Analog-Digital Converter Module User's Manual
Contents
1. System Monitor Monitor System Monitor r Installed status r Base Base Module 0 a 2 3 4 MasterPLC E IE mig kan base QE4RAU U U U O O 2 ia mmo Unmo Unmo Unmo D untijuntijunti junti m mj l pting ng jng ng Q12PHCPU m m EE OO OO l mi r Parameter status r Mode I O Address 0 lo zo 30 40 System monitor Online module change Diagnostics Q12PHCPU Module s Detailed Information es me ese a ee Base Information Status Start monitor Product Inf List O Module system error Module error g Module warning g Module change Stop monitor Close Click the Execution button to enable a module change Online module change r Operation r Target module Module change execution 1 0 address O00H B S Module name Q644D Installation confirmation r Status Module control restart Change module selection completed r Status Guidance Please turn off Y signal of the changed module when you change the intelligent function module Cancel If the following error dialog box appears the user range cannot be saved Click the OK button and execute the operations described 2 c or later in this section MELSOFT series GX Developer A The target module didn t respond The task is advanced to the installation confirma2. Offset gain settings is performed Current module QE8A4DV Function Version C 0000H Error code S Error Module type A D Conversion Module Start 1 0 No 0000 Module model name Q68ADV Function Version C Setting item Current value Setting value Offset setting Channel Setting state selection Offset setting Gain setting Channel No CH1 Time number of times specifying tir Number of times CH1 Average time average number of times setting Time 2 to 5000ms Number of times 4 to 62500 CH2 A D conversion enable disable setting Enable CH2 Averaging process setting lir Sampling CH2 Time number of times specifying Number of times CH2 Average time average number of times setting Time 2 to 5000ms Number of times 4 to 62500 CH3 A D conversion enable disable setting Enable Current value display Make text file Gain setting it CH1 Registration Conversion characteristic Enable Disable Conversion characteristic Conversion characteristie x p Analog Range settin 4095 g Rang g Analog Voltage E Range setting Normal resolution x r Oftset Gain setting Offset value Gain value V 10 00 Range settings r Analog Digital conversion Analog gt Diaital C Digital gt Analog Analog value V 5 00 4096 Digital value 200
3. elo flola a o y jja JE T 3l s le eS z A ae AD D Sy 0 20mA H U y 23 0 91 Le 90 3 55 27 4 1 08 Unit mm inch App 16 App 16 INDEX A B C D E F Absolute maximum input eeeeeeee 3 2 ACCUIACY fs E ohio auci el ed ele tae 3 1 3 9 A D conversion completed flag 3 12 3 15 A D conversion enable disable setting eect h sate ee ae eae te acest ce cake eee teh 3 10 3 25 A D conversion methods cee 3 10 A D converter module cceeeeeeeeeeees A 13 Analog inpUt sinine ekin 3 1 Applicable modules ccccseceeeteeetees 2 1 Auto refresh settings esceeee 5 1 5 15 Average time average number of times 3 25 Averaging process setting ccee eee 3 26 Averaging processing 3 10 Buffer MOMOry cen a 3 17 Channel change completed flag 3 15 Channel change request 3 16 Close parametel ccccccceeseeeesteeesteeeeees 5 12 Confirmation of conversion characteristic 5 25 Conversion speed cccecceeeceeeeeteeeeeeeeeens 3 2 Current input characteristics e0 3 6 Dedicated instruction cccceeeeeee App 3 Delete paramete
4. KS KS E r A a From sd Kil BU Read Module A D Operating CH1 digital READY conver condition Digital values sion setting output comple request ted flag FROM HO K12 D12 CH2 Digital output LR H K13 D13 CH3 Digital output Error code display and reset processing X10 XOF FROM HO K19 D14 Error Error Error code reset flag signal BCD D14 Error code SET YOF XOF 1 H if RST Error Error clear flag request KI KI Read digital output values for CH1 to 3 KI J KI Output the error code to Y20 to Y2B by BCD code K3Y20 YOF Error clear request Clear the error code YOF Error clear request END PR RAMMIN RNS MELSEC Q 2 Programming example using the intelligent function module device UD GD Set the A D conversion enabled channel initial setting it Trov H8 a CH1 to CH3 are A D conversion enabled Module READY UO Set the average number rov kao a2 of times for CH2 to 50 times oor Set the average time for MOV K1000 amp 3 CH3 to 1000 ms UO Nov H604 G9 Specify averaging processing SET Y9 Operating condition Set Y9 Operating condition setting request setting request from on to off and enable the initial setting Y9 X9 mH rst wo Operating Operating Operating condition condition condition setting setting setting request request completed Digital output value read processing XI XO XOE Y9 UO N J E Mov Gil D11 Read Module A D Oper
