeiness 2 7 3 1 Performance Specifications 23c25 ais eho ele hie oe el teed aa R aS 3 1 3 1 1 Performance specification list cc cccceceeeseeeeeeeeceeeeeeceeeeaeeeeaeeecaeeesaneeseaeeseaeescaeeesceseeaeeseeeseeessaeeess 3 1 3 2 FUNCTIONS h hanna nap a a ein aici 3 2 3 2 1 Function for communication with AS i SlAVES cccccceeceeeeceeeeeeeeeeeeseaeeseaeeeeaeeesaeeeeaeeteeeeeeeee
36. fixing latch into the hole of the base unit snap the module into place and tighten the module fixing screws with the specified torque Failure to observe this could result in damage to the screws or module module falling short or misoperation If the screws are tightened excessively it may damage the screws and cause the module to short circuit malfunction or fall off e Always shut off all phases of the programmable controller power supply and AS i power supply externally before mounting or removing the module Failure to shut off all phases could lead to product damage WIRING PRECAUTIONS lt DANGER e Switch off all phases of the programmable controller power supply and AS i power supply outside the programmable controller before starting installing or wiring work There is a risk of electric shock or malfunction WIRING PRECAUTIONS A CAUTION e Always confirm the products terminal layout before wiring to the module Incorrect wiring could lead to fires or faults e Wiring installation screws to the specified torque If a wiring installation screws is not tightened to the specified torque the module may fall out short circuit or malfunction If a wiring installation screws is tightened excessively exceeding the specified torque the module may fall out short circuit or malfunction due to breakage of the screw or the module e Make sure that no foreign matter such as chips or wire offcuts gets inside the mo
37. n n request code 180p The result is written to the command buffer lt result data word 0 gt Reads the permanent configuration of the slave address n n request code 1A0n The result is written to the command buffer lt result data word 0 gt 101 to 1DFH 1E1H to 1FFH Reads the number of AS i power fail times to the data word 0 and resets it Reads the number of wrong response times of the slave address n n request code 1C0u to the data word 0 and clears it Reads the number of wrong response times of the slave address n n request code 1E0x to the data word 0 and clears it Changes the slave address n n data word 0 into m m data word 1 n m set in 01H to 1FH Changes the slave address n n data word 0 into m m data word 1 n m set in 21H to 3FH slave address 20n Stores the actual configuration of AS i Copies the active slave list LAS to the projected slave list LPS for read and copies the actual configuration to the permanent configuration Stores the actual parameters of AS i to the permanent parameters 202H 203H 300H 3 Sets the SET and MODE switches to Invalid Valid Command buffer lt request data word 0 gt 0 Valid default 1 Invalid Reads and clears the illegal slave list The result is written to the command buffer lt result data words 0 1 gt Writes the value of the command buffer lt request data word 0 gt to the ex
38. of the AS i system AS i Slave Ver 2 04 Slave address 6 Analog Slave Slave address 5 DJ D g i i i AS i Slave AS i Slave AS i Slave AS i AS i Slave AS i Slave Laddress 1A address 2A address 4A power address 1B address 4B PSS aaa oy San ote aie 0 ee ect A Group A supply EEEE Group B 4 Use the AS i cables AS i power supply and slaves that are compatible with AS i Ver 2 11 or AS i Ver 2 04 The CPU module communicates the I O data of the slaves via the QJ71AS92 buffer memory according to instructions CPU module QJ71AS92 I O Slave Ser Communication evice MEMOFY instruction 1 memory Transmission Dao Output data put data data pma p Receive data K T Input data el Input data Analog Slave Buffer memory Communication memory Output data Input data Instruction 1 data A Output data Input data 1 Use of GX Configurator AS enables automatic refresh without programs See Chapter 5 for details 1 OVERVIEW MELSEC Q 1 1 Features The QJ71AS92 has the following features 1 Maximum number of connected slaves As the AS i master the QJ71AS92 can control a maximum of 62 slaves by splitting the slave addresses into two groups A and B 2
39. operation AS i communication During communication Communication stop During communication PECIFICATION eee MELSEC Q 9 Y15 Auto Address Assignment Function Sets the automatic slave address assignment function valid or invalid OFF Automatic slave address assignment function is valid ON Automatic slave address assignment function is invalid 10 Y16 Configuration Mode OFF ON The QJ71AS92 is set in the configuration mode ON gt OFF The QJ71AS92 operation mode does not change ON Y16 OFF ON XT OFF j a e D S090 Protected opration mode Configuration mode ON X6 OFF 11 Y17 Protected Operation Mode OFF ON The QJ71AS92 is set in the protected operation mode ON gt OFF The QJ71AS92 operation mode does not change ON Y17 OFF ON x7 OFF ns OA NS ISIOES Configuration mode Protected opration mode ON X6 OFF 1 When the QJ71AS92 has recognized the slave address 0 it cannot terminate the configuration mode In this case note that X7 remains ON PECIFICATION eS A ae MELSEC Q 12 Y1C EEPROM write Turning Y1C ON writes the configuration data to the EEPROM Write to EEPROM can be operated in either the protected operation mode or configuration mode From the next time on the QJ71AS92 will start in the operation mode used when write to EEPROM was performed After write is completed the phase remains in normal operation ON Y1C O
40. per analog slave channel 1 This is the max number of Ver 2 11 compatible I O slave stations can be grouped configured in the same system If Ver 2 11 compatible I O slaves that cannot be grouped analog slaves and Ver 2 04 compatible I O slaves are used together in the same system calculate the max number of slaves using the following expression Nio a Nio 8 2 x Na Nio lt 62 Group A 31 Group B 31 Number of Group A Ver 2 11 compatible I O slaves Nio a Number of Group B Ver 2 11 compatible I O slaves Nio 8 Number of Ver 2 11 compatible analog slaves Na Number of Ver 2 04 compatible I O slaves Nio Slave Type AS I Ver 2 11 compatible I O slave Please confirm with the manufacturer of the I O slave unit whether the unit can be grouped AS I Ver 2 04 AS I Ver 2 04 compatible O slave I O slave Disabled AS I Ver 2 11 compatible analog slave 2 One slave uses four inputs and four outputs One analog slave also uses four inputs and four outputs For the noise immunity withstand voltage insulation resistance and others in the programmable controller system using this module Refer to the power supply module specifications given in the used CPU module User s Manual For the general specifications of the QJ71AS92 Refer to the User s Manual of the used CPU module PECIFICATION se eC MELSEC Q 3 2 Functions The following table lists the QJ71AS92 functions pea slave Communication Communicat
41. slaves List of Detected Slaves LDS Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ714592 Setting item Current value Setting value Slave Address 0 Slave Address 14 Slave Address 44 Slave Address 54 Slave Address 64 Slave Address 7A N Not Detected Not Detected Not Detected Flash ROM setting Details Current value Monitoring display Cannot execute test L Make text file Stop monitor Refer to Section 3 4 2 5 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 3 B slaves List of Detected Slaves LDS Purpose Used to monitor the detection status of each B slaves slave number Operating procedure Monitor Test screen B slaves LDS Setting screen B slaves List of Detected Slaves LDS Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QU71A592 Setting item Current value Setting value Not Detected Not Detected Not Detected Not Detected Not Detected Not Detected Slave Address 11B Flash ROM setting Details Current value Monitoring Cannot execute test Make text file Stop monitor Refer to Section 3 4 2 5 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 4 A slaves List of Active Slaves LAS Purpose Used
42. the following table GX Developer is necessary when using the QJ71AS92 GX Developer GX Configurator AS Q00J Q00 Q01CPU Single CPU system Version 7 or later Multiple CPU system Version 8 or later Q02 Q02H Q06H Single CPU system Version 4 or later 2 ASAU ee en en a Version 1 13P or later 02PH QO06PHCPU ersion o Multiple CPU system or later Q12PH Q25PHcPU Single CPU system Version 7 10L or later Multiple CPU system Q12PRH Q25PRHCPU Redundant system Version 8 45X or later Version 1 16S or later Q02U Q03UD Single CPU system Q04UDH Version 8 48A or later QO6UDHCPU Multiple CPU system Q13UDH Single CPU system s Q26UDHCPU Multiple CPU system Version 8 62Q or later Version 1 21X or later QO3UDE Q04UDEH single CPU system QO6UDEH Q13UDEH oe oa Q26UDEHCPU Multiple CPU system or later RATION 2 SYSTEM CONFIGU O MELSEC Q 2 2 How to Check the Function Version and Software Version This section describes how to check the function version of the QU71AS92 and the GX Configuration AS software version 1 Checking the function version of the QJ71AS92 a Checking at the SERIAL field of the rating plate located on the side of the module The serial No and function version of the module is shown in the SERIAL field of the rating plate MELSEC Q MODEL Serial No Upper 5 digits Function version Relevant regulation standards wa MITSUBISHI ELECTRIC MADE IN JAPAN b Checking by GX Deve
43. to 14H Un G17 to Un G18 Un G19 to Un G20 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 111 15A 124 31A 13H 15B 14H 31B 30B 29B 28B 27B 26B 25B 24B 23B 22B 21B 20B 19B 18B 17B 16B Not used 0 fixed The bits corresponding to the slave addresses detected at startup of the QJ71AS92 turn ON When the bit is ON the slave corresponding to that bit is in the AS i system When the bit is OFF the slave corresponding to that bit is not in the AS i system PECIFICATION eS A ae MELSEC Q 6 List of Active Slaves LAS Buffer memory address 15H to 16H 17H to 18H Un G21 to Un G22 Un G23 to Un G24 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Not used 0 fixed The bits corresponding to the slave addresses ready for communication turn ON When the bit is ON the slave corresponding to that bit is ready for communication in the AS i system When the bit is OFF the slave corresponding to that bit is not ready for communication in the AS i system The active slave list LAS is made up as described below a In the configuration mode The active slave list LAS has the same contents as the detected slave list LDS Namely the detected slaves are always ready for communication b Inthe protected operating mode The active slave list LAS consists of the slaves that are ON in both the
44. x Y 0 to 1F 50 to 5F 90 to 9F AS i cable AS i power supply Slave addresses 4 CPU module Slave addresses 5 CPU module Output 4 points lt X50 to X53 Output 4 points gt Y94 to Y97 Slave addresses 4 Slave addresses 5 2 Operations The following operations are performed in the above system a b The inputs X50 to X53 of the CPU module are output to the output data to the slave address 4 The input data from the slave address 5 is output to the outputs Y94 to Y97 of the CPU module If a configuration error occurs I O control is executed for the slaves are ready for communication 7 PROGRAMMING MELSEC Q 7 1 1 Program example when utility package is used 1 Operation of utility package Auto refresh setting Refer to Section 5 4 Set the A slaves active slave list the input data from A slaves slave address 4A to 31A and the output data to A slaves slave address 4A to Auto refresh setting Module information Module type AS i Master Module Module model name QJ71AS92 a 31A Start 1 0 No 0000 Setting item Current Error Code Error Code History 1 5 Module side Module side Module side Buffer size Transfer Buffer offset word count PLC side Transfer Dance direction gt A slaves List of Detected Slaves LDS B slaves List of Detected Slaves LDS A slaves List of Active Slaves LAS B slaves List of Active Slaves LAS gt gt gt
45. 00 E uov K1M320 KtY 4 J Outputs input data from slave No 5 to Y94 to Y97 wov K1X50 kiw200 J Transfers X50 to X53 to output data for slave No 4 F mov KO kivz00 Stops output to slave if slave No 4 cannot communicate xo X5 X6 x7 Uo E 7 H tt t a4 BHOV KIN200 649 KI J Writes output data to slave No 4 Explanation of devices X0 Module ready ON when normal X5 AS i power failure OFF when normal X6 Normal operation active OFF when in normal operation X7 Configuration mode active OFF except when in configuration mode M104 ON when slave address 4 is ready for communication M200 to M203 Output data to slave address 4 M300 Configuration error flag M320 to M323 Input data from slave address 5 7 PROGRAMMING MELSEC Q 7 2 Analog Slave This section explains the programs for I O data communication between the QJ71AS92 and I O slaves The system configuration example in 1 shows how the programs perform when the utility package is used and when it is not used 1 System Configuration The QJ71AS92 is mounted on slot 0 of the main base unit AS i cable AS i power supply Slave addresses 2 Slave addresses 1 Slave addresses 1 CPU module Slave addresses 2 CPU module Output 2 points gt D200 D201 Output 2 points lt DO D1 2 Operations The following operations are performed in the above system a D400 and D401 of the CPU module
46. 00 and D301 of the CPU module a 2 e The number of A slaves I O points is transferred to D100 and D101 of the CPU module a 3 e The analog input data is transferred to D200 and D201 of the CPU module D4 and D5 of the CPU module are transferred to the analog output data To transfer the analog output data to the slave address 2 four words of the module side buffer memory addresses are offset by module side buffer offset Write of intelligent function module parameters Refer to Section 5 3 3 Write the intelligent function module parameters to the CPU module Perform this operation on the Select a target intelligent function module screen 7 6 7 PROGRAMMING MELSEC Q 2 Program Examples 1k CviD Turns ON refresh command D300 2 1k WAND HOF O00 D101 Reads the number of output points of slave address 2 to D101 SFR D101 K12 ay Fwov Ko D400 D101 Changes output to slave to 0 if slave address 2 cannot communicate i Ve it Ve Bwov D400 D4 D101 Writes analog output data to slave address 2 Explanation of devices XO Module ready ON when normal X5 AS i power failure OFF when normal X6 Normal operation active OFF when in normal operation X7 Configuration mode active OFF except when in configuration mode D101 Number of analog output points of slave address 2 D302 2 ON when slave address 2 is ready for communication D400 D401 Analog output data t
47. 000 Extended Command Buffer lt Command Data Word 6 gt 0000 Extended Command Buffer lt Command Data Word 7 gt 0000 Extended Command Bulfer lt Command Data Word 8 gt 0000 Extended Command Buffer lt Command Data Word 3 gt 0000 Extended Command Buffer lt Command Data Word 10 gt 000 v Flash ROM setting Details Current value display Monitoring Hexadecimal input Make text file Setting range 0000 FFFF Stop monitor Execute test Operation procedure 1 Set the request code to the command buffer Set the request code in the setting value field of AS i Command Buffer lt Command gt Also make settings in the data words 0 to 3 according to the request code Perform a selection test to write the set values to the buffer 1 For the slave parameter write command open the Extended Command Buffer lt Command Data gt sub screen and set the data to be written 2 Execute the command Choose Command Request in the setting value field of Command Request and perform a selection test to execute the command Command execution is completed on completion of the selection test 5 UTILITY PACKAGE GX Configurator AS Purpose Used to display the result in response to the command request Operating procedure Monitor Test screen Ext Command lt Result gt Setting screen Monitor Test Module information Module type AS i Mas
48. 12 is turned ON the command is executed B9u the command is executed 2 The execution result is stored into the command automatically buffer lt request gt buffer memory addresses 2 The execution result is stored into the 25H to 29H and command completion X2 is command buffer lt result gt buffer memory turned ON addresses 25H to 29H 85H to 89x 1 When values are set in the projected slave list LPS for write buffer memory addresses 49H to 4An AQH to AAn they are registered automatically 2 The registration result is reflected on the projected slave list LPS for read buffer memory addresses 19H to 1An 79H to 7An Configuration Registration App 6 App 6 APPENDIX MELSEC Q MEMO App 7 App 7 INDEX A Activation phase cecceceeeseeereeeeeeeeees 4 7 l Actual configuration 3 32 V O refresh time asassseesseseesresrererererrsensenernens 3 1 Actual parameter cecceececeeceseeeeeteeeneeenes 3 32 WO Signal liSt ce eeeseeeeeeeeeeeeeteeeeeeeeeeenreees 3 4 Analog input data eceeeeeeeneeeeeeeeeneeees 5 37 Input transmission delay cceeeeeeeeeereee 6 2 Analog output data sssaaa 5 38 Analog slave ecceceeeeceeceeeeeteeteeeeterteseeeeateees 1 2 L Applicable CPU module c eeeee 2 1 CAS a a ai A 10 3 19 Applicable systems ccescesceeeeeeetees 2 1 VDS E E ETN A 10 3 19 AS i er 0 ee 1 1
49. 14 to 17Fx in the command buffer lt request gt buffer memory addresses 55x to 56x 6 4 Turn Y12 ON command request 5 Turn Y12 OFF after making sure that X12 command completion has turned ON 6 Check the result of the command buffer lt result gt buffer memory address 25n Repeat the steps 3 to 6 by the number of times equivalent to the address of slaves to be set OFF to select the protected operation mode lt Select the protected operation mode gt Turn Y17 protected operation mode from OFF to ON to lt Save the configuration data onto the EEPROM gt Turn Y1C EEPROM write from OFF to ON to OFF 7 to save the configuration data onto the EEPROM 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 5 1 Slave registration The configuration data of the slaves must be registered to the QJ71AS92 before it is operated in the protected operation mode Slave registration to the QJ71AS92 can be performed by the switch operation in the following 1 and 2 However the data registered to the QJ71AS92 are lost when the programmable controller is powered on or the CPU module is reset To store the registered data perform operation up to 3 The data are written to the EEPROM of the QJ71AS92 re 1 Put the QJ71AS92 in the configuration mode and assign AM Clerc ena addresses to the slaves ERR ICIS ERR If the CM LED is off press the MODE switch until the CM LED is lit
50. 1514131211109 8 765 43 210 Xu v J Va I y IN v J Bits 0 to 3 Input points of slave address 1A unit bit Bits 4 to 7 Output points of slave address 1A unit bit Bits 8 to 11 Analog input points of slave address 1A unit word Bits 12 to 15 Analog output points of slave address 1A unit word PECIFICATION eS A ae MELSEC Q 21 Extended Command Buffer lt Result gt Buffer memory address 300H to 36DH Un G768 to Un G877 The result of executing any of the following commands with the command buffer lt request gt buffer memory address 55x is stored e Slave ID read command command 301 i e Slave diagnostic information read command command 303 e Slave parameter read command command 305n a 1 Refer to Section 3 5 1 for command details Buffer memory address 300H 768 Extended Command Buffer lt Result data word 0 gt 301H 769 Extended Command Buffer lt Result data word 1 gt 36CH 876 Extended Command Buffer lt Result data word 108 gt 36DH 877 Extended Command Buffer lt Result data word 109 gt 22 Extended Command Buffer lt Request Data gt Buffer memory address 400H to 46DH Un G1024 to Un G1133 Used when the following command is executed with the command buffer lt request gt buffer memory address 55x e Slave parameter write command command 3074 41 Refer to Section 3 5 1 for command details Buffer memory address 400 1024 Extended Command Buff
51. 4 6 LED AS i cycle tM eeceeeeeeeeeeeeeeeteeeteeeeeeeeeeeenes 6 1 CM LE Dirar a A aa 4 3 AS i power supply ssssssssssnsseessressreereeeee 1 1 4 6 GODE LED rrinin e ia 4 2 Automatic refresh ccceeeeeees 3 2 5 3 5 12 ERR PED ninie ednaicied 8 2 Automatic slave address assignment LED CHECK oirir ia AAA 8 2 TUNCHON eps EEE E O E EET 1 2 3 3 CED displayi foii iaer aaa 4 3 RUN LED enina 8 2 B WAS LED tiina a a 8 2 Buffer memory list ccccceeeceeeseeeeeetees 3 12 LIP R EA etnies nena ATAS A 9 3 25 UPS ainmne attic A 9 3 20 3 23 C Checking items at error occurrence 8 1 M Command buffer Max number of I O points eeeeee 3 1 Command buffer lt request gt 3 24 3 29 Command buffer lt result gt 0 3 24 3 33 N Communication speed ceeeeeeeees 3 1 Normal operation ccccceeeeeeeeeeeeteteeees 4 7 Configuration Mode cceceeeeeeeeeeeneeenteees 4 7 Connection method 5 iaie28sealintie isles 2 5 O Current error code cceeceeeeeeeteteeteeeeees 3 25 Off line phase eeeeceeeceeeeeeeeeteeeeeeeeeneeetees 4 7 Output transmission delay 6 2 D Detection phase ecceceeeeeeeeeeeeeeeetees 4 7 P Differences between QJ71AS92 and A1SJ71AS92 Parameter setting function 3 3 n leeatceneavataraceeatetacsayen E RT App 4 Performance specification ccceee On 1 Peripheral f
52. 54 Slave Address 6A Slave Address 7A Slave Address 84 Slave Address 9A Slave Address 104 Flash ROM setting Details Current value display Monitoring Cannot execute test Make text file Stop monitor Refer to Section 3 4 2 8 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 9 B slaves List of slaves that differ from settings Purpose The result of EXCLUSIVE ORing the result of ORing the B slaves detected slave list LDS and projected slave list LPS and the active slave list LAS is stored The result of detected slave list LDS projected slave list LPS active slave list LAS is displayed Operating procedure Monitor Test screen B slaves Slave List Setting screen B slaves List of slaves that differ from settings Module information Module type AS i Master Module Start 1 0 No 0000 Module modelname QUJ71A592 Setting item Current value Setting value Slave Address 1B Different Slave Address 2B Different Slave Address 3B Identical Slave Address 4B Identical Slave Address 5B Identical Slave Address 6B Identical Slave Address 7B Identical Slave Address 8B Identical Slave Address 9B Identical Slave Address 108 Identical Slave Address 11B Identical M Flash ROM setting Details Current value Monitoring display Cannot execute test Make text file Stop monitor
53. 7 1 7 2 8 4 Jan 2008 SH NA 080291E F Correction SAFETY PRECAUTIONS Generic Terms and Abbreviations Section 2 1 2 2 2 4 3 3 1 3 4 2 4 2 4 3 1 Chapter 5 Section 7 1 1 7 2 1 Appendix 1 Index May 2008 SH NA 080291E G Change of a term PLC was changed to programmable controller Correction SAFETY PRECAUTIONS Compliance with the EMC and Low Voltage Directives Generic Terms and Abbreviations Section 2 1 2 2 4 3 1 4 5 1 to 4 5 3 5 2 1 5 3 3 5 4 5 5 8 1 Japanese Manual Version SH 080276 G 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 2002 MITSUBISHI ELECTRIC CORPORATION INTRODUCTION Thank you for purchasing the MELSEC Q Series programmable controller Before using the equipment please read this manual carefully to develop full familiarity with the functions and performance of the Q Series programmable controller you have purchased so as to ensure correct use CONTENTS SAFE PREGAWIIONS a a stv bela ta hte tveeeait te aie e a a ett En A 1 REVISIONS oie sccctete cd eeoa bak aaa alk Steel aa a aed 2 a atta a Ak aah bleed dak a gid lead e A 4 INTRODUCTIONS a ce cesta te
54. 771084 Notused oo o o F Writing enabled 5AntoBFn 90t0191 Notused S S iki emoce 199t0207 Notused OOOO S S daha laa DantoDFH 21210223 Notus ooo o o Reading enabled 2004 to 21Fu 51210543 B siaves Number of VO Points do y O 22010 2FFa 54410767 Nouse OOOO S S enose w2 ouse ooo oo meenomen o T o o Writing enabled 3 SPECIFICATIONS MELSEC Q 3 4 2 Details of Buffer Memory This section describes the details of each item in the buffer memory shown in Table 3 4 of section 3 4 1 1 Input data from slave address 1A to 3A and some EC flags Buffer memory address OH Un GO The input data from the AS i Ver 2 11 compatible Group A and AS i Ver 2 04 compatible I O slaves and part of the EC flag of the QU71AS92 are stored Example Buffer memory address Un GO Bit 1514131211109 8 7 6 5 43 210 Xu IN IN J a Vv Vv Vv L Bit 0 Configuration Error 0 No configuration error 1 Configuration error occurs Bit 1 AS i Power Fail APF 0 AS i Power On APO 1 AS i Power Fail APF Bit 2 Normal Operation Active 0 Normal operation 1 Not normal operation Bit 3 Configuration Mode Active 0 Not configuration mode 1 Configuration mode Bit 4 to 7 Input data from slave address 1A Bit 8 to 11 Input data from slave address 2A Bit 12 to 15 Input data from slave address 3A 0 OFF 1 ON Bit 0 Configuration Error Bit O checks for a configuration
55. 9 MITSUBISHI ELECTRIC Mitsubishi Programmable Controller MELSEG Led cries AS i Master Module User s Manual QJ71AS92 GX Configurator AS SW1D5C QASU E e SAFETY PRECAUTIONS e Always read these instructions before using this equipment Before using this product please read this manual and the relevant manuals introduced in this manual carefully and pay full attention to safety to handle the product correctly The instructions given in this manual are concerned with this product only For the safety instructions of the programmable controller system please read the user s manual for the CPU module to use In this manual the safety precautions are ranked as DANGER and CAUTION N Indicates that incorrect handling may cause hazardous conditions O DANGER resulting in death or severe injury a CAUTION Indicates that incorrect handling may cause hazardous conditions resulting in medium or slight personal injury or physical damage Note that the CAUTION level may lead to a serious consequence according to the circumstances Always follow the instructions of both levels because they are important to personal safety Please store this manual in a safe place and make it accessible when required Always forward it to the end user DESIGN PRECAUTIONS lt DANGER e If a communication error occurs in the AS i system the input will turn OFF from the slave having the communication error Output to the slave ha
56. A Q ON b 15 14 13 12 13 12 11 10 eer When sy 1114 0 1 13 ON e 0 is stored as the input from a non connected slave PECIFICATION eS eA ae MELSEC Q 4 EC flag Buffer memory address 10H Un G16 Example Buffer memory address Un GO Bit 1514131211109 876543210 L Bit 0 Configuration Error 0 No configuration error 1 Configuration error occurs Bit 1 LDS_0 Detection of slave addres 0 0 Slave of address 0 is not in list of detected slaves 1 Slave of address 0 is in list of detected slaves Bit 2 Automatic Address Assignment Function 0 Automatic address assignment is invalid 1 Automatic address assignment is valid Bit 3 Automatic Address Assignment Available 0 Automatic address assignment cannot be done 1 Automatic address assignment can be done Bit 4 Configuration Mode Active 0 Not configuration mode 1 Configuration moe Bit 5 Normal Operation Active 0 Normal operation 1 Other than normal operation Bit 6 AS i Power Fail APF 0 AS i Power On APO 1 AS i Power Fail APF Bit 7 Off line Phase Active 0 Not off line phase 1 Off line phase Bit 8 Peripheral Faults 0 No Peripheral Fault 1 Peripheral Fault occurs Bit 9 to 15 Use prohibited a Bit 0 Configuration Error Refer to Section 3 4 2 1 a b Bit 1 LDS_0 Detection of slave address 0 Bit 1 checks whether the AS i system has a slave of slave address 0 or not Bit 1 t
57. A and part of EC Flag ee 6 A slaves Input Data From Slave Address 24A 27A A slaves Input Data From Slave Address 28A 31A 8n 8__ B slaves Input Data From Slave Address 1B 3B 9 B slaves Input Data From Slave Address 48 7B Ba 1 Bslaves Input Data From Slave Address 12B 15B En 14 Bslaves Input Data From Slave Address 24B 27B Reading enabled A slaves Error Slave List The slaves other than the AS i Ver 2 11 compatible I O slaves assigned to group B use the buffer memory addresses of group A PECIFICATION eS AC ah MELSEC Q Readiwrite from Details ERU A slaves Output Data To Slave Address 1A 3A A slaves Output Data To Slave Address 4A 7A A slaves Output Data To Slave Address 8A 11A s Output Data To Slave Address 12A 15A 33H 51 A slaves Output Data To Slave Address 16A 19A A slaves Output Data To Slave Address 20A 23A 361 54 Aslaves Output Data To Slave Address 24A 27A A slaves Output Data To Slave Address 28A 31A D Writing enabled 38 56 B slaves Output Data To Slave Address 1B 3B B slaves Output Data To Slave Address 4B 7B B slaves Output Data To Slave Address 8B 11B B slaves Output Data To Slave Address 12B 15B acu 60 seves Output Data To Slave Address 168 108 B slaves Output Data To Slave Address 24B 27B 40nto48n 64to72 Notused o o o 4Bu to 4CH 75 to 76 B slaves List of Projected Slaves LPS For Write 4Dnto54n
58. Address 3B Slave Address 4B Slave Address 5B Slave Address 6B Slave Address 7B Slave Address 8B Slave Address 9B Slave Address 108 Slave Address 11B Flash ROM setting Details Current value Monitoring L Make text file Cannot execute test Stop monitor Refer to Section 3 4 2 9 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 12 A slaves List of Peripheral Faults LPF Purpose Used to monitor the peripheral fault occurrence status of each A slaves slave Operating procedure Monitor Test screen A slaves LPF Setting screen A slaves List of Peripheral Faults LPF Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QU71AS92 Current value Setting value No Peripheral Fault No Peripheral Fault Setting item Slave Address 14 Slave Address 2A Slave Address 34 Slave Address 44 Slave Address 54 No Peripheral Fault No Peripheral Fault No Peripheral Fault Slave Address 64 No Peripheral Fault Slave Address 7A Slave Address 8A Slave Address 9A No Peripheral Fault No Peripheral Fault No Peripheral Fault Slave Address 104 Slave Address 114 No Peripheral Fault No Peripheral Fault Flash ROM setting Details Monitoring Current value Cannot execute test Make text file Stop monitor Refe
59. E quel haetas eaves eae 5 2 2 2 Operating enNVironMEeNnie esorare RA E AT E RA 5 4 5 3 Utility Package Operation neeaae a R A A A 5 6 5 3 1 Common utility package operations ee eeeeeeeeeeeceeeeeeeeeeeeeeseeeseeeeeeseeeseeeseeeseeeseeeseeeseneseaeseateaeeeaes 5 6 5 3 2 Operation OVerview srpen a a a a be het al aad aaea aa a a e aaae 5 9 5 3 3 Starting the Intelligent function module utility 2 ee eee ee eee eeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeesaeeeaeeeeeeaeesas 5 10 9 4 Auto refresh Seuing 2 40 0k dehiscent 5 12 TO MMO TOS Es Fac saa AS ne oo Se a tees A ec cute ea bec parent case caesus bade AES OS AAN 5 14 5 5 1 X7 Montoritestic lite hiinieds hee han dwn haan dade ann 5 18 5 5 2 A slaves List of Detected Slaves LDS ceceeceeceseeeeeeeteeeneeeeeeeeeeeeeeeeeeesaeeeaeeseeeaeeseeerenaeeas 5 19 5 5 3 B slaves List of Detected Slaves LDS ceceeceeceeeeeeeeeeeeeeeeeeeeeeeeaeeeaeesaeesaeeeaeesaeesaeeeeeeeenaeesas 5 20 5 5 4 A slaves List of Active Slaves LAS ccceccecceeceeeeneeeneeeneeeeeeaeeeaeeeaeseaeeeaeeeaeeeaeeeaeeeaeeereeeeaeesas 5 21 5 5 5 B slaves List of Active Slaves LAS ccecceceeeseeeeeeseneeeeeeeeeeeseaeeeaeseaeeeaeeeaeeeaeeeaeeeaeeeeeeeeaeesas 5 22 5 5 6 A slaves List of Projected Slaves LPS For Read eecceeceesceeeeeeeeeeeeeeeeeeeeeeeeeeeaeeeeeeieeeeeeas 5 23 5 5 7 B slaves List of Projected Slaves LPS For Read eecceeceeeceeeeeeeeeeeeeareeeeeeneeeae
60. EE 4 3 A 5 A 5 4 3 Mounting and Installation 2 0 eeceecececeeeeeseeeeeeeeeeeseeeseeseeeceeceeeseeseesaeseeseeeseeeseeeseeeseeeseeeseaeseeeseaeeeaeeaes 4 4 4 3 1 Precautions for Handling cicai ccevsccenciedetasceesctuaatecetssceesctuaciedadascyescduaauedatescvenadaciedadascyesaduaayecedeaceeactes 4 4 4 3 2 Installation Environment ee a a K A KE E EA AA AEAN 4 4 4 4 Connection to AS System ic iain alin ai i a aa iia iaaa 4 5 4 4 1 Precautions for Winia aa a a aR a a a a aa EATS aa EAT S a R 4 5 FAL WIRING ece tiie tratare nti A R TE R a E a ea 4 6 ota i ACU 0 ee rReeeerRree pect Cpecre reer eee aa a aa eect a aa a rere 4 7 4 Del SlAVE regist atO traan anae ean dene eh AA ANEN AA Aa Wakes EENE RER EAE AT RN EENAA aAA 4 10 4 5 2 Slave address ASSIQMIMON eere lethal ee ceee ted Lacie hd coveted ated he ceue ted Lacie dd ceva tecdatael daceetetlagiel cack 4 12 4 5 3 Slave address erasure ccecceeeceecceecceecceeeceeecteaceecensacescensacesaceseseecesaceeaceaseseeteaseeeetateeeeeeeseeeeeeanees 4 13 4 5 4 Automatic slave address assignment function 0 0 eceeceeeceeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeesaeeeaeeeaeeeateeaeens 4 14 5 UTILITY PACKAGE GX Configurator AS 5 1 to 5 43 5 1 Functions of the Utility PACKaQe rerun aAA EEA RERA 5 1 5 2 Installing and Uninstalling the Utility Package o oo eee eee ene eene eee eeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeesaeeeaeeeateaeeeaeenas 5 2 DAA Handling precatione aaiae E aA A EAR E EE NAE A ARNA
61. Error X4 checks for a configuration error A configuration error occurs if the projected slave list LPS and detected slave list LDS are different in the configuration contents On detection of a configuration error in the AS i system the QJ71AS92 turns ON the corresponding bit of the slave list addresses 1DH to 20H that differs from the buffer memory settings and turns X4 ON X4 automatically turns OFF when the configuration error is all resolved When X4 is ON check whether the projected slave list LPS is the same as the detected slave list LDS for example OFF No configuration error ON Configuration error detected No configuration Configuration error occurred No configuration error During slave disconnection error EE A E EAE E Restoration from gt configuration error Slave list that differs from settings 1D to 20x Configuration error 4 it of corresponding slave number turns ON ON x4 OFF Input data of ON normally ON input 1 OFF 1 Shows the timing with the input data when the normally ON input slave is disconnected 5 X5 AS i Power Fail X5 checks the AS i power supply status The QJ71AS92 turns X5 ON when the voltage supplied by the AS i power supply is insufficient It turns OFF automatically when the supplied voltage is restored When X5 is ON check the rated current value of the AS i power supply the wiring and the overall distance of the syst
62. FF EEPROM write status C6 0 0 Write completion 2 Normal completion 3 Abnormal completion Not yet executed During write Not yet executed 1 The address of writes to the EEPROM is 100 000 times If the address of writes exceeds 100 000 times the error code F70H is written to the QJ71AS92 buffer memory address COn This means that the hardware is faulty Please consult your local Mitsubishi serves center or representative explaining a detailed description of the problem 2 If write to EEPROM is executed 1000 or more times during continuous operation of the CPU module the error code F74H is written to the QJ71AS92 buffer memory address COH If F 74H is written examine the sequence program again make sure that write processing has not been performed many times and restart the CPU module 3 The configuration data written to the EEPROM are the operation mode protected slave list LPS permanent configuration and permanent parameters 13 Y1D Refresh instruction Y1D determines whether the contents of the data output to slaves in buffer memory are valid OFF Not output to slaves ON Output to slaves PECIFICATION ee MELSEC Q 3 4 Buffer Memory 3 4 1 Buffer Memory List Table 3 4 lists the QJ71AS92 buffer memories Table 3 4 Buffer memory list Address Read write from Details Hexadecimal Decimal CPU module 0 __ A slaves Input Data From Slave Address 1A 3