5. ceccecceeeeeeeeneeeeeeeeeseeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeseeeeeereeteas 6 1 6 1 1 Programming example using the utility package ooo cece e eee eeee sete eee eeeeeeaeeeaeeeaeeeaeeeaeeeaeeeaeesaeenas 6 2 6 1 2 Programming example without using the utility PACKAGE eee eeeeee eens eeeeeeeeeeaeeeaeeeaeeeaeeeaeeeateees 6 4 A 10 A 10 6 2 For Use in Remote I O Network nereta naea n a n a a a N 6 6 6 2 1 Programming example using the utility package oo eee cece eeeeteeeeeeeteeeteeeseeeseneseeeeaeseneseneteneeaes 6 7 6 2 2 Programming example without using the utility PACKAGE ee eeeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeateeas 6 10 7 1 Online Module Change Conditions ccceccecceeeeeeeeeeeeeneeeneceeeeeeeeaeseaeeeaeeeaeeeaeeeaeeeaeseaeesaeeeaeeeeeeaeeeatesas 7 2 7 2 Online Module Change Operations cccecceeceeeeeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeseaeeeaeeeaeesaeeeaeeeaeeeaeeeaeeeeeeatenas 7 3 7 3 Online Module Change Procedure cecccesceeeeeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeseaeecaeeeaeeereearesatesas 7 4 7 3 1 When industrial shipment setting is used and initial setting was made with GX Configurator AD E ce teen athe ao eR cae ease ee S ATA AE E ee ae Oh E eae ncaa a 7 4 7 3 2 When industrial shipment setting is used and initial setting was made with sequence program sida les A dendeQincdus deanctacadtnadasdeauesssed acta diva a M ot yletiot olen ele ae Ree a he Gaia 7 9 7 3 3 When user range settin
6. io Averaging process setting ec aa 0 AD conversion completed ag 13 ta 16 CH3 Digital output value CH4 Digital output value Section 3 4 8 CH5 Digital output value a ar ae tor lt CH6 Digital output value ae a a Se CH7 Digital output value a o R CH8 Digital output value C ge ee oaa o e O o R Section 3 4 9 o o mn 2 O Setting range CH1 to CH4 C ee ee Section 3 4 10 ra ae eee Setting range CH5 to CH8 rr E eee e Offset gain setting mode Offset specification 2 BY ston 41 Section 3 4 11 Offset gain setting mode Gain specification tin EEE EE ee w i ar i Ses System area 2 CH1 Maximum value CH1 Minimum value CH2 Maximum value CH2 Minimum value N errr CH3 Maximum value w E 9n Coi Ee E a al ree CH2Digtaloutputvae o R o R C en a CH3 Minimum value CH4 Maximum value CH4 Minimum value K1 Indicates whether reading from and writing to a sequence program are enabled R Read enabled W Write enabled PECIFICATION eC MELSEC Q Table 3 5 Buffer memory assignment Q68ADV 2 3 2 45 CH8 Minimum value System area 157 T Mode switching setting System area CA H 2AH 2Bu 2CH 2E to Du 9 Ke z Section 3 4 13 o F o 201 c c CH3 Industrial shipment settings offset value CH3 Industrial shipment settings gain value 14 20 21 Din Section 3 4 15 X1 Indicates whether reading from and
7. S Averaging processing channel specification Time number of times specification 1 Averaging processing 1 Average time 0 Sampling processing 0 Average number of times Example To average channels 1 and 5 for the set number of times and channels 2 and 7 for the set amount of time and to sample process other channels store 53424 21314 in buffer memory address 9 Un G9 b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 bd b4 b3 b2 bi bO 0 1 0 1 0 0 1 1 0 1 0 0 0 0 1 0 53421 21314 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 PECIFICATION OAE MELSEC Q 3 4 7 A D conversion completed flag buffer memory address 10 Un G10 1 When A D conversion for the channels enabled for conversion is complete A D conversion completed flag is set to 1 A D conversion completed flag XE is set to on when the conversion for all A D conversion enabled channels is complete 2 When Operating condition setting request Y9 is set to on the flag returns to the default setting of 0 and changes to 1 when A D conversion is complete 3 In the case of the Q64AD module b4 to b7 CH5 to CH8 are invalid b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 bd b4 b3 b2 b1i bO ol lol olo lo o o o CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 For the Q64AD information for b4 to b15 is fixed at 0 7 a conversion completed and for the Q68AD