63. GX Configurator AS MELSEC Q 5 5 17 B slaves Input Data of Slave Addr From 1B 31B Purpose Used to monitor the input data from each B slaves slave Operating procedure Monitor Test screen B slaves Slave Addr 1 31 Setting screen B slaves Input Data of Slave Addr From 1B 31B Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71AS92 Setting item Current value Setting value Input Data from Slave Address 1B Input Data from Slave Address 2B Input Data from Slave Address 3B Input Data from Slave Address 4B Input Data from Slave Address 58 Input Data from Slave Address 6B Input Data from Slave Address 7B Input Data from Slave Address 8B Input Data from Slave Address 98 Input Data from Slave Address 108 Input Data from Slave Address 11B Flash ROM setting Details Current value Monitoring display Cannot execute test L Make text file Stop monitor Refer to Section 3 4 2 3 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 18 A slaves Output Data of Slave Addr From 1A 31A Purpose Used to monitor the output data to each A slaves slave Operating procedure Monitor Test screen A slaves Slave Addr 1 31 Setting screen A slaves Output Data of Slave Addr From 1A 31A Module information Module type AS i Master Module Start 1 0 No 0000 Module mode
64. IN sO Ie MELSEC Q 2 H W LED Information Right side ON OFF status of Shows the first 4 bits of the value second digit of converted into ASCII character CODE LED code Shows the last 4 bits of the value converted into ASCII character code ON OFF status of first Shows the first 4 bits of the value digit of CODE LED converted into ASCII character code Shows the last 4 bits of the value converted into ASCII character code Display Example When 40 appears on the CODE LED Second digit 4 34H ASCII character code 0011 0100 bit indication First digit 0 30H ASCII character code 0011 0000 bit indication They are displayed as follows CODE b15 to b0 40 34H 30H 0011 0100 0011 0000 3 H MW SW Information Left side MODE Position of MODE switch Position of SET switch App APPENDIX APPENDIX Appendix 1 External Dimensions App 1 MELSEC Q a ae aes 4 AS92 3 4 Y r 90 a 12 3 54 0 47 Unit mm in App 1 APPENDIX MELSEC Q Appendix 2 AS i Protocol Implementation Conformance Statement PICS List of implemented functions 1 image Staus Read ioo oo e eM O 2 3 Staus Set Permanent ParameterS_Adar S_Param x cmp 4 S Param Status Get Permanent Paramete S Adar x tM 5 Status RS Param Write Parameter S Addr S Param x LM 6 Status S_Param
65. LITY PACKAGE GX Configurator AS MELSEC Q 5 2 Installing and Uninstalling the Utility Package For how to install or uninstall the utility package refer to Method of installing the MELSOFT Series included in the utility package 5 2 1 Handling precautions The following explains the precautions on using the GX Configurator AS 1 For safety Since GX Configurator AS is add in software for GX Developer read Safety Precautions and the basic operating procedures in the GX Developer Operating Manual 2 About installation The GX Configurator AS is an add in software for GX Developer Version 4 or later Therefore GX Configurator AS must be installed on the personal computer that has already GX Developer Version 4 or later installed Screen error of Intelligent function module utility Insufficient system resource may cause the screen to be displayed inappropriately while using the Intelligent function module utility If this occurs close the Intelligent function module utility GX Developer program comments etc and other applications and then start GX Developer and Intelligent function module utility again To start the Intelligent function module utility a In GX Developer select QCPU Q mode for PLC series and specify a project If any PLC series other than QCPU Q mode is selected or if no project is specified the Intelligent function module utility will not start b Multiple Intelligent functi
66. LPS Purpose Used to make the following setting when performing configuration registration and Storage onto EEPROM e A slaves List of Projected Slaves LPS For Write e B slaves List of Projected Slaves LPS For Write Operating procedure Monitor Test screen A slaves LPS For Write B slaves LPS For Write Setting screen A slaves List of Projected Slaves LPS For Write B B slaves List of Projected Slaves LPS For Write Module information Module information Module type AS i Master Module Start 1 0 No 0000 Module type AS i Master Module Start 1 0 No 0000 Module model name QJ714592 Module model name QU71AS92 Setting item Curent value Setting value Setting item Current value Setting value Slave Address 1A Not registered in LPS Not registered in LPS Slave Address 18 Not registered in LPS Not registered in LPS Slave Address 2A Not registered in LPS Not registered in LPS Slave Address 2B Not registered in LPS Not registered in LPS Slave Address 34 Not registered in LPS Not registered in LPS Slave Address 38 Not registered in LPS Not registered in LPS Slave Address 44 Not registered in LPS Not registered in LPS Slave Address 48 Not registered in LPS Not registered in LPS Slave Address 5A Not registered in LPS Not registered in LPS Slave Address 58 Not registered in LPS Not registered in LPS Slave Address BA Not registered in LPS Not registered in LPS Slave Address 6B Not registered in LPS Not registered i
67. Main Base OSlot Module Information Module access Possible 120 Clear Hold Settings Status of External Power Supply Noise Filter Setting Fuse Status Input Type Status of 1 0 Address Verify Agree Remote password setting status Error Display Display format No Eror Code Fi tE 0040 resent Error GHEX ppa Error History The display sequence of the error history is from the oldest error The latest error is displayed in the line as under H W Information i TROUBLESHOOTIN 8 OU SHOOTING MELSEC Q b Product information Function version is displayed as follows 051020000000000 B Function version B H W Information Module Display format Module Name QJ714S92 Product information 051020000000000 B HAW LED Information HAW S W Information Value ODE b15 ODE b14 ODE b13 0001 ODE b12 ODE b1l1 ODE b10 0001 ODE b9 ODE b8 ODE b CODE b6 ODE b5 ODE b4 ODE b3 0000 ODE b2 ODE b1 naja a a f 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 i c 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 l 1 2 3 1 HM LED Information Left side The followings are displayed as H W LED information ON OFF status of RUN LED ON OFF status of U ASI LED lcm _ ON OFF status of CM LED ON OFF status of ERR LED ON OFF status of S ERR LED ON OFF status of A LED ON OFF status of B LED TROUBLESHOOT
68. RATION MELSEC Q When the programmable controller is powered on or the CPU module is reset next time communication is performed using the data stored on the EEPROM Since the data were stored onto the EEPROM in the protected operation mode in the above procedure the QJ71AS92 will start in the protected operation mode at the next startup When data were stored onto the EEPROM in the configuration mode the QJ71AS92 will start in the configuration mode at the next startup Normally store the data onto the EEPROM in the protected operation mode Related item Section 4 5 2 The number of writes to the EEPROM is 100 000 times If the number of writes exceeds 100 000 times F70H is written to the error code of the QJ71AS92 buffer memory F70nH indicates a hardware fault Please consult your local Mitsubishi service center or representative explaining a detailed description of the problem 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 5 2 Slave address assignment This section describes how to assign any slave address to the slave of slave address 0 by using the switches on the front of the QJU71AS92 panel Following is the example when the slaves of slave No 1 and 2 have been registered 1 Put the QJ71AS92 in the configuration mode by reference to Section 4 5 1 1 2 The QJ71AS92 displays all the slave addresses of the recognised slaves in order on the CODE LED 0 is displayed if the slave of slave address 0
69. Slave Addr 1B Analog Output Points Slave Addr 2B 1 0 Input Points Slave Addr 2B 1 0 Output Points Slave Addr 2B Analog Input Points Slave Addr 2B Analog Output Points Slave Addr 3B 1 0 Input Points Slave Addr 3B 1 0 Output Points Slave Addr 3B Analog Input Points Flash ROM setting Current value Make text file Stop monitor Details Cannot execute test Monitoring Refer to Section 3 4 2 20 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 16 A slaves Input Data of Slave Addr From 1A 31A Purpose Used to monitor the input data from each A slaves slave Operating procedure Monitor Test screen A slaves Slave Addr 1 31 Setting screen A slaves Input Data of Slave Addr From 1A 31A Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71A592 Setting item Current value Setting value Input Data from Slave Address 14 Input Data from Slave Address 24 Input Data from Slave Address 7A Input Data from Slave Address 84 Input Data from Slave Address 94 Input Data from Slave Address 104 Input Data from Slave Address 114 Flash ROM setting Details Current value Monitoring display Cannot execute test Make text file Stop monitor Refer to Section 3 4 2 1 2 for details of the setting items 5 UTILITY PACKAGE
70. ame slave address is already used all the slaves of that slave address cannot be recognized Change the slave address into an unused slave address e Check that the AS i power supply located behind the repeater has not failed Refer to the AS i power supply manual for the checking method Replace the AS i power supply if it has failed e Check that the repeater has not failed See the repeater manual for the checking method Change the repeater if it has failed If there are two slaves that have the same I O and ID codes and the same slave address both slaves will operate with the same slave address or both will become faulty TROUBLESHOOTIN A MELSEC Q 8 3 Error Code List When an error is detected the QJ71AS92 turns the ERR LED on and displays the status on the CODE LED with any of the following numbers At error occurrence the error code is also stored into Error Code Error History buffer memory addresses COH to C5H Un G192 to Un G197 of the buffer memory Detail CODE LED A configuration error has not occurred o 40n SC The QU71AS92 is in the offline phase The QJ71AS92 is in the detection phase ta The QJ71AS92 is in the activation phase 0 to aii xl A configuration data mismatch occurs in the configuration mode A00u to A1Fu ALED ON Communication with the slave of the corresponding slave address in group A cannot be performed in the protected operation mode 0to31 B00H to B1Fn to
71. are output to the analog output data to the slave address 2 b The analog input data from the slave address 1 is stored into D200 and D201 of the CPU module If a configuration error occurs I O control is executed for the slaves that are ready for communication 7 PROGRAMMING MELSEC Q 7 2 1 Program example when utility package is used 1 Operation of utility package Auto refresh setting Module information Module type AS i Master Module Module model name QU71AS92 a Auto refresh setting Refer to Section 5 4 Set the A slaves active slave list the number of A slaves I O channels the analog input data and the analog output data Start 1 0 No Setting item Current Error Code Error Code History 1 5 Module side Transfer word count Module side Butfer size Module side Buffer offset Transfer direction PLC side 2 Device Aslaves List of Detected Slaves LDS B slaves List of Detected Slaves LDS A slaves List of Active Slaves LAS B slaves List of Active Slaves LAS gt gt gt zi gt gt A slaves List of Projected Slaves LPS For Read B slaves List of Projected Slaves LPS For Read A slaves List of slaves that differ from settings B slaves List of slaves that differ from settings Make text file Auto refresh setting Module information Module type AS i Master Module Module modelname QU71AS92
72. ault cccccecceeeeeeeeseeeeeteeeeeees 3 25 E Peripheral fault slave list cseeeeee 3 25 EC flag escent A 9 3 17 Permanent configuration a se 3 32 EEPROM storage 5 41 Permanent parameter cceceeeeeeeneeees 3 32 Error Code list 2 eeseeceeereeeeeeereeereeeeeeee 8 3 Programming nasen a a 7 1 External dimensions cccceeees App 1 Protected operation mode ssseeseeeeseeeee 4 7 External supply powe c cceeceeeeeees 3 1 S F Screw tightening torque s seseeeeeeeeeeeeeeeeen 4 4 FUNGCUON AEE EEE EEEE EATE TET 3 2 Serial NO cc cceccceeeceeeeeeeeeeseseeeeeeeeeneeesnees 2 3 Function version 2 cccccceesceeeeteeeeeeeteteeeeees 2 3 Supported software packages 2 2 Stam UDa ea ea a aia a aa a a a a 4 7 Index 1 Index 1 T Transmission delay time ceeeeee 6 1 Ind Transmission distance cceeeeeeeeeeeeeeee 3 1 Troubleshooting 8 1 U Utility package 00 ee cece eeeeteeeteeeeees 1 2 5 1 w MNO E E asl ee E 4 6 Index 2 Index 2 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
73. cause damage to the module or screws module falling short or misoperation e When mounting or removing a module always be sure to externally switch off all the phases of the programmable controller power supply and AS i power supply in advance Failure to observe this could result in module failure or misoperation e Do not mount remove the module to from the base unit more than 50 times after the first use of the product IEC 61131 2 compliant Failure to do so may cause malfunction e Always make sure to touch the grounded metal to discharge the electricity charged in the body etc before touching the module Failure to do so may cause a failure or malfunctions of the module DISPOSAL PRECAUTIONS A CAUTION e When disposing of this product treat it as industrial waste REVISIONS x The manual number is given on the bottom left of the back cover Print Date _ Manual Number Apr 2002 SH NA 080291E A First edition Feb 2003 SH NA 080291E B Correction aie e SAFETY PRECAUTIONS Section 5 2 2 5 4 May 2003 SH NA 080291E C Correction eee Jun 2004 SH NA 080291E D Correction ea Section 2 2 3 3 2 3 4 2 4 4 1 5 3 2 5 5 5 6 5 7 7 1 1 7 1 2 Jan 2006 SH NA 080291E E Correction SAFETY PRECAUTIONS Compliance with the EMC and Low Voltage Directives Product Structure Chapter 1 Section 2 1 2 2 3 1 3 2 3 3 3 4 3 5 1 4 3 1 Chapter 5 screen change Section 5 2 2
74. ct The function information of the product is updated when a new function is added 2 Checking the software version of GX Configurator AS The software version of GX Configurator AS can be checked in GX Developer s Product information screen Operating procedure GX Developer gt Help gt Product information Product information Programming and Maintenance tool p GX Developer Version 8 12N S W8D5C GPPW E COPYRIGHT C 2002 MITSUBISHI ELECTRIC CORPORATION ALL RIGHTS RESERVED This Product is licensed to Name MITSUBISHI Company MITSUBISHI ELECTRIC CORPORATION ProductID List of version information on Add in software GX ConfiguratorAS Version1 17T SW1D5C QASU E Software version COPYRIGHT C 2002 MITSUBISHI ELECTRIC CORPORATION ALL RIGHTS RESERVED Warming This product is protected by copyright law and international treaties Unauthorized reproduction or distribution of this program or any portion of it may result in severe civil and criminal penalties and will be prosecuted to the maximum extension possible under the law In the case of GX Developer Version 8 2 SYSTEM CONFIGURATION SYS CONFIGU O MELSEC Q 2 3 AS i System Connection Methods The following methods can be used to connect the AS i system 1 The star method line method tree method or ring method can be used to connect the AS i system 2 The AS i system does not require a terminator The overall distance is 100m whe
75. dule It will cause fire failure or malfunction e A label is installed at the upper part of a module to prevent the entry of foreign matters Do not remove the label during wiring However be sure to remove it for heat dissipation during system operation WIRING PRECAUTIONS A CAUTION e To connect the AS i cable to the module the cable must be securely fixed Please be sure to run it in a duct or clamp it Failure to observe this could cause the unstable cable connection resulting in damage to the cable or module by carelessly pulling the cable or the system malfunction due to poor cable connection e When removing the AS i cable from a module do not pull it out by hand Always be sure to unscrew the module mounting screws in advance If the cable is pulled while being connected to the module it could cause damage to the cable or module or the system malfunction due to poor cable connection STARTING AND MAINTENANCE PRECAUTIONS A CAUTION e Do not touch terminals while the power is ON This could cause misoperations e Do not disassemble or modify any module This could cause failure misoperation injuries or fire e When cleaning a module or retightening terminal screws always be sure to externally switch off all the phases of the programmable controller power supply and AS i power supply in advance Failure to observe this could result in module failure or misoperation Loose or excessive tightening could
76. e Setting value Displays buffer memory names Monitors the present buffer memory values Enter or select values to be written into the buffer memory for test operation 5 14 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 2 Command buttons Current value displa Displays the current value of the item selected This is used to check the text that cannot be displayed in the current value field However in this utility package all items can be displayed in the display fields Make text file Creates a file containing the screen data in text file format Start monitor Selects whether or not to monitor current values Stop monitor Execute test Performs a test on the selected item To select more than one item select them while holding down the key Close Closes the screen that is currently open and returns to the previous screen The following monitor test selection menu is displayed Reference section Section 3 4 2 4 AS i Power Fail Section 3 4 2 17 X Y monitor test Section 5 5 1 A slaves List of Detected Slaves LDS Section 5 5 2 B slaves List of Detected Slaves LDS Section 5 5 3 pte E AS i Power Fail o XY monitortest o O A slaves List of Active Slaves LAS Section 5 5 4 List of Active Slaves LAS Section 5 5 5 List of Projected Slaves LPS For Read Section 5 5 6 List of Projected Slaves LPS For Read Section 5 5 7 List of slaves that differ from settings Section 5
77. e Address 8B 0000 Output Data to Slave Address 98 0000 Output Data to Slave Address 10B 0000 Output Data to Slave Address 11B 0000 Flash ROM setting Details Current value Monitoring display Binary input L le Make text file Setting range 0000 1111 Stop monitor Execute test Refer to Section 3 4 2 12 13 for details of the setting items MELSEC Q 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 20 Analog Input Data Slave Addr 1 31 Purpose Used to monitor the analog input data from channels 1 to 4 of each slave number Operating procedure Monitor Test screen Analog Input Data Setting screen Analog Input Data Slave Addr 1 31 Module information Module type AS i Master Module Start 1 0 No Module model name QJ71AS92 Setting item Current value Analog Input Data from Slave Address 1 CH1 Analog Input Data from Slave Address 1 CH2 Analog Input Data from Slave Address 1 CH3 Analog Input Data from Slave Address 1 CH4 Analog Input Data from Slave Address 2 CH1 Analog Input Data from Slave Address 2 CH2 Analog Input Data from Slave Address 2 CH3 Analog Input Data from Slave Address 2 CH4 Analog Input Data from Slave Address 3 CH1 Analog Input Data from Slave Address 3 CH2 Analog Input Data from Slave Address 3 CH3 Flash ROM setting Details Current value display Monitoring Cannot execute test
78. e that X12 command completion has turned ON 6 Check the result of the command buffer lt result gt buffer memory address 25n 2 See Section 5 6 for the operation of GX Configurator AS 3 See Section 3 5 1 for the values to be set to the command data 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 2 Method of registering the configuration data to the QU71AS92 Before starting operation in the protected operation mode the configuration data of the slave that is ready for communication must be registered to the QJ71AS92 There are two methods of registering the configuration date just as 4 5 1 Method of setting the slave address Register the configuration data by using the switches or by using the command The following chart shows the operation sequence of each method Configuration data registration method Using the switches Using the commands Program or GX Configurator AS 5 ee lt Select the configuration mode gt If the CM LED is not ON press the MODE switch until the CM LED is lit to select the configuration mode lt Method of registering the configuration data gt Press the MODE switch until the CM LED turns off This registers the configuration data and switches to the protected operation mode 4 lt Method of saving the configuration data to the EEPROM gt Until gd appears on the CODE LED press the MODE and
79. ect Open project Save Save as 2 On the intelligent function module selection screen of the utility select Intelligent function module parameter Open parameters Save parameters 3 From GX Developer select Online Read from PLC Write to PLC Intelligent function module parameters Alternatively from the intelligent function module selection screen of the utility select Online Read from PLC Write to PLC 5 UTILITY PACKAGE GX Configurator AS MELSEC Q lt Text file gt a A text file can be created by clicking the button on the Auto refresh setting or Monitor Test screen The text files can be utilized to create user documents b Text files can be saved in any directory GX Developer GX Configurator AS Personal computer QCPU Q25HCPU A Intelligent function module parameters B Data saved by Make text file RS 232 Figure 5 1 Correlation chart for data created with the utility package 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 3 2 Operation overview GX Developer screen LD Edit mode MAIN 35 Step EAS Window Help Check program Merge data Check parameter Transfer ROM gt Delete unused comments Clear all parameters IC memory card K Start ladder logic test Set TEL data gt Intelligent Function utility gt Utility list Customize keys Change display color
80. ection 3 4 2 14 for details of the setting items TRANSMISSION DELAY TIME oe MELSEC Q 6 TRANSMISSION DELAY TIME This chapter describes the transmission delay times of the QJ71AS92 6 1 AS i cycle time 1 AS i Ver 2 04 compatible I O slaves AS i cycle time 171us x number of communicating slaves 2 2 AS i Ver 2 11 compatible I O slaves a Cycle time for the slaves that use the same address in group A and B AS i cycle time 171us x number of communicating slaves 2 x 2 b Cycle time for the slaves that use different addresses in group A and B is the same as described in 1 3 Analog slaves AS i cycle time 171s x number of communicating slaves 2 x 7 x number of channels Count the number of communicating slaves as described below AS i Ver 2 04 compatible I O slaves and analog slaves e Count the number of connected slaves AS i Ver 2 11 compatible I O slaves When the slaves in group A and B use the same slave address count the slaves of the same slave address as 1 e When the slaves in group A and B use different slave addresses count the number of connected slaves Example When slaves are connected as shown below AS i Ver 2 04 AS i Ver 2 11 compatible Analog slaves compatible I O slaves I O slaves _ _ 12A Connected slave address g E if i Calculated as in 2
81. ectric shock fire misoperation or damage to deterioration of the product e While pressing the lever on the lower part of the module fully insert the module fixing latch into the hole of the base unit snap the module into place and tighten the module fixing screws with the specified torque Failure to observe this could result in damage to the screws or module module falling short or misoperation e Always shut off all phases of the programmable controller power supply and AS i power supply externally before mounting or removing the module Failure to shut off all phases could lead to product damage e Do not touch conductive parts or electronic components of the module with your bare hands This could cause Misoperation or failure of the module 1 The module case and communication connector are made of resin so take care not to drop or apply strong impacts 2 Tighten the screws such as module fixing screws within the following ranges Tightening torque range Module fixing screw 0 36 to 0 48 N m normally not required M3 screw Communication connector mounting screw 0 40 to 0 50 N m Communication connector wiring mounting screw 0 50 to 0 60 N m 1 The module can be easily fixed onto the base unit using the hook at top of the module However it is recommended to secure the module with the module fixing screw if the module is subject to significant vibration 4 3 2 Installation Environment Refer to the Us
82. eeaeeeeeseeeaeeeas 5 24 5 5 8 A slaves List of slaves that differ from SettinGS ec ceeeeeeeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeeeeeeneatenas 5 25 5 5 9 B slaves List of slaves that differ from SettiNGS ccc eceeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaneaeeeas 5 26 5 5 10 A Slaves Error Slave List ecceccseseceeeneeeeeeeeeeeeseeeseaeseaeeeaeseaeeeaeeeaeeeaeeeaeesaeeeaeeeaeeeaeeeeeeeeeaeesas 5 27 9 9 11 B slaves Error Slave List 20c ncnadahidiatdhadaitd nadie E E E nadia idle 5 28 5 5 12 A slaves List of Peripheral Faults LPF 0 0 ecceeceesceeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeesaeeeaeeeaeesaneaeenas 5 29 5 5 13 B slaves List of Peripheral Faults LPF 0 0 eceeceseeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeeeeeearesneaeeas 5 30 5 5 14 A slaves Number of I O Points ecceeceesceeeeeeneeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeesas 5 31 5 5 15 B slaves Number of I O Points curren aA RI ERA ER 5 32 5 5 16 A slaves Input Data of Slave Addr From 1A 31A ecccecceseeeeeeeeeeeeeneeeeeeeeeeaeeeeeeeeeeeereeeesas 5 33 5 5 17 B slaves Input Data of Slave Addr From 1B 31B cecceeceeeceeeeeeeeeeeeeeneeeeeeeeeaeeeeeseeeaeeeaeeas 5 34 5 5 18 A slaves Output Data of Slave Addr From 1A 314A 0 ceccceeceeeceeeeeeeeeeeeeneeeeeeeeeaeeeaeeseeereeaeeeas 5 35 5 5 19 B slaves Output Data of Slave Addr From 1B 31B cceeceeceeeeeeeeeseeeneeeneeeeeeeeeeesee
83. eeeeaeesas 5 36 5 5 20 Analog Input Data Slave Addr 1 31 oo eceeeeeeeeeeeeeeeneeeeeeeaeeeaeseaeeeaeseaeeeaeeeaeeeaeeeaeeeaeeeeesneaeeeas 5 37 5 5 21 Analog Output Data Slave Addr 1 31 oo ec ececcceeeeeeeeneeeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeesaeeaeesas 5 38 5 6 Command Request Command Result cceccceeecceeeeeeeeeeeceaeeeeaeeseaeeeeaceeseceeseaeeeeaeeseaeeseueeeseneeserenees 5 39 5 7 Configuration Data Registration EEPROM Storage cecceeceeeceeeeeeeeesneeseeeseeeseesieesieesieesieesieetieeeieess 5 41 5 7 1 Setting the Configuration Data LPS ececeeceeeeeeeeeeeeeeeeeeeeeeeeaeeeaeeeaeseaeeeaeeeaeeeaeeeaeesaeeneeeaeesas 5 43 A 6 A 6 6 TRANSMISSION DELAY TIME 6 1 to 6 2 ELASTE TINE aanre teeta ete hie tee cae te eee det te 6 1 6 2 Input Transmission Delay cccecceecceceeeeeeeeeeeeeeeeeseeeeeeeseneeeaeeeaeeeaeseaeeeaeseaeeeaeseaeeeaeseaeesaeeeeseaeeeaeeeeeeteeas 6 2 6 3 Output TranSmission Delay meira EE ie ht eee EEES 6 2 7 PROGRAMMING 7 1to7 8 GAMO SIAC ata ok cite ei ele ee ee nia a ee ot ain a atta 7 1 7 1 1 Program example when utility package iS USCC ee eeceeeeeeeeeeeeeeeeseeeseeeteeeseeeteeeseeeseaeseaeeeneeeaeeats 7 2 7 1 2 Program example used when utility package is NOt USCC eeeeeeceeeeeeeneeeeeeeeeeeeeaeeeaeeeaeeeaeenas 7 4 M2 ANAIOG SAVE ea aa saat teks a a a a ar r eek here eae ee tet tele 7 5 7 2 1 Program example when utility package iS USCC ee eeceeeeeeeeeteeee
84. eeeeeeeseeeseeeseeeeeeeseeeseaeseneteneeeneeats 7 6 7 2 2 Program example when utility package iS NOt USCC ee eeeeeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeenas 7 8 8 TROUBLESHOOTING 8 1 to 8 6 8 1 Checking Items at Error Occurrence ccceecceeeeceeeeeeeeeeeeeesneeccaeeceaeeecaeeeseaeeseaeescaeeecaeeesiaeeseneteaeeseaees 8 1 8 2 Error CHECKING eoan a a r a E E sce dscp uses latg essed sapeagists usagisendsaplsteasiqestaasapeste ssagessadsagavdeddiaessadsegletaceed 8 2 B 2 EEDiCNOCKisetstenetes carats tiuteaieacevete ta eatecs A taceatets es teeaueeets a a a a 8 2 oS Eror Codes List cc ivan idee hing at ae tae hee dart ae i a a ee 8 3 8 4 Checking the QJ71AS92 status using GX Developer system MOMItOM eee eee eeeeeeeeeeeeeeeeeeeeeateees 8 4 APPENDIX App 1 to App 7 Appendix 1 External Dimensions 2 cccccceeeeeeeeeceeeeeeeeeeeeceneeeeaeeeeaeeecaceeseaeeecaeeecaeesseeeseaeesseeeneeteieeess App 1 Appendix 2 AS i Protocol Implementation Conformance Statement PICS ccccceeeseeeteeteeeees App 2 Appendix 3 Differences between QU71AS92 and A1SJS71AS92 00 ecceeeccececeeeee cece eeeeeeeeeeeeeeeteeeteneees App 4 INDEX Index 1 to Index 2 Compliance with the EMC and Low Voltage Directives 1 2 For programmable controller system To configure a system meeting the requirements of the EMC and Low Voltage Directives when incorporating the Mitsubishi programmable controller EMC and
85. eeess 3 2 3 2 2 Automatic refresh function by utility PACKAGE ee eeeeceeeeeeeeeeeeeeeeeeeteeeeeeeseeeseeeseneseeeseaeseneeeneeeneaes 3 2 3 2 3 Automatic slave address assignment function 0 0 eeeeeeeeeeeeeeeeeeeteeeeeeeteeeteneseeeteneseeeseneteneteneteneeaes 3 3 3 2 4 Parameter setting FUNCTION ee eeeeeeeeneteeeeeeeeeeeeneseeeeeaeseaeeeaeeeaeeeaeeeaeeeaeeeaeseaeesaeeeaeeeaeeseeeeeeeeeas 3 3 3 3 1 0 Signals tor CPU Modules acstuhe tiene iat ular iatedian tials alm intadian R 3 4 SENDE tla NE PEET E ie E E T stipe edt a AE A E dasa een tani deere 3 4 3 3 2 Details of VO SIJNAS orsirrotennrii ti RA A A AA A A 3 6 3 4 Butter MENON ripi a r a aa ae ae ae eae eae aes 3 12 3 4 1 Buffer Memory Lists aranrir aea eae ee ia RA ee EAE AeA ae eae 3 12 34 2 Details of Butter Mema y eaea E EEE EEE 3 14 320 GOMMMANG ME E E EEE EEEE EE EEEE AE E AE AE 3 29 3 5 1 Command Buffer lt Request gt List cccecceeeseceeeeeeeeeeeeeceeseneeeeaeeecaeeecaceesaaeeseaeeseaeeseaeessieeeseeessaees 3 29 3 5 2 Command Buffer lt Result gt List cccceeecceeeeeeeeseeeeeeeeeeeeeaeeseaeeseaeeecaaeesaeeseaeeseaeescaeessueeeseaeessaees 3 33 4 1 Outline Procedures for Operation cccescccesceeeeceeeeceeeeneeeeeeeseaeeceaeeeeaneesaneeseaeeseaeeseaeesseneeteneeseaeeseeeess 4 1 AD Part Names sz E E A E E A E EE E E E E eabetdee 4 2 zea a B BA BIT 0 f bY EAE EE EA E EE A A Teer reenter ere veer preter ere veer re ert E E E E E
86. em OFF AS i power supply normal ON AS i power supply abnormal ON x5 i j OFF e a AS i power supply normal AS i power supply abnormal AS i power supply normal AS i power supply S z AS i power supply fault detection S restoration detection For details of the AS i power supply specifications contact the manufacture of the AS i power supply used PECIFICATION eS A ae MELSEC Q 6 X6 Normal Operation Active X6 checks the operation status X6 turns ON when the QJ71AS92 is not in the normal operation status Refer to section 4 5 OFF Normal operation ON Phase other than normal operation 7 XT Configuration Mode Active X7 checks the configuration mode X7 turns ON when the QJ71AS92 is in the configuration mode X7 turns OFF when the QJ71AS92 is in the mode other than configuration mode Refer to section 4 5 OFF Mode other than configuration mode ON Configuration mode Relationships between QJ71AS92 _ Status and X6 X7 on Off line Phase Detection Phase Activation Phase Configuration mode Protected operation mode 8 Y14 Off line Phase Y14 is initialises AS i communication OFF gt ON The QJ71AS92 is set in the off line phase ON gt OFF The QJ71AS92 changes to normal operation from the off line phase ON Y14 OFF ON X6 OFF Oooo gt 4 a ji gt i Normal operation Off line Phase Detection phase Activation phase Normal
87. er lt Request data word 0 gt 4014 1025 Extended Command Buffer lt Request data word 1 gt 46Cu 1132 Extended Command Buffer lt Request data word 108 gt 46Du 1133 Extended Command Buffer lt Request data word 109 gt PECIFICATION ee MELSEC Q 3 5 Command List This section provides the command buffer lt request gt lt result gt 3 5 1 Command Buffer lt Request gt List The command buffer lt request gt lists are indicated below A AS i Ver 2 11 compatible Group A I O slave Analog slave AS i Ver 2 04 compatible I O slave B AS i Ver 2 11 compatible Group B I O slave 1 Off line phase 2 Configuration mode 3 Protected operation mode O poral Disabled command Target siave Slave eon Details refit 01H to 1FH Writes the value of the command buffer lt request data word 0 gt to the paar actual parameter 1 of the slave address n n request code 21H to 3FH Writes the value of the command buffer lt request data word 0 gt to the actual parameter 1 of the slave address n n request code 20h 41H to 5Fu Reads the actual parameter of the slave address n n request code 40n The result is written to the command buffer lt result data word 0 gt 61H to 7FH Reads the actual parameter 1 of the slave address n n request code 60H The result is written to the command buffer lt result data word 0 gt 81H to 9FH Writes the value of the command buffer lt request data word 0
88. er s Manual of the CPU module being used for details on the installation environment 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 4 Connection to AS i System This section describes the precautions to observe when connecting the QJ71AS92 to the AS i system and the wiring methods 4 4 1 Precautions for wiring e Switch off all phases of the programmable controller power supply and AS i power supply outside the programmable controller before starting installing or wiring work If all phases are not switched off electric shock will occur or the product will be damaged e Be sure to install the terminal covers included with the product when turning on the power or operating the product after installation and wiring is completed Failure to install the terminal cover could lead to electric shocks e Always confirm the products terminal layout before wiring to the module Miswiring could lead to fires or faults e Tighten terminal screws within the specified torque Failure to observe this could result in damage to the screws or module short or misoperation e Make sure that no foreign matter such as chips or wire offcuts gets inside the module It will cause fire failure or misoperation e A label is installed at the upper part of a module to prevent the entry of foreign matters Do not remove the label during wiring However be sure to remove it for heat dissipation during system operation e To connect the AS i cable to