8. Turns off Operating condition setting request Y9 c When switching the mode by making intelligent function module switch setting Only the common program is necessary 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 UTILITY PACKAGE GX Configurator AD 5 1 Utility Package Functions Table 5 1 shows an overview of the utility package functions Table 5 1 Utility package GX Configurator AD function list 1 Sets the following items that require initial setting e CH A D conversion enable disable setting e CH Averaging process setting e CH Time number of times specifying Initial Setting 1 CH Average time average number of times setting Section 5 4 2 The data for which initial setting has been completed is registered in the parameters for the programmable controller CPU and automatically written to the A D converter module when the programmable controller CPU changes to the RUN status 1 Sets auto refresh for the A D converter module buffer memory Auto Refresh 2 The buffer memory that was set for auto refresh is automatically read and written to the specified device when the END command for the programmable controller CPU is executed Section 5 5 Monitor test The buffer memory and I O signals for the A D converter modules are monitored and tested Operating condition setting Changes the initial setting during operation Offset gain setting Monitor test When setting the offset gain to a value select
9. Digital output value read processing X11 XO XOE Y9 nle J iv pil i ea odule ti igi digital READY conver ebndition CHI Digal values sion i setting compl oe WP request flag Transfer digital output values D11 c fino DI D102 to D13 read using auto refresh to D101 to D103 after A D oHe Digital conversion is completed outpu oy D13 D103 CH3 Digital output Error code display and reset processing X10 XOF Hf feco Di4 K3Y20 pupa ine eror cue to Y20 to Error Error Error code y code reset flag signal SET YOF Error clear request Clear the error code YOF XOF r a RT YOF Error Error Error clear reset flag request request END 6 PROGRAMMING 6 1 2 Programming example without using the utility package MELSEC Q 1 Programming example using the FROM TO commands Set the A D conversion enabled channel initial setting XO gt s LL HO KO Module READY t NNANA fT HO K2 HO K3 Operating Operating condition condition setting setting request completed Digital output value read processing XII XO XOE Y9 CH1 to CH3 are A D conversion Hs KI enabled K50 KI Set the average number of times for CH2 to 50 times K1000 KI Set the average time for CH3 to 1000 ms H604 KI Specify averaging processing Y9 Operating condition Set Y9 Operating condition setting request setting request from on to off and enable the initial setting Y9 Operating condition setting request
10. Execution completion of ON the G OGSTOR instruction G OGSTOR instruction Completion device D Status display device at completion D 1 OFF 1 scan ON OFF x1 When the G P OGSTOR instruction is executed A D conversion is not performed After the completion device D turns on A D conversion starts the A D conversion value is stored into the buffer memory and A D conversion completed flag XE then turns on A D conversion completed flag XE c When the offset gain values are restored the reference accuracy falls to about less than three times of the accuracy before that 2 Operation error In any of the following cases an error occurs and the corresponding error code is stored into the completion status area S 1 Error code Case resulting in operation error The G P OGSTOR instruction was executed in the offset gain setting mode m G P OGSTOR instruction was executed consecutively The G P OGSTOR instruction was executed for the model that differs from the model for which the G P OGLOAD instruction had been executed App 13 App 13 APPENDICES MELSEC O 3 Program example The following program is designed to read the offset gain values of the A D converter module mounted in the position of I O number X YO to X YF when M11 is turned on Control data setting MII Jf eB J Offset gain value restoration M13 j GP 0GSTOR ul D100 Meo e e M30 M31 f RST
11. 1 Dedicated instruction list The following table lists the dedicated instructions that can be used with the A D converter modules Sae Reference Instruction Description section Switches to the offset gain setting mode G P OFFGAN Appendix 2 1 Switches to the normal mode Reads the offset gain values of the user range setting to G P OGLOAD Appendix 2 2 the CPU Restores the offset gain values of the user range setting G P OGSTOR Appendix 2 3 stored in the CPU to the A D converter module When the module is mounted to a MELSECNET H remote station the dedicated instructions cannot be used 2 Available devices The following devices are available for the dedicated instructions Internal devices A Eq File register Constant XY MOiFVB Tsicow RZ x1 Word device bit designation can be used as bit data Word device bit designation is done by designating Word device Bit No Designation of bit numbers is done in hexadecimal For example bit 10 of DO is designated as DO A However there can be no bit designation for timers T retentive timers ST and counters C App 3 App 3 APPENDICES MELSEC Q Appendix 2 1 G P OFFGAN Switches the mode of the A D converter module Normal mode to offset gain setting mode offset gain setting mode to normal mode Usable devices Ee device direct device Intelligent 7 constant Setting Ee user Sig function
12. 2 D MELSEC Q c After confirming that the RUN LED of the module has turned off remove the terminal block and dismount the module Always dismount the module If mounting confirmation is made without the module being dismounted the module will not start properly and the RUN LED will not be lit 3 Mounting of new module a Mount anew module to the same slot and install the terminal block b After mounting the module click the Execution button and make sure that the RUN LED is lit Module READY X0 remains off Online module change x r Operation r Target module __ Module change execution 1 0 address O00H G Module name Q644D Installation confirmation r Status Module control restart 3 Changing module r Status Guidance The module can be exchanged Please execute after installing a new module Cancel 4 Operation check a To make an operation check click the Cancel button to cancel control resumption Online module change x r Operation r Target module __ Module change execution 1 0 address OOOH p Module name Q644D Installation confirmation Status Change module installation completion Module control restart r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh
13. 3 13 Write data error codes s 3 29 Operating condition setting request 3 16 Write to PEC rarioa E aes 5 12 Operating environment cceeeeeeeeeees 5 4 X X Y MONItOL teSt oe ee eee eee eee eteeeeeeeeteeeeeeeee 5 17 P Part identification nomenclature ee 4 3 Pass dataene en a iaiia 5 27 5 29 Pass data classification setting 3 25 Programing e enie E latieietiaaees 6 1 Q QA Did ares ran a er rE E a ie 1 1 OBSADD anrr aa iaa Rain 1 1 GG ADM xt etn ee ate eae ANTE 1 1 QCPU Q mode c ceceeceeteeseteteeeteeteeiees A 13 R Read from PLC cceeceeeceeeteeeeeeeeeeeeeereenreeas 5 12 Resolution mode eeeeceeeeeseeeeeeeeteeeereeteees 3 10 RUN LED nirape sna 4 3 S Sampling processing 3 10 Save parametel cccccccceeeeeeeseeeesneeesees 5 12 Setting range aseeni k einir eee tee eeeeeetteeteeeteees 3 29 Setup and procedures before operation 4 2 Switch setting for intelligent function module lia ee eae 4 8 T Temperature drift compensation function 3 10 Temperature drift compensation flag 3 13 TORE etetes hae ai 5 8 Transfer setup c ceeeeceeeeeeeeeeeseeeeentetsaees 5 13 Troubleshooting 8 1 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 respo
14. 4 0V c Gain value Offset value lt 10 0V 4 When an analog value that exceeds the range for Digital output value is entered Digital output value will be fixed at the maximum or minimum value EMRE resolution mode High resolution mode setting Minimum Maximum Minimum Maximum oto5V e to5V 4095 0 to 10 V User range setting 8 PECIFICATION eda MELSEC Q 2 Current input characteristic a Current input characteristic in normal resolution mode Figure 3 3 shows a graph of the current input characteristic in normal resolution mode Analog input practical range Digital output value 10 Analog input current mA Analog input f Ba 2 Maximum Number Offset value Gain value Digital output value f range setting resolution 4 t020 mA 0 to 4000 0 to 20 mA beeen User range setting 4000 to 4000 1 37 UA Figure 3 3 Current input characteristic in normal resolution mode PECIFICATION eda MELSEC Q b Current input characteristic in high resolution mode Figure 3 4 shows a graph of the current input characteristic in high resolution mode Analog input practical range Digital output value 10 Analog input current mA Analog input e x2 Maximum Number Offset value Gain value Digital output value 3 range setting resolution 4 to 20 mA 133 MA 0 to 12000 0 to 20 mA 166 MA P User range setting 12000