89. error A configuration error occurs if the projected slave list LPS for read and detected slave list LDS are different in the configuration contents On detection of a configuration error in the AS i system the QJ71AS92 turns ON the corresponding bit of the slave list addresses 1DH to 20n that differs from the buffer memory settings and turns bit 0 ON Bit 0 automatically turns OFF when the configuration error is all resolved When bit 0 is ON check whether the wiring is proper and the projected slave list LPS for read is the same as the detected slave list LDS for example This bit corresponds to the input signal X4 Bit 1 AS i Power Fail APF Bit 1 checks the AS i power supply status The QJ71AS92 turns bit 1 ON when the voltage supplied by the AS i power supply is insufficient It turns OFF automatically when the supplied voltage is restored When bit 1 is ON check the rated current value of the AS i power supply the wiring and the overall distance of the system This bit corresponds to the input signal X5 3 SPECIFICATIONS MELSEC Q c Bit 2 Normal Operation Active Bit 2 checks the operating status Bit 2 turns OFF when the QJ71AS92 is in the normal operation status after module ready X0 has turned ON This bit corresponds to the input signal X6 d Bit 3 Configuration Mode Active Bit 3 checks the operation mode Bit 3 turns ON when the QJ71AS92 is in the configuration mode Bit 3 turns OFF w
90. error occurs the error codes are stored as indicated below C1H 193 Latest Error Code History C2uH 194 Error Code History 1 C3x 195 Error Code History 2 Shift C4u 196 Error Code History 3 C5 197 Error Code History 4 Refer to Section 8 3 1 for error codes 18 List of Peripheral Faults LPF Buffer memory address DOH to D1 D2H to D3H Un G208 to Un G209 Un G210 to Un G211 Each bit corresponds to the peripheral fault occurrence status of the corresponding slave address 1A to 31A 1B to 31B When the bit is ON it indicates that a peripheral fault has occurred in the slave corresponding to that bit When any of the bits is ON the peripheral fault bit of the EC flag buffer memory address 10H turns ON When the bit is OFF it indicates that a peripheral fault has not occurred in the slave corresponding to that bit The peripheral fault slave list is a function compatible with AS i Ver 2 11 For the peripheral fault detection conditions refer to the manual of the slave used Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Not used 0 fixed PECIFICATION eS A ae MELSEC Q 19 Analog input data Analog output data Buffer memory address EOH to 15FH 160H to 1DFH Un G224 to Un G351 Un G352 to Un G479 Details Address Details Hexadecimal Decimal EO to E3H 224 to 227 _ Invalid 0 fixed 160H to 163H 352 to 355 Invalid 0 fixed
91. ervice transaction permission Specifications subject to change without notice
92. es with AS i slaves function Automatic refresh function by Fj a Automatically refreshes the Q71AS92 s I O data to the CPU module s device memory utility package Automatic slave address When a slave is replaced with a new one of the same model this function automatically assignment function assigns the previous slave address to the new one that has slave address 0 Sets slave addresses and QJ71AS92 s parameters by the following e Utility package 3 e CODE LED and switches on the module s front face e Sequence program Parameter setting function 3 2 1 Function for communication with AS i slaves The QJ71AS92 complies with AS i Ver 2 11 and can communicate with AS i slaves The QJ71AS92 can be connected with the following slaves e AS i Ver 2 11 compatible I O slave e AS i Ver 2 04 compatible I O slave e AS i Ver 2 11 compatible analog slave QJ71AS92 Fi Communication AS i power AS sot 2 11 toot AS iVer 2 11 supply compatible compatible compatible I O slave I O slave Analog slave 3 2 2 Automatic refresh function by utility package The Q71AS92 s I O data can be automatically refreshed to the CPU module s device memory using utility package GX Configurator AS CPU module QJ71AS92 I O Slave Communication memory Output data Input data Analog Slave Buffer memory Output data Input data Device memory ee data A Borak Co
93. f damages caused by any cause found not to be the responsibility of Mitsubishi loss in opportunity lost profits incurred to the user by Failures of Mitsubishi products special damages and secondary damages whether foreseeable or not compensation for accidents and compensation for damages to products other than Mitsubishi products replacement by the user maintenance of on site equipment start up test run and other tasks 5 Changes in product specifications The specifications given in the catalogs manuals or technical documents are subject to change without prior notice 6 Product application 1 In using the Mitsubishi MELSEC programmable controller the usage conditions shall be that the application will not lead to a major accident even if any problem or fault should occur in the programmable controller device and that backup and fail safe functions are systematically provided outside of the device for any problem or fault 2 The Mitsubishi programmable controller has been designed and manufactured for applications in general industries etc Thus applications in which the public could be affected such as in nuclear power plants and other power plants operated by respective power companies and applications in which a special quality assurance system is required such as for Railway companies or Public service purposes shall be excluded from the programmable controller applications In addition applications in which human life or pr
94. fer to Section 4 4 2 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 2 1 LED Display The QJ71AS92 LEDs display the following details QJ71AS92 RUN U ASI CM PRG ENA ERR S ERR RU Lit when the module is normally operating green On Normal operation Off Hardware error detected or power not supplied ASI Lit when AS i power is supplied green On Power is supplied from AS i bus Off Power is not supplied from AS i bus CM Lit when the module is operating in configuration mode yellow On Configuration mode or parameters being stored Off Protected operation mode RR R U E P N R Lit when an error occurs 26 On Alarm detected Example Slave address alarm parameter error and so forth Off Alarm not detected Lit when automatic slave address assignment function is ready See Section 4 5 4 yellow On Ready Off Not ready R SER red for future use 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 3 Mounting and Installation This section describes the precautions to be observed when handling the QJ71AS92 from unpacking to installation and the installation environment are explained in this section 4 3 1 Precautions for Handling e Use the programmable controller in an environment that meets the general specifications in CPU module User s Manual Using the programmable controller in the environments outside the ranges stated in the general specifications will cause el
95. function module parameter Auto refresh Explanation of items 1 Activation of other screens MELSEC Q Following screens can be displayed from the intelligent function module utility screen a Auto refresh setting screen Start I O No Module type Module model name Auto refresh b Select monitor test module screen Online Monitor Test 1 Enter the start I O No in hexadecimal 2 Command buttons Cannot be selected Auto refresh Starts the auto refresh setting screen Deletes the initial setting and auto refresh setting of the selected module Close this screen 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 3 Menu bar a File menu Intelligent function module parameters of the project opened by GX Developer are handled Intelligent function module utility C ieee Berea Online To Open parameters Crito Open parameters Reads a parameter file Close parameters Save parameters cules Close parameters Closes the parameter file If any data are modified a Delete parameters dialog asking for file saving will appear Save parameters Saves the parameter file Delete parameters Deletes the parameter file Exit Closes this screen b Online menu Monitor Test Activates the Select monitor test module screen Read from PLC _ Reads intelligent function module parameters from Monitor Test the CPU module erec
96. gt gt A slaves List of Projected Slaves PS For Read B slaves List of Projected Slaves LPS For Read A slaves List of slaves that differ from settings B slaves List of slaves that differ from settings Make text file Auto refresh setting Module information Module type AS i Master Module Module model name QU71AS92 Start 1 0 No 0000 Setting item A slaves Input Data of Slave Addr From 14 34 and a part of EC Flag A slaves Input Data of Slave Addr From 46 314 B slaves Input Data of Slave Addr From 18 318 A slaves Output Data of Slave Addr From 14 314 B slaves Output Data of Slave Addr From 1B 31B Analog Input Data Slave Addr 1 31 Module side Module side Module side Buffer size Transfer Buffer offset word count Transfer direction Device Analog Output Data Slave Addr 1 31 Command Butter lt Command gt PLC side Make text file End setup b a 1 e The A slaves List of Active Slave LAS is transferred to D100 and D101 of the CPU module a 2 e The input data from A slaves slave address 4A 7A are transferred to D200 of the CPU module D300 of the CPU module is transferred to the output data to A slaves slave address 4A TA To transfer the output data to the slave address 5 one word of the module side buffer memory addresses are offset by module side buffer offset
97. hen the QJ71AS92 is in the mode other than configuration mode This bit corresponds to the input signal X7 e Bit4to7 Input data from slave address 1A f Bit8to11 Input data from slave address 2A g Bit 12 to 15 Input data from slave address 3A e 0 is stored as the input from a non connected slave As the input from the slave address corresponding to the analog slave the data used for communication is stored 2 Input data from slave address 4A to 31A Buffer memory address 1H to 7H Un G1 to Un G7 The input data from the AS i Ver 2 11 compatible Group A and AS i Ver 2 04 compatible I O slaves are stored Bit 15 to 12 11 To 87 to 43 to 0 ON 1 OFF 0 Example Bit 15 to 12 11 to 87 to 43 to 0 re ra i en E Slave address 7A O ON b 15 14 13 12 11 OFF Wh 3 12 1 10 Lamesa en int 1 oa 13 ON 0 is stored as the input from a non connected slave e As the input from the slave address corresponding to the analog slave the data used for communication is stored PECIFICATION eS A ae MELSEC Q 3 Input data from slave address 1B to 31B Buffer memory address 8H to FH Un G8 to Un G15 The input data from the AS i Ver 2 11 compatible Group B I O slaves are stored Bit 15 to 12 11 to 87 to 43 to 0 Not used 0 fixed ON 1 OFF 0 Example Bit 15 to 12 11 to 87 to 43 to 0 exLisli2tuto sy d Slave address 3
98. i Command Buffer lt Data Word 2 gt AS i Command Buffer lt Data Word 3 gt Extended Command Buffer lt Result gt 5 UTILITY PACKAGE GX Configurator AS MELSEC Q Configuration Data Registration EEPROM Save 1 Change to Configuration Mode Change to Configuration Mode when Mode Status is not in Configuration Mode Mode Status Configuration Mode Change Request 2 Set LPS A slaves List of Projected Slaves LPS For Write B slaves List of Projected Slaves LPS For Write Configuration Register Request AS i Command Buffer lt Command gt AS i Command Buffer lt Data Word 0 gt Command Execution Request Section 5 7 AS i Command Buffer lt Result gt AS i Command Buffer lt Data Word 0 gt 4 Change to Protected Operation Mode Protected Operation Mode Change Request Mode Change Request Result Current Error Code 5 Save the Configuration Data in EEPROM Execute only in case of saving in EEPROM EEPROM Write Request EEPROM Write Status Turn OFF the EEPROM Write Request If any errors occurred in the request result of procedures 3 4 amp 5 please check the error code and perform the corrective actions 5 UTILITY PACKAGE GX Configurator AS 5 5 1 X Y monitor test Purpose Used to monitor the I O signals or test the output signals Operating procedure Monitor Test screen X Y Monitor Test Setting screen X Y Monitor Test Module information Module
99. if QJ71AS92 does not seem to operate normally Check LED statuses of the QJU71AS92 as follows 1 Check the status of the RUN LED status Lit The power The power supply of programmable contrllerison sd of programmable controller is on Check whether the power supply of programmable controller is on Check that the RESET switch of the CPU module is not in the RESET position 2 Check the status of the U ASI LED uit lasi power supply is normal Check the wiring and capacity about AS i power supply 3 Check the status of the ERR LED Existing slave was lost or response was lost from slave so that the mismatch EA E in LPS and LDS Check the ea O points of slave confi Slave configuration is normal 0 is normal e Check the error code buffer memory address COH or CODE LED situated at the front panel of the QJ71AS92 and the slave list that differs from the settings buffer memory addresses 1DH to 20H and reexamine the corresponding slave e Check the slave status See the slave manual for the method to check the status If the slave is damaged change that slave e Check the slave wiring If the wiring is broken replace the cable e Check whether the new slave is the same product that as the slave that has failed If the slave is a different product replace it with the same product To use the different product register the slave again e Check the slave address of the slave If the s
100. ing error is the slave used instead of the old slave Hardware error Please consult your local Mitsubishi service center or F501 representative explaining a detailed description of the problem Hardware error EEPROM write error Please consult your local Mitsubishi F70H service center or representative explaining a detailed description of the problem F71 72 Hardware error Please consult your local Mitsubishi service center or F73 representative explaining a detailed description of the n problem EEPROM write error The processing of write to the EEPROM is performed F741 more than 1000 times during continuous CPU module operation coos cin to C1FH EEPROM write in execution This is rarely displayed since write is completed in a short time 1 Any of No 0 to 31 is displayed 2 Slave address detected in the configuration mode The error code is not stored 8 TROUBLESHOOTING MELSEC Q 8 4 Checking the QJ71AS92 status using GX Developer system monitor By selecting the detailed information of the QJ71AS92 in the system monitor of GX Developer the error code and LED ON OFF statuses can be checked 1 When using GX Developer Version 8 a Setting procedure Diagnostics System monitor Select module Module Detailed Information H W information Module s Detailed Information Module Module Name 0QJ714592 Product information 051020000000000 B 1 0 Address 0 Implementation Position
101. ing screen B slaves List of Projected Slaves LPS For Read Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71AS92 Setting item Current value Setting value Slave Address 1B Slave Address 2B Slave Address 3B Slave Address 4B Slave Address 5B Slave Address 6B Slave Address 7B Slave Address 8B Slave Address 9B Slave Address 10B Slave Address 11B Not Registered Flash ROM setting Details Current value Monitoring display Cannot execute test Make text file Stop monitor Refer to Section 3 4 2 7 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 8 A slaves List of slaves that differ from settings Purpose The result of EXCLUSIVE ORing the result of ORing the A slaves detected slave list LDS and projected slave list LPS and the active slave list LAS is stored The result of detected slave list LDS projected slave list LPS active slave list LAS is displayed Operating procedure Monitor Test screen A slaves Slave List Setting screen A slaves List of slaves that differ from settings Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71AS92 Setting item Current value Setting value Slave Address 0 Slave Address 14 Slave Address 24 Slave Address 3A Slave Address 44 Slave Address
102. is connected If the recognised slave is the Ver 2 11 compatible grouped slave the QJ71AS92 lights up the A B LED on the right of the CODE LED to indicate that the slave is in group A or B 3 Press the SET switch to display the usable slave addresses The usable slave address is displayed in order every time the SET switch is pressed For the Ver 2 11 compatible grouped slaves the QJ71AS92 lights up the A LED on the right of the CODE LED and displays the slaves in group A After that the slave addresses of group B appear consecutively If the SET or MODE switch is not operated for longer than 10 seconds the QJ71AS92 returns to the display status in 1 flikers 4 When the slave address to be set has appeared press the SET switch until the CORE indicated slave address flickers This selects the target slave address 5 When the SET switch is pressed again the flickering slave address is set to the slave of slave address 0 It is stored into the nonvolatile memory of the slave 6 The slave address of the slave recognized again appears on the CODE LED Related item Section 4 5 1 When changing the slave address of the slave by using the switches on the front of the panel the QJ71AS92 assigns the target slave address after assigning the slave address 0 to the slave once See Section 4 5 3 for the method to set the slave address to 0 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 5 3