15. 8 2 4 Checking the A D converter module status using GX Developer system monitor eee 8 5 Appendix 1 Function Upgrade for the A D Converter Module 2 ccceccceeeeeeeeeeeeeeeneeeeeeeeeeneeseneees App 1 Appendix 1 1 A comparison of functions of the A D converter module ccecceeeeeeeeeeteteetenees App 1 Appendix 1 2 Combinations of A D converter module functions and GX Configurator AD Software Versions iire ioen inet eene ra ee aei eiaa aa ae aaa Teraa aara ae aeaea aaas eiai App 2 Appendix 1 3 Precautions for replacing the module of function version A with the one of function versi n BOr latei zn a hela a aaa age leet eae eee a aa App 2 Appendix 2 Dedicated Instruction List and Available Devices 2 ccccceeeeeceeeeeeeeeeeeeeeteeeeteeeteeees App 3 Appendix 2I C PY OFF GAN e E A ea D App 4 Appendix 2 2 C PY O G OAD e a a e ea a aa a a ra a aeee e Aaeeea Deant leaa iaaa App 6 Appendix 2 3 G P OGST OR vivienncied en dieiehsaeedev ii E A A App 10 Appendix 3 External Dimension Diagram ccsccceccceeeceeeeeeeeeeeeeeaeeececeeeaeeseaeescaeeeeeeseeneeseaeeseaeeeeneess App 15 INDEX Index 1 to Index 2 ABOUT MANUALS The following manuals are also related to this product If necessary order them by quoting the details in the tables below Related Manuals Manual Number Manual Name Model Code GX Developer Version 8 Operating Manual Describes the methods of using G
16. After the module has failed data may not be saved properly Referring to Section 3 4 15 therefore prerecord the data to be saved offset gain values of Industrial shipment settings and User range settings in the buffer memory 4 It is recommended to perform an online module change in the actual system in advance to ensure that it would not affect the other modules by checking the following e Means of cutting off the connection to external devices and its configuration are correct e Switching on off does not bring any undesirable effect 5 Do not install remove the module to from the base unit or the terminal block to from the module more than 50 times after the first use of the product IEC 61131 2 compliant Failure to do so may cause malfunction Note Dedicated instructions cannot be executed during online module change When execution of a dedicated instruction is needed to save and restore data execute it using another system wa If no other system exists restore the data by writing them to the buffer memory 1 If the module is mounted on a remote I O station execute save restoration on another system connected to the main base unit Saving and restoration cannot be executed by using a system connected to remote I O station 7 ONLINE MODULE CHANGE MELSEC Q 7 1 Online Module Change Conditions The CPU MELSECNET H remote I O module A D converter module GX Developer and base unit given below are neede
17. CH3 Average time average number of times setting 4000 Peles Module information fee type A D Conversion Module Start 1 0 No 0000 Module model name Q644D CH1 A D conversion enable disable setting CH1 Averaging process setting CH1 Time number of times specifying CH1 Average time average number of times setting Time 2 to 5000ms Number of times 4 to 62500 CH2 4 D conversion enable disable setting CH2 Averaging process setting CH2 Time number of times specifying Enable Sampling Number of times Enable Sampling Number of times Details Select input Make text file End setup b Auto refresh setting refer to Section 5 5 CH1 Digital output value D11 CH2 Digital output value D12 CH3 Digital output value D13 Error code assisia D14 mE Module information Module type A D Conversion Module Start 1 0 No 0000 Module model name Q644D Module side Module side Transfer PLC side Setting item Buffer size Transfer Gare Device word count Make text file 6 PROGRAMMING MELSEC Q c Writing the intelligent function module parameters refer to Section 5 3 3 Write the intelligent function module parameters to the CPU module This operation is performed using the parameter setting module selection screen 2 Programming example
18. Range setting Normal resolution Pf r Offset Gain setting Offset value V ooz Gain value 10 00 4 Range settings m Analog Digital conversion Analog gt Digital C Digital gt Analog Analog valuefV 5 00 4096 Digital value Explanation of items 1 Items displayed on the screen I O characteristic diagram Displays the I O conversion characteristic to the prepared offset gain setting 2 Setting details Analog Range setting Analog Select the type of the analog signal input voltage or current Range setting Make selection from Normal resolution or High resolution For digital input values and maximum resolution of the normal resolution mode and high resolution mode refer to the POINT 2 in this section Offset Gain setting Offset value Enter an offset value to display the I O characteristic diagram Gain value Enter a gain value to display the I O characteristic diagram 5 25 5 25 5 UTILITY PACKAGE GX Configurator AD MELSEC Q Analog Digital conversion Select a conversion type shown below for confirming the correspondence between an analog value and a digital value caused by the conversion characteristic e Digital Analog e Analog Digital Analog value lt When converted to a digital value gt Enter an analog value to be converted to a digital value lt When converted to an analog value gt The analog value converted from a digital value is di
19. System S 12 CH1Userrange settings offsetvalue System S 13 CH1 User range settings gainvalue CLC system S 14 CH2 User range settings offsetvalue System S 15 CH2Userrange settings gainvalue CLC system S 16 CH3 User range settings offsetvalue CLS system S 17 CH3 User range settings gainvalue system S 18 CH4 User range settings offsetvalue CL System S 19 CH4 User range settings gainvalue Cid CL System x1 Set only the pass data classification setting S 2 If data is written to the area set by the system the offset gain values will not be read properly Control data of the Q68ADV 1 2 Setting data Setting range _ Set by SoA Syston atgaie ee ee i ee et Stores the status when the instruction is complete S 1 Completion status 0 Normal completion System Other than 0 Abnormal completion mee T S 4_ CH1 Industrial shipment settings offset value System S 5 CH1 Industrial shipment settings gainvaue CL System S 6 CH2 Industrial shipment settings offset value CL system S 7_ CH2 Industrial shipment settings gainvalue System S 8 CH3 Industrial shipment settings offset value System S 9 CH3 Industrial shipment settings gainvalue CL System S 10 CH4 Industrial shipment settings offset value System System System S
20. completed flag buffer memory address 10 Un G10 turn off Operating condition setting request Y9 Device test r Bit device Device Close 3 X Hide history FORCE ON FORCE OFF Toggle force r Word device buffer memory C Device 7 Buffer memory Module start 1 00 x Hex Address jo x DEC Setting value F HEX x 16 bit integer 7 Set r Program Label reference program MAIN of Execution history Find YS Force ON Module start 0 Address 0 D F H Find next Y3 Force OFF Re setting 7 ONLINE MODULE CHANGE MELSEC Q 2 Dismounting of module a After choosing Diagnosis Online module change on GX Developer to enter the Online module change mode double click the module to be changed online to display the Online module change dialog box System Monitor r Installed status m Base Base Module 0 1 2 3 4 MasterPLC O O Main base Expansion Oo hie xpansion Q64a Unmo Unmo Unmo Unmo c sio D untijuntijuntijunti m O l pting ng jng ng Q12PHCPU m m r Parameter status r Mode I O Address o 10 zo 30 40 System monitor Online module change Diagnostics Q12PHCPU Module s Detailed Information Base Information Oiu Start monitor Product Inf List Stop monitor Close E Mo
21. information for b8 to b15 is fixed at 0 peu CONVErSION IN progress or not used Example When A D conversion is enabled for channels 1 2 and 6 and all conversions for these channels are complete 00234 35 is stored in A D conversion completed flag buffer memory address 10 Un G10 as shown below b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 bO 0 0 0 0 0 0 0 0 0 0 1 0 0 0 1 1 100234 35 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 2 3 4 While Operating condition setting request Y9 is on 0 is stored to A D conversion completed flag of all channels 5 When reading Digital output value use this buffer memory area or A D conversion completed flag XE as an interlock PECIFICATION eda MELSEC Q 3 4 8 CHO Digital output value buffer memory address 11 to 18 Un G11 to Un G18 1 Digital output values after A D conversion are stored in CHL Digital output value buffer memory address 11 to 18 Un G11 to Un G18 for each channel 2 Digital output value is expressed with 16 bit signed binary values b15b14b13b12b11b10 b9 b8 b7 b6 b5 b4 b3 b2 b1 bO Data section Resolution 1 4000 12 bits C RS Resolution 1 12000 1 16000 14 bits gt For other than the data section and a signed bit it becomes 1 for a negative when b15 is 1 and 0 for a positive when b15 is 0 L Signed bit 1 Negative 0 Positive 3 While Operating condition setting request Y9 is on 0 is stored to the buffer me