103. l name 0J714592 Setting item Current value Setting value Output Data to Slave Address 14 Output Data to Slave Address 24 Output Data to Slave Address 34 Output Data to Slave Address 44 Output Data to Slave Address 54 Output Data to Slave Address 6A Output Data to Slave Address 7A Output Data to Slave Address 84 Output Data to Slave Address 94 Output Data to Slave Address 104 Output Data to Slave Address 114 Flash ROM setting Details Current value Monitoring display Binary input Make text file Setting range 0000 1111 Stop monitor Execute test Refer to Section 3 4 2 10 11 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS 5 5 19 B slaves Output Data of Slave Addr From 1B 31B Purpose Used to monitor the output data to each B slaves slave Operating procedure Monitor Test screen B slaves Slave Addr 1 31 Setting screen B slaves Output Data of Slave Addr From 1B 31B Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QU71AS92 Setting item Current value Setting value Output Data to Slave Address 1B 0000 Output Data to Slave Address 2B 0000 Output Data to Slave Address 38 0000 Output Data to Slave Address 4B 0000 Output Data to Slave Address 58 0000 Output Data to Slave Address 6B 0000 Output Data to Slave Address 7B 0000 Output Data to Slav
104. le model name GJ71AS92 0000 word count Current Error Code Error Code History 1 5 A slaves List of Detected Slaves LDS B slaves List of Detected Slaves LDS 4 slaves List of Active Slaves LAS B slaves List of Active Slaves LAS Module side Module side Module side 7 060 PLC side LSJ Setting item Buffer size Transfer Buffer offset apoio Device A slaves List of Projected Slaves LPS For Read B slaves List of Projected Slaves LPS For Read A slaves List of slaves that differ from settings B slaves List of slaves that differ from settings v Make text file End setup Explanation of items 1 Items Module side Buffer size Module side Transfer word count Module side Buffer offset Transfer direction PLC side Device Cancel Displays the buffer memory size of the setting item Displays the number of words to be transferred The buffer memory addresses are offset on a one word basis indicates that data are written from the CPU module to the buffer memory gt indicates that data are loaded from the buffer memory to the CPU module Enter a CPU module side device that is to be automatically refreshed Applicable devices are X Y M L B T C ST D W R and ZR When using bit devices X Y M L or B seta number that can be divided by 16 points examples X10 Y120 M16 etc Also buffer memory data are stored in a 16 point
105. list LPS for read is stored Example 15H LAS 0410 1 LAS 10 1 0 19H LPS 1 1 0 0 21H Error slave list 1 0 0 0 10 Output data to slave addresses 1A to 3A Buffer memory address 30H Un G48 Output data to I O slaves compatible with AS i Ver 2 11 System A or AS i Ver 2 04 are stored The values stored in the areas corresponding to the analog non connected and non detected slaves are invalid ignored Bit 15 to 12 11 to 87 to 43 to 0 1H 3A 2A 0000 fixed ON 1 OFF 0 Example Bit 15 to 12 11 to 87 to 43 to 0 sonfosfozto1fjoo S o y O Slave address 3A O0 ON b 15 14 13 12 03 021 01 00 O1 OFFhwhen 30 1 1 1 1 0 1 O2 ON 03 ON 3 SPECIFICATIONS MELSEC Q 11 Output data to slave address 4A to 31A Buffer memory address 31H to 37H Un G49 to Un G55 Output data to I O slaves compatible with AS i Ver 2 11 System A or AS i Ver 2 04 are stored The values stored in the areas corresponding to the analog non connected and non detected slaves are invalid ignored Bit 15 to 12 11 to 87 to 43 to 0 31H 32H 33H 34H 35H 36H 37H ON 1 OFF 0 Example Bit 15 to 12 11 to 87 to 43 to 0 siufos ozjorjoof TC Slave address 7A 00 ON b 15 14 13 12 o3 o2 01 00 O1 OFFWhen si 1 1 0 1 02 ON 03 ON 12 Output data to slave address 1B to 3B Buffer memory address 38H Un G56 Output data to I O slaves compatible with AS i Ver 2 11 System B are stored The va
106. loper The serial No and function version of the module are displayed on the Production Info List and Module s Detailed Information screens of GX Developer The following explains how to check them on the Production Info List screen For the case of Module s Detailed Information refer to Section 8 4 Operating procedure Diagnostics gt System monitor Product Inf List Product Information List Points I 0 No Master PLC Product No 30929550 090920000000000 B _091013092955016 B 0 0 Intelli Q QI714592 32pt 0000 o 1 None None 0 3 gt a ione M None Serial No Ver Product No e Serial No of the module is displayed in the Serial No column e Function version of the module is displayed in the Ver column e Serial No printed on the rating plate is displayed in the Production No column Note that because the QJ71AS92 does not support the production No display is displayed 4 The Production No column display is active only when the CPU used is a Universal model QCPU 2 SYSTEM CONFIGURATION MELSEC Q The serial No on the rating plate may be different from the serial No displayed on the product information screen of GX Developer e The serial No on the rating plate indicates the management information of the product e The serial No displayed on the product information screen of GX Developer indicates the function information of the produ
107. lues stored in the areas corresponding to the non connected and non detected slaves are invalid ignored Bit 15 to 121 to 87 to 43 to 0 38H 0000 fixed ON 1 OFF 0 Example Bit 15 to _ 121 _ _ t 87 to 43 to 0 sentos oztotfoo S iY Slave address 3A O0 ON b 15 14 13 12 01 OFF 03 02 01 00 94590 twnen sex 1 1 0 1 O3 ON PECIFICATION eS A ae MELSEC Q 13 Output data to slave addresses 4B to 31B Buffer memory address 39H to 3FH Un G57 to Un G63 Output data to I O slaves compatible with AS i Ver 2 11 System B are stored The values stored into the areas corresponding to the non connected and non detected slaves are invalid ignored Bit 15 to 12 11 to 87 to 43 to 0 39H 3AH 3BH 3CH 3DH 3EH 3FH ON 1 OFF 0 Example Bit 15 to 12 11 to 87 to 43 to 0 soxlosloz orfoo TC Slave address 7A O0O ON b 15 14 13 12 01 OFF ats 01 00 Sb on when sa 1 1 o 1 03 ON 14 List of Projected Slaves LPS For Write Buffer memory address 49H to 4An 4BH to 4CH Un G73 to Un G74 Un G75 to Un G76 Bit 15 13 12 1 8 7 6 5 4 3 2 1 0 14 1 10 9 4An 31A 30A A 27A 26A 25A 24A 23A 22A 21A 20A 19A 18A 17A 16A 14 B 10B 9B B 27B 26B 25B 4Bu 2 29A 28 4CH 31B 30B 29B 28B 2 24B 23B 22B 17B Not used 0 fixed If the bit corresponding to
108. mmable controller CPU QJ71AS92 QJ71AS92 xs Configuration Register Completion Y3 a a ae AS i T Fail Configuration Mode Active M kA Not used x lt feo Y Y YA Y YC YD E Not used Y18 8 i B KEE EEPROM Write Refresh Instruction ER Y1F i X lt x X lt oj W gt x lt m C C XB CO XE XFo x10 xT C sa 7 a e a a e Se e o 3 SPECIFICATIONS MELSEC Q The signals indicated as Not used in Table 3 3 are used by the system and cannot be used by the user If they are turned ON OFF by the sequence program correct operation of the module cannot be guaranteed 3 SPECIFICATIONS MELSEC Q 3 3 2 Details of I O signals This section describes the details of the QJ71AS92 I O signals 1 X0 Module Ready XO turns ON when the QJ71AS92 enters the operation enabled status after the power is turned ON or the CPU module is reset XO turns OFF when a hardware fault occurs OFF Operation disabled ON Operation enabled ON xo OFF Not yet ready to operate Ready to operate 2 X2 Command Completion Y12 Command Execution Request A request to execute the command specified for Command Buffer Request of the buffer memory is made when Y12 turns ON The command requested when Y12 turned ON is executed and X2 turns ON at completion of that command 5 Refer to Section 3 4 2 Y12 ON Command requested
109. mmunication memory Output data H Input data Transmission data Output data Lo Input data Automatic refresh at END processing of CPU module Receive data 3 SPECIFICATIONS MELSEC Q 3 2 3 Automatic slave address assignment function This function automatically sets the slave address of the old slave to the new slave of the same product having slave No 0 at the time of slave replacement Refer to Section 4 5 4 for details 3 2 4 Parameter setting function Slave addresses and QJ71AS92 s parameters can be set by any of the following methods 1 Using the utility package GX Configurator AS Refer to Chapter 5 UTILITY PACKAGE GX Configurator AS 2 Using the CODE LED and switches Refer to Section 4 5 Start Up 3 Using the sequence program Refer to Section 3 4 2 15 Command buffer lt request gt PECIFICATION eS A ae MELSEC Q 3 3 I O Signals for CPU Module 3 3 1 I O signal list Table 3 3 lists QU71AS92 I O signals The following I O signal assignment is based on the case where the start I O No of the QJ71AS92 is 0000 installed to slot 0 of the main base unit Device X represents an input signal from the QU71AS92 to the programmable controller CPU Device Y shows an output signal from the programmable controller CPU to the QJ71AS92 Table 3 3 List of I O signals Signal Direction programmable controller CPU lt Signal Direction progra
110. n Start I O No Module type gt Module model name Monitor Test x Enter the start I O No in hexadecimal The screen can also be started from System monitor of GX Developer Version 6 or later Refer to the GX Developer Operating Manual for details Setting screen Select monitor test module screen Select monitor test module Select monitor test module Start 1 0 No Module type 0000 Module model name QJ714A592 Module implementation status Start 1 0 No Module model name 000g 714592 o Monitor Test Monitor Test Module information Module type AS i Master Module Module model name QJ71AS92 Start 1 0 No 0000 Setting item Current value Setting value Configuration Error Configuration Eror LDS_O Detection of Slave Addr 0 Not Detected Automatic Address Assignment Function Disabled Automatic Address Assignment Available Not Available Configuration Mode Active Not in Config Mode Normal Operation Active Some Other Phase AS i Power Fail AS i Power Fail Offline Phase Active Offline Phase Peripheral Faults Peripheral Faults Current Error Code Error Code History Flash ROM setting display Current value Make text file Explanation of items 1 Items Setting item Current valu
111. n LPS Slave Address 7A Not registered in LPS Not registered in LPS Slave Address 7B Not registered in LPS Not registered in LPS Slave Address BA Not registered in LPS Not registered in LPS Slave Address 88 Not registered in LPS Not registered in LPS Slave Address 3A Not registered in LPS Not registered in LPS Slave Address 9B Not reaistered in LPS Not registered in LPS Slave Address 10A Not registered in LPS Not registered in LPS Slave Address 108 Not registered in LPS Not registered in LPS Slave Address 114 Not registered in LPS Not registered in LPS Slave Address 118 Not registered in LPS Not registered in LPS Flash ROM setting Details Flash ROM setting Details Current value Monitoring Current value isplay display Select input Select input Monitoring Make text file Setting range Make text file Setting range Not registered in LPS Not registered in LPS Registered in LPS Registered in LPS Stop monitor Execute test Stop monitor Execute test Operation procedure 1 Setthe A slaves List of Protected Slaves LPS for write Set monitor the slave numbers you want to register in the A slaves LPS 2 Set the B slaves List of Protected Slaves LPS for write Set monitor the slave numbers you want to register in the B slaves LPS Refer to S
112. n a MELSECNET H network system The QJ71AS92 can use the slave addresses assigned to AS i Ver 2 11 compatible slaves by grouping them into A and B 1 The other slaves ae than the AS i Ver 2 11 compatible I O slaves cannot be grouped into A and B because of the AS i specifications Assign them to the slave addresses other than those used for group A and B 4 Check whether the slaves can be grouped or not by reference to the manuals of the slaves used 2 Analog slave AS i Ver 2 04 compatible I O slave etc For Use with Q12PRH Q25PRHCPU a GX Configurator AS connection GX Configurator AS cannot be used when accessing the Q12PRH Q25PRHCPU via an intelligent function module on an extension base unit from GX Developer Connect a personal computer with a communication path indicated below E Main base unit B OTe eK on carior Extension base unit 4 GX Configurator AS cannot be used Direct connection to the CPU Connection through an intelligent function module on the main base unit Through Ethernet module MELSECNET H module or CC Link module PECIFICATION A MELSEC Q 3 SPECIFICATIONS 3 1 Performance Specifications The following are the performance specifications of the QJ71AS92 3 1 1 Performance specification list 1 point 16 bits Approx 5ms without I O slave grouping I O refresh time Approx 10ms with I O slave grouping Approx 35ms
113. n a repeater is not used and 300m when two repeaters are used 3 One AS i power supply unit is connected to the AS i system The power supply can be connected at any place on the AS i system When using a repeater connect an AS i power supply unit after the repeater is connected Examples of the connection method are shown below a Star method oe ef sej Pe E a AS i power jana supply ue AS i power Repeater A a AS i power S AS i power AS i power S slave Ls supply Repeater c Tree method QJ71AS92 S slave AS i power supply AS i power supply 2 SYSTEM CONFIGURATION QJ71AS92 S slave FXE MELSEC Q Note The system cannot be branched to a tree connection etc from the ring connection Apartial loop cannot be formed A repeater cannot be used 2 SYSTEM CONFIGURATION MELSEC Q 2 4 Precautions for System Configuration 1 2 The QJ71AS92 can be mounted in any slot of the base unit If the QU71AS92 is mounted on an extension base unit Q52B Q55B to which the power supply module cannot be mounted the power supply capacity may be insufficient The QJ71AS92 cannot be mounted on a remote I O station i
114. o slave address 2 D4 D5 Output of slave address 2 and automatically refreshed data 7 PROGRAMMING MELSEC Q 7 2 2 Program example when utility package is not used 1 Program Examples SN400 uo J p_ iio A KAM100 K2 J Reads active slave list YD gt Turns ON refresh command UO fevov 6481 D100 K2 7 M102 Pj pian O o Y es F S K8 7 Reads the number of I O points of slave address and 2 WAND HoFooo Doi Y a IR Ki2 7 Uo Bmov 6228 D200 D100 J Reads analog input data from slave address 1 4342 Fr trv ko D400 D101 Changes output to slave to 0 if slave address 2 cannot communicate UO Bwov D400 6360 D101 Writes analog output data to slave address 2 Explanation of devices X0 X5 X6 X7 M101 M102 D100 D101 D200 D201 D400 D401 Module ready ON when normal AS i power failure OFF when normal Normal operation active OFF when in normal operation Configuration mode active OFF except when in configuration mode ON when slave address 1 is ready for communication ON when slave address 2 is ready for communication Number of analog input points of slave address 1 Number of analog output points of slave address 2 Analog input data from slave address 1 Analog output data to slave address 2 8 TROUBLESHOOTING MELSEC Q 8 TROUBLESHOOTING The chapter describes the troubleshooting methods to be taken when a fa
115. ommand buffer lt result gt 1 If necessary the QJ71AS92 reads the command buffer lt data words 0 to 3 gt c After the command execution is completed the QJ71AS92 stores the result into the command buffer lt result gt and turns ON X2 2 When the results are added with data the data is stored into the data word for extended command buffer lt result gt Related item Section 3 4 2 22 Refer to Section 3 5 1 for the command buffer lt request gt list 16 Command buffer lt result gt Buffer memory address 25H to 29H Un G37 to Un G41 28H 40 AS i command buffer lt data word 2 gt 29H 41 AS i command buffer lt data word 3 gt The QJ71AS92 stores the result of executing the command buffer lt request gt Related item Section 3 4 2 21 Refer to Section 3 5 1 for the command buffer lt request gt list 3 SPECIFICATIONS MELSEC Q 17 Current Error Code Error Code History 1 5 Buffer memory address COH to C5H Un G192 to Un G197 The error code currently detected by the QJ71AS92 and the history of maximum five error codes are stored Buffer memory address COH 192 Current Error Code C1 193 Error Code History 1 C2u 194 Error Code History 2 C3xH 195 Error Code History 3 C4u 196 Error Code History 4 C5x 197 Error Code History 5 COH and C1 store the latest error code When the error is reset COH stores 0 In C1 the error code remains as is Example When an
116. on module utilities can be started However Open parameters and Save parameters operations under Intelligent function module parameter are allowed for one Intelligent function module utility only Only the Monitor test operation is allowed for the other utilities Switching between two or more Intelligent function module utilities When two or more Intelligent function module utility screens cannot be displayed side by side select a screen to be displayed on the top of others using the task bar d d start P MELSOFT series GX D Intelligent function M Intelligent function M 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 6 Number of parameters that can be set in GX Configurator AS When multiple intelligent function modules are mounted the number of parameter settings must not exceed the following limit When intelligent function modules are installed to Q03UD Q04UDH QO6UDH Q13UDH Q26UDH Q03UDE Q04UDEH 4096 2048 QO6UDEH Q13UDEH Q26UDEHCPU For example if multiple intelligent function modules are installed to the Q25HCPU configure the settings in GX Configurator so that the number of parameter settings for all the intelligent function modules does not exceed the limit of the Q25HCPU Calculate the total number of parameter settings separately for the initial setting and for the auto refresh setting The number of parameters that can be set for one module in GX Configurator AS is shown below Target mod
117. operty that could be greatly affected such as in aircraft medical applications incineration and fuel devices manned transportation equipment for recreation and amusement and safety devices shall also be excluded from the programmable controller range of applications However in certain cases some applications may be possible providing the user consults their local Mitsubishi representative outlining the special requirements of the project and providing that all parties concerned agree to the special circumstances solely at the users discretion Microsoft Windows Windows NT and Windows Vista are registered trademarks of Microsoft Corporation in the United States and other countries Pentium and Celeron are trademarks of Intel Corporation in the United States and other countries Ethernet is a registered trademark of Xerox Corporation in the United States Other company names and product names used in this document are trademarks or registered trademarks of respective companies SPREAD Copyright c 1996 FarPoint Technologies Inc SH NA 080291E G SH NA 080291E G 0805 MEE MODEL QJ71AS92 U S E MODEL CODE 13JR53 MITSUBISHI ELECTRIC CORPORATION 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 s
118. otected operation mode The QJ71AS92 is put in either mode that has been registered to the EEPROM after powering on The configuration mode and protected operation mode can be switched between each other by writing an instruction command from the CPU module a Configuration mode In this mode the QJ71AS92 communicates with all detected slaves However output data is not output to the slave of slave address 0 This mode is used to set the slave address b Protected operation mode In this mode the QJ71AS92 communicates with all registered slaves Normally this mode is used to make communication To use this mode the configuration data of the slave must be registered If a slave not registered as configuration data is detected at start of communication a configuration error will occur 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 1 Method of setting the slave address There are two methods of setting the slave address Select either of the followings as necessary a Using the switches on the QJ71AS92 front panel Setting can be made without a peripheral device b Using the command for the QJ71AS92 Setting can be made in the environment where the module cannot be operated the module is installed in the inaccessible place far end of an operator panel The following chart shows the operation sequence of each method Slave address setting 1 Using the switches Using the command
119. r List of Active Slaves GX Configurator AS Abbreviation for List of Detected Slaves Abbreviation for List of Peripheral Faults Abbreviation for List of Projected Slaves Abbreviation for Execution Control flag Generic term for the following Microsoft Windows Vista Home Basic Operating System Microsoft Windows Vista Home Premium Operating System Microsoft Windows Vista Business Operating System Microsoft Windows Vista Ultimate Operating System Microsoft Windows Vista Enterprise Operating System Generic term for the following Windows XP Microsoft Windows XP Professional Operating System Microsoft Windows XP Home Edition Operating System Windows Vista Product Structure The follow table shows the product stricture Ooo o oye Quantity QJ71AS92 QJ71AS92 type AS i master module SW1D5C QASU E GX Configurator AS Version 1 license product CD ROM SW1D5C QASU EA GX Configurator AS Version Multiple license product CD ROM 1 OVERVIEW 1 OVERVIEW MELSEC Q This manual explains the specifications procedures for operation and troubleshooting of the QJ71AS92 type AS i master module hereinafter QJ71AS92 The AS i Actuator Sensor Interface is a network system specified by the IEC standard IEC 62026 2 The QJ71AS92 is compatible with the AS Interface Specification Version 2 11 hereinafter AS i Ver 2 11 and can be used as the master module
120. r Windows Vista Operating system Operating system and performance required for personal computer Performance required for personal computer Operating system Memory 5 UTILITY PACKAGE GX Configurator AS MELSEC Q e The functions shown below are not available for Windows XP and Windows Vista If any of the following functions is attempted this product may not operate normally Start of application in Windows compatible mode Fast user switching Remote desktop Large fonts Details setting of Display Properties Also 64 bit version Windows XP and Windows Vista are not supported e Use a USER authorization or higher in Windows Vista 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 3 Utility Package Operation 5 3 1 Common utility package operations 1 Control keys Special keys that can be used for operation of the utility package and their applications are shown in the table below Application Esc Cancels the current entry in a cell Closes the window Moves between controls in the window Used in combination with the mouse operation to select multiple cells for test execution Deletes the character where the cursor is positioned When a cell is selected clears all of the setting contents in the cell Back eer 4 Deletes the character where the cursor is positioned Space LA Moves the cursor Page Moves the cursor one page up Up Page
121. r to Section 3 4 2 18 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 13 B slaves List of Peripheral Faults LPF Purpose Used to monitor the peripheral fault occurrence status of each B slaves slave Operating procedure Monitor Test screen B slaves LPF Setting screen B slaves List of Peripheral Faults LPF Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71A4S92 Setting item Current value Slave Address 1B lo Peripheral Fault Loo Slave Address 2B jo Peripheral Fault Slave Address 3B lo Peripheral Fault Slave Address 4B lo Peripheral Fault Slave Address 5B jo Peripheral Fault Slave Address 6B No Peripheral Fault Slave Address 7B No Peripheral Fault Slave Address 8B No Peripheral Fault Slave Address 9B No Peripheral Fault Slave Address 10B No Peripheral Fault Slave Address 11B jo Peripheral Fault Flash ROM setting Details Current value Monitoring display Peale lovee Meteen Cannot execute test Stop monitor Refer to Section 3 4 2 18 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 14 A slaves Number of I O Points Purpose Used to monitor the I O input and output points and analog input and output points of each A slaves slave number Operating procedure Monitor Test screen A slaves Number of I O Points
122. ress 3A 203H 515 Slave address 3B Slave address 4A 204H 516 Slave address 4B Slave address 5A 205H 5157 Slave address 5B Slave address 6A 206H 518 Slave address 6B Slave address 7A 207H 519 Slave address 7B 1E8H 488 Slave address 8A 208H 520 Slave address 8B Slave address 9A 209H 521 Slave address 9B Slave address 10A 20AH 522 Slave address 10B Slave address 11A 20BH 523 Slave address 11B Slave address 12A 20CH 524 Slave address 12B Slave address 13A 20Dx 525 Slave address 13B Slave address 14A 20EH 526 Slave address 14B Slave address 15A 20FH 527 Slave address 15B Slave address 16A_ I O data 210H 528 Slave address 16B_ I O data Slave address 17A 2114 529 Slave address 17B Slave address 18A 212H 530 Slave address 18B Slave address 19A 213H 531 Slave address 19B Slave address 20A 214H 532 Slave address 20B Slave address 21A 215H 533 Slave address 21B Slave address 22A 216H 534 Slave address 22B Slave address 23A 217H 535 Slave address 23B Slave address 24A 218H 536 Slave address 24B 1F9 505 Slave address 25A 2194 537 Slave address 25B a 58 Slave address 26A 21AH 538 Slave address 26B 1FBa O Slave address 27A 21BH 539 Slave address 27B 1FCH 508 Slave address 28A 21CH 540 Slave address 28B Slave address 29A 21DH 541 Slave address 29B 510 Slave address 30A 21EH 542 Slave address 30B 511 Slave address 31A 21FH 543 Slave address 31B Example Buffer memory address Un G481 Bit
123. rom 1B 31B Section 3 4 2 3 A slaves Output Data of Slave Addr From 1A 31A Section 3 4 2 10 11 B slaves Output Data of Slave Addr From 1B 31B Section 3 4 2 12 13 Analog Input Data Slave addr 1 31 Analog Output Data Slave addr 1 31 Command Buffer lt Command gt Section 3 4 2 15 Command Buffer lt Request Data Word 0 3 Command Argument gt Extended Command Buffer lt Command Data gt Section 3 4 2 22 Command Buffer lt Result gt Section 3 4 2 16 Extended Command Buffer lt Result gt Section 3 4 2 21 A slaves List of Projected Slaves LPS For Write B slaves List of Projected Slaves LPS For Write Section 3 4 2 19 Section 3 4 2 14 The auto refresh settings are stored an intelligent function module parameter file After the auto refresh settings are written to the CPU module they are validated by performing STOP gt RUN STOP RUN operations for the CPU module turning the power OFF and then ON or resetting the CPU module The auto refresh settings cannot be changed from sequencer programs However processing equivalent to auto refresh can be added using the FROM TO MOV instruction in the sequence program 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 Monitor Test Purpose Used to monitor the EC flag error code and error history and to perform configuration registration EEPROM Storage operation Operating procedure Select monitor test module scree
124. sales representative or Mitsubishi Service Company However if repairs are required onsite at domestic or overseas location expenses to send an engineer will be solely at the customer s discretion Mitsubishi shall not be held responsible for any re commissioning maintenance or testing on site that involves replacement of the failed module Gratis Warranty Term The gratis warranty term of the product shall be for one year after the date of purchase or delivery to a designated place Note that after manufacture and shipment from Mitsubishi the maximum distribution period shall be six 6 months and the longest gratis warranty term after manufacturing shall be eighteen 18 months The gratis warranty term of repair parts shall not exceed the gratis warranty term before repairs Gratis Warranty Range 1 The range shall be limited to normal use within the usage state usage methods and usage environment etc which follow the conditions and precautions etc given in the instruction manual user s manual and caution labels on the product 2 Even within the gratis warranty term repairs shall be charged for in the following cases 1 Failure occurring from inappropriate storage or handling carelessness or negligence by the user Failure caused by the user s hardware or software design 2 Failure caused by unapproved modifications etc to the product by the user 3 When the Mitsubishi product is assembled into a user s device Fail
125. ss Command buffer lt result gt Buffer memory address 25x Stores the Execution result Command buffer lt result data word 0 gt Buffer memory address 261 Stores the size of the read data Extension command buffer lt result gt Buffer memory address 3004 Stores the read data The read data is up to 220 bytes Writes the parameters to the slave address n n data word 0 The Execution result is stored as follows Command buffer lt request data word 0 gt Buffer memory address 56x Stores the slave address Command buffer lt request data word 1 gt Buffer memory address 26x Stores the size of the written data Extension command buffer lt request data gt Buffer memory address 400n Sets the written data Extension command buffer lt result gt Buffer memory address 30014 Stores the written data The read data is up to 220 bytes 3 SPECIFICATIONS MELSEC Q 1 Actual parameter Parameter that the target slave has Permanent parameter Slave parameter that the QJ71AS92 has For the actual parameters refer to the manual of the slave used 2 Consists of the I O code and ID code of the slave The data of the inactive slave are default values FF When communicating in the projected operation mode the permanent configuration of the slave whose bit in the LPS for read buffer memory addresses 19H to 1CH is ON must match the actual configuration of the corresponding slave connec
126. st a command from the QJ71AS92 Operating procedure Monitor Test screen Ext Command lt Command Data gt Setting screen Monitor Test Module information Module type AS i Master Module Start 1 0 No Module model name QJ71AS92 Setting tem Current value Setting value Command Request 1 Set Command Code in the Command Butter S Command Bufter lt Command gt 0000 AS i Command Bufter lt Data Word 0 gt 0000 AS i Command Bufter lt Data Word 1 gt 0000 AS i Command Buffer lt Data Word 2 gt 0000 AS i Command Buffer lt Data Word 3 gt oooof Extended Command Buffer lt Command Data gt Ext Command lt Command Data gt 2 Execute the Command Command Execution Request Command Request M 3 Check the Command Execution Result M Flash ROM setting Details Monitoring Move to sub window Make text file Stop monitor Extended Command Buffer lt Command Data gt Module information Module type AS i Master Module Start 1 0 No Module model name QJ71AS92 Setting tem Current value Setting value a Extended Command Buffer lt Command Data Word 0 gt 0000 Extended Command Bulfer lt Command Data Word 1 gt 0000 Extended Command Buffer lt Command Data Word 2 gt 0000 Extended Command Buffer lt Command Data Word 3 gt 0000 Extended Command Buffer lt Command Data Word 4 gt 0000 Extended Command Buffer lt Command Data Word 5 gt
127. t Write to PLC Writes intelligent function module parameters to the CPU module 1 Saving intelligent function module parameters in a file Since files cannot be saved using the GX Developer project saving operation save the files using the Select a target intelligent function module screen shown above 2 Reading writing intelligent function module parameters from to a programmable controller using GX Developer a Intelligent function module parameters can be read from and written into a programmable controller after having been saved in a file b Set a target CPU module in GX Developer Online Transfer setup 3 Checking the required utility While the start I O is displayed on the Intelligent function module utility setting screen may be displayed for the model name This means that the required utility has not been installed or the utility cannot be started from GX Developer Check the required utility selecting Tools Intelligent function utility Utility list in GX Developer 5 UTILITY PACKAGE GX Configurator AS 5 4 Auto refresh setting Purpose MELSEC Q Configure the QJ71AS92 s buffer memory for automatic refresh Operating procedure Start I O No Module type Module model name Auto refresh x Enter the start I O No in hexadecimal Setting screen Auto refresh setting Module information Module type AS i Master Module Start 1 0 No Modu
128. ted Actual configuration I O code and ID code that the slave holds Extension ID code 1 2 e e Added to AS i Ver 2 11 Permanent configuration I O code and ID code that the QJ71AS92 holds Extension ID code 1 2 e e Added to AS i Ver 2 11 Configuration data structure of AS i Ver 2 11 compatible slave 8 higher order bits 8 lower order bits 4 higher order bits 4 lower order bits 4 higher order bits 4 lower order bits gt Extension ID code 2 Extension ID code 1 I O code Configuration data structure of AS i Ver 2 04 compatible slave Last 8 bits First 8 bits First 4 bits Last 4 bits Not used fixed to FFx ID code I O code For the I O and ID codes refer to the manual of the slave used This data can be stored on the EEPROM of the QJ71AS92 For how to store the data to the EEPROM See Section 3 3 2 12 or Section 4 5 1 3 This command can be used with the slave compatible with the slave profile S 7 4 For the profile of the slave used refer to the manual of the slave 3 SPECIFICATIONS MELSEC Q 3 5 2 Command Buffer lt Result gt List The following table lists the command buffer lt result gt The slave address cannot be written to the nonvolatile memory of the slave hes The request code is in execution An The data word value is outside the setting range Bhd The extension ID code 1 was not stored correctly Ch The extension ID code 1 could not be read correctly
129. tension ID code 1 of the slave address 0 3 SPECIFICATIONS Command code 3 3 3 MELSEC Q O Enabled Disabled Operating Target Slave Status Reads the ID of the slave address n n data word 0 The Execution result is stored as follows Command buffer lt request data word 0 gt Buffer memory address 564 Stores the slave address Command buffer lt result gt Buffer memory address 25x Stores the Execution result Command buffer lt result data word 0 gt Buffer memory address 26n Stores the size of the read data Extension command buffer lt result gt Buffer memory address 300n Stores the read data The read data is up to 220 bytes Reads the diagnostic information of the slave address n n data word 0 The Execution result is stored as follows Command buffer lt request data word 0 gt Buffer memory address 56n Stores the slave address Command buffer lt result gt Buffer memory address 25x Stores the Execution result Command buffer lt result data word 0 gt Buffer memory address 26x Stores the size of the read data Extension command buffer lt result gt Buffer memory address 300n Stores the read data The read data is up to 220 bytes Reads the parameters of the slave address n n data word 0 The Execution result is stored as follows Command buffer lt request data word 0 gt Buffer memory address 5614 Stores the slave addre
130. ter Module Start 1 0 No Module model name QJ71AS92 Setting tem Current value Setting value Check the Command Execution Result AS i Command Buffer lt Result gt AS i Command BulfereData Word 0 gt AS i Command Buffer lt Data Word 1 gt AS i Command Buffer lt Data Word 2 gt AS i Command Bulfer lt Data Word 3 gt Extended Command Buffer lt Fesult gt Ext Command lt Result Configuration Data Registration EEPROM Save 1 Change to Configuration Mode Change to Configuration Made when Mode Status is not in Configuration Mode Flash ROM setting Details Monitoring Move to sub window Make text file Stop monitor Extended Command Buffer lt Result gt Module information Module type AS i Master Module Start 1 0 No Module model name QJ71AS92 Setting tem Current value Setting value Extended Command Buffer lt Result Data Word 0 gt Extended Command Buffer lt Result Data Word 1 gt Extended Command Butfer lt Result Data Word 2 gt Extended Command Buffer lt Result Data Word 3 gt Extended Command Buffer lt Result Data Word 4 gt Extended Command Buffer lt Result Data Word 5 gt Extended Command Buffer lt Result Data Word 6 gt Extended Command Buffer lt Result Data Word 7 gt Extended Command Buffer lt Result Data Word 8 gt Extended Command Butfer lt Result Data Word 9 gt Extended Command Buffer lt Result Data Word 10 gt
131. the module the cable must be securely fixed Please be sure to run it ina duct or clamp it Failure to observe this could cause the unstable cable connection resulting in damage to the cable or module by carelessly pulling the cable or the system malfunction due to poor cable connection e Do not bundle AS i cable together with main circuit or power lines or lay them close to these lines As a guide separate these lines by a distance of at least 100 mm otherwise misoperations may occur due to noise e When removing the AS i cable from a module do not pull it out by hand Always be sure to unscrew the module mounting screws in advance If the cable is pulled while being connected to the module it could cause damage to the cable or module or the system malfunction due to poor cable connection 1 The overall distance is up to 100m The distance can be increased 100m by use of one repeater Since up to two repeaters can be used in series the overall distance can be increased up to 300m 4 SETTINGS AND PROCEDURES FOR OPERATION MELSEC Q 4 4 2 Wiring Be sure connect the QJ71AS92 to the AS i system with the AS i cable An example of wiring to the QJ71AS92 is shown below Confirm each module being used for the AS i power supply and slave terminal layout Strip the AS i cable by about 7mm and plug it to the connector QJ71AS92 i Brown ei AS i cable Rei power supply Blue Sa 4 rown i ASI
132. the number of the slave to be communicated with and Y13 are turned ON data in this area will be registered in the QJ71AS92 and be reflected into the List of projected slaves LPS for read buffer memory address 19H to 1Cx Related item Section 4 5 2 e The projected slave list LPS for write is handled as a 64 bit length in the QJ71AS92 Therefore if data is written to only the buffer memory address 49n the contents of the buffer memory address 4An to 4CH are also made valid as data e When communicating with the slave that has been judged as ready for communication in the active slave list LAS buffer memory addresses 15H to 18H easy registration of the projected slave list LPS for read and configuration are enabled by using the command buffer lt request gt 201h PECIFICATION eS A ae MELSEC Q 15 Command buffer lt request gt Buffer memory address 55H to 59H Un G85 to Un G89 Buffer memory address 55H 85 AS i command buffer lt request gt 56H 86 AS i command buffer lt data word 0 gt 57H 87 AS i command buffer lt data word 1 gt 58H 88 AS i command buffer lt data word 2 gt 59H 89 AS i command buffer lt data word 3 gt a After data is written to the command buffer lt request gt and lt data words 0 to 3 gt and Y12 is turned ON b The QJ71AS92 executes the command buffer lt request gt when Y12 turns ON At this time 08 request code in execution is stored into the c
133. these conditions are satisfied the slave address of the slave that is not recognized any more is automatically assigned to the new slave of the slave address 0 Whether the conditions are satisfied or not can be checked using the PRG ENA LED or EC flag buffer memory address 10h QJ71AS92 AS i power Company A Co yB Company C supply slave address 1 slav ess 2 slave address 3 Failure Replacement Connecting the slave of the same product set Peale B 0 to the slave address 0 writes the slave address SIGE BOGIES of the old slave automatically If the slave address is not assigned automatically performs the slave address assignment according to the method given in Section 4 5 2 If two slaves are different products the automatic slave address assignment function is not available 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 UTILITY PACKAGE GX Configurator AS 5 1 Functions of the Utility Package Table 5 1 lists the functions of the utility package Table 5 1 Utility Package GX Configurator AS Function List Automatic refresh _ Set the I O data of the AS i module to be automatically refreshed Section 5 4 e X Y monitor test Section 5 5 Monitor test Command request Section 5 6 e Configuration data registration EEPROM Storage Section 5 7 1 When auto refresh setting is made a maximum of 24 bytes of intelligent function module parameters are required per module 5 UTI
134. tion 4 5 2 8 List of slaves that differ from the settings Buffer memory address 1DH to 1EH 1FH to 20H Un G29 to Un G30 Un G31 to Un G32 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Not used 0 fixed A configuration error occurs if the projected slave list LPS for read and detected slave list LDS are different in the configuration contents The logical operation OR on the detected slave list LDS and projected slave list LPS for read are performed Then the logical operation exclusive OR on the result of the logical operation OR and the active slave list LAS is performed Conclusively the result of the logical operation exclusive OR is stored The slave list that differs from the settings can be used to check the slave for a configuration error occurrence 11H LDS 15H LAS 19H LPS 1DH alAo a o ja2 a A aloo oa ojo On when the operation results are mismatched 0 OFF 1 ON PECIFICATION ea MELSEC Q 9 Error Slave List Buffer memory address 21H to 22H 23H to 24H Un G33 to Un G34 Un G35 to Un G36 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Not used 0 fixed The error slave list can be used to check the slave for a communication error occurrence in the projected operation mode The result of Logical AND on the reverse active slave list LAS and the projected slave
135. tion to the power supply capacity before mounting modules and if the power supply capacity is insufficient change the combination of the modules Applicable CPU module Base unit No of modules CPU type CPU model Extension base unit awo oa to 24 i laozHcPU Performance n to 64 model QCPU eeo _ ga a eu Process CPU aosPHcPu Up to 64 lQ25PHCPU Q12PRHCPU Redundant CPU a2sPRHcpu P to 53 lQ25PRHCPU QO02UCPU Up to 36 Universal model QCPU Safety CPU___ s001CPU nma ooo S x i x Ef QO6CCPU V C Controller module Up to 64 QO6CCPU V B O Applicable X N A 2 1 2 1 2 SYSTEM CONFIGURATION MELSEC Q 1 Limited within the range of I O points for the CPU module 2 Can be installed to any I O slot of a base unit b Mounting toa MELSECNET H remote I O station The QJ71AS92 cannot be mounted to any MELSECNET H remote I O station Mount it to a CPU module on a master station 2 Support of the multiple CPU system When using the QJ71AS92 in a multiple CPU system refer to the QPU User s Manual Multiple CPU System first a Compatible QJU71AS92 The function version of the first released QJ71AS92 is B and it supports multiple CPU systems b Intelligent function module parameters Write intelligent function module parameters to only the control CPU of the QJ71AS92 3 Supported software packages Relation between the system containing the QJ71AS92 and software package is shown in
136. to monitor the communication status of each A slaves slave number Operating procedure Monitor Test screen A slaves LAS Setting screen A slaves List of Active Slaves LAS Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QU71AS92 Setting item Current value Setting value Inactive Inactive Inactive Slave Address 9A Inactive Slave Address 104 Inactive Slave Address 114 Inactive Flash ROM setting Details Current value Monitoring display Cannot execute test L Make text file Stop monitor Refer to Section 3 4 2 6 for details of the setting items 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 5 B slaves List of Active Slaves LAS Purpose Used to monitor the communication status of each B slaves slave number Operating procedure Monitor Test screen B slaves LAS Setting screen B slaves List of Active Slaves LAS Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71AS92 Setting item Current value Setting value Slave Address 1B Slave Address 2B Slave Address 3B Slave Address 4B Slave Address 5B Slave Address 6B Slave Address 7B Slave Address 8B Slave Address 9B Slave Address 10B Slave Address 11B Flash ROM setting Details Current value Monitoring display Cannot execute test Make text file Stop monitor
137. type AS i Master Module Module model name QJ71AS92 Start 1 0 No 0000 Setting item Current value x00 Module Ready Operation enabled Setting value lt 02 Command Completion Command not Completed 03 Configuration Register Completion Not Registered lt 04 Configuration Error Configuration Error S05 AS i Power Fail X06 Normal Operation Active 07 Configuration Mode Active Y 12 Command Execution Request Y13 Configuration Register Request Y14 0ffline Phase Insufficient Power Supply Some Other Phase Some Other Mode No Request No Register Request Normal Operation No Request No Register Request Normal Operation MELSEC Q Y15 Auto Address Assignment Function Enable Enable Flash ROM setting Details Current value Monitoring display Cannot execute test Make text file Stop monitor Monitor Test items Y12 Command Execution Request Section 3 3 2 2 Y13 Configuration Register Request Section 3 3 2 3 Y14 Offline Phase 16 Configuration Mode Section 3 3 2 10 1C EEPROM write Section 3 3 2 012 1D Refresh Instruction Section 33 2013 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 5 2 A slaves List of Detected Slaves LDS Purpose Used to monitor the detection status of each A slaves slave number Operating procedure Monitor Test screen A slaves LDS Setting screen A
138. ule Initial setting Auto refresh setting QJ71AS92 0 Not used 30 Max Example Counting the number of parameter settings in Auto refresh setting Auto refresh setting Module information Module type AS i Master Module Start 1 0 No 0000 Module model name QJ71AS92 PLC side Module side Module side Module side Transfer Buffer size fer Buffer offset direction gt word count E l o gt This one row is counted as one setting Blank rows are not counted A slaves List of Active Slaves LAS E asthe Te a Count up all the setting items on this screen and Belaves iist of Projected Slaves E add the total to the number of settings for other LPS For Read A P B slaves Listof Projected Slaves 3 intelligent function modules to get a grand total LPS For Read arr slaves that differ from settings B slaves List of slaves that differ from settings A slaves List of Detected Slaves LDS Make text file 5 UTILITY PACKAGE GX Configurator AS MELSEC Q 5 2 2 Operating environment This section explains the operating environment of the personal computer that runs GX Configurator AS Installation Add in target Add in to GX Developer Version 4 English version or later Windows based personal computer CPU Refer to the following table Operating system and performance required for personal Required memory computer
139. ult occurs in the QJ71AS92 8 1 Checking Items at Error Occurrence First check the QJ71AS92 as follows 1 6 Check RUN and U ASI LED e If RUN LED of QJ71AS92 is off check whether the power supply is supplied to programmable controller e If U ASI LED is off check the current rating of AS i power supply wiring Check ERR LED e If the ERR LED of the QJ71AS92 is on check the slave status and wiring e Check the error code at the buffer memory address COH and take corrective action See Section 8 3 for the error codes Check the external power supply for slave If this power supply capacity is not enough or miss wiring is the slave will not normally operate Check the total number of slaves e The total number of slaves should be calculated according to the expression in Section 3 1 e Check for overlapping slave addresses Check whether slaves are configured as intended e Check whether the slave are correctly connected e Check the slave list that differs from the settings buffer memory addresses 1DH to 20H and reexamine the corresponding slave Check total extension distance e The total extension distance must not exceed 100m However when the repeater is used it is possible to extend the distance by 100m per repeater A maximum of two repeaters can be used in series 8 TROUBLESHOOTING 8 2 Error Checking 8 2 1 LED check MELSEC Q Check the following items
140. ure that could have been avoided if functions or structures judged as necessary in the legal safety measures the user s device is subject to or as necessary by industry standards had been provided 4 Failure that could have been avoided if consumable parts battery backlight fuse etc designated in the instruction manual had been correctly serviced or replaced 5 Failure caused by external irresistible forces such as fires or abnormal voltages and Failure caused by force majeure such as earthquakes lightning wind and water damage 6 Failure caused by reasons unpredictable by scientific technology standards at time of shipment from Mitsubishi 7 Any other failure found not to be the responsibility of Mitsubishi or that admitted not to be so by the user 2 Onerous repair term after discontinuation of production 1 Mitsubishi shall accept onerous product repairs for seven 7 years after production of the product is discontinued Discontinuation of production shall be notified with Mitsubishi Technical Bulletins etc 2 Product supply including repair parts is not available after production is discontinued 3 Overseas service Overseas repairs shall be accepted by Mitsubishi s local overseas FA Center Note that the repair conditions at each FA Center may differ 4 Exclusion of loss in opportunity and secondary loss from warranty liability Regardless of the gratis warranty term Mitsubishi shall not be liable for compensation o
141. urns ON when the QJ71AS92 detects slave 0 c Bit 2 Automatic Address Assignment Function Bit 2 checks whether the automatic slave address assignment function is valid or invalid Bit 2 turns ON when the automatic slave address assignment function is enabled in the protected operation mode Related item Section 3 3 2 9 d Bit 3 Automatic Address Assignment Available Bit 3 checks the operation conditions of the automatic slave address assignment function Bit 3 turns ON when the automatic slave address assignment function is enabled and only one of the set slaves is not recognised in the protected operation mode Refer to Section 4 5 4 3 17 3 17 3 SPECIFICATIONS MELSEC Q e Bit 4 Configuration Mode Active Refer to Section 3 4 2 1 d f Bit 5 Normal Operation Active Refer to Section 3 4 2 1 c g Bit 6 AS i Power Fail APF Refer to Section 3 4 2 1 b h Bit 7 Off line Phase Active Bit 7 checks whether the QJ71AS92 is in the offline phase or not Bit 7 turns ON when the QJ71AS92 is in the offline phase i Bit 8 Peripheral Faults Bit 8 detects the peripheral fault of the slave Bit 8 turns ON when the QJ71AS92 detects the peripheral fault of the slave Check the detection conditions of a peripheral fault in the manual of the slave Bit 8 turns ON when the QJ71AS92 is in the phase other than the normal operation mode List of Detected Slaves LDS Buffer memory address 11H to 12h 13H
142. ving the communication error will be held or cleared depending on the slave specifications The AS i system communication error can be confirmed with the buffer memory s List of Active Slaves LAS 15H to 18H and with the input signal Configuration error X4 Using the above information configure an interlock circuit on the sequence program so that the system activates safely There is a risk of accidents caused by incorrect outputs or operations e Depending on the module fault the input output could enter ON or OFF status Provide an external monitoring circuit for I O signals that could lead to major accidents A CAUTION e Do not bundle AS i cable together with main circuit or power lines or lay them close to these lines As a guide separate these lines by a distance of at least 100 mm otherwise malfunctions may occur due to noise INSTALLATION PRECAUTIONS A CAUTION e Use the programmable controller in an environment that meets the general specifications in CPU module User s Manual Using the programmable controller in an environment outside the range of the general specifications could result in cause electric shock fire erroneous operation and damage to or deterioration of the product e Do not touch conductive parts or electronic components of the module with your bare hands This could cause malfunction or failure of the module e While pressing the lever on the lower part of the module fully insert the module
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