22. transit to the offset gain setting mode xi Offset gain settings is performed Current module Q68ADV Function Version C 0000H Eror code op Channel Setting state Offset setting Channel No n selection Offset setting Gain setting A CH1 Registration Conversion characteristic Close Specify channels Place check marks in Channel selection column to specify the channels for each of which the offset or gain setting is to be made Apply current voltage Apply current or voltage to the module Execute offset gain setting For each of the channels specified in 2 click the Offset setting or button to execute respective setting Write settings into the module Write the content set by operations 2 to 4 into the module by clicking the button a Precautions Do not perform the following operations during writing the content set by clicking the button into the module If performed an error occurs in E7PROM data and the A D converter module may not operate properly e Powering off the programmable controller CPU e Resetting the programmable controller CPU 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 6 Switch to the normal mode When the offset gain setting screen is closed by clicking the Close button after the setting operation has finished module s operation mode transits to the normal mode POINT If an error code is
23. value other than 0H High resolution mode OH Normal mode A D conversion processing 1H to FH numeric value other than 0H Offset gain setting mode Switch 5 OH Fixed x2 Setting any value within the setting range will provide the same operation When the setting range is 1H to FH set 1H for example Switch 4 Depending on the type of module used the settings for A D unit input range are shown below Q64AD gt OH to 5H FH Q68ADV OH 2H to 5H FH 1 When the setting is OH the input operating range will be O to 10 V Q68ADI OH 1H FH 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q 1 If the offset gain setting mode is set using intelligent function module switch 4 other settings by switch 4 settings for resolution mode and temperature drift compensation will be ignored Setting of the offset gain setting mode differs from function version A to function version B Refer to Appendix 1 3 Perform the offset gain settings after checking the RUN LED flashes in offset gain setting mode If the RUN LED does not flash check if the switch 4 setting is correct Since Digital output value will differ considerably depending on the resolution mode setting thoroughly check the settings for the intelligent function module switches before performing the digital output processing Example Digital output value when the setting range is 10 to 10 Vanda 10 V analog value is added fe In normal resol
24. 0 Un GO 1 Sets whether the output of an A D conversion value is enabled or disabled for each channel 2 Itis necessary to set Operating condition setting request Y9 to on off in order to enable the setting Refer to Section 3 2 2 3 By default A D conversion is enabled for all channels 4 In the case of the Q64AD module b4 to b7 CH5 to CH8 become invalid b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 b bO 0 0 0 0 0 0 0 0 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 For the Q64AD information for b4 to b15 is fixed at 0 and 0 A D conversion enabled for the Q68ADV I information for b8 to b15 is fixed at 0 1 A D conversion disabled Example When the channels used for A D conversion are 1 3 5 and 8 OO6AH 106 is stored in buffer memory address 0 Un GO b15 b14 b13 b12 b11 b10 b9 b8 b7 b6 b5 b4 b3 b2 bI bO olojolojololololo 14 14 0 4 0 1 0 006A 106 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 3 4 5 Average time average number of times buffer memory addresses 1 to 8 Un G1 to Un G8 1 Sets the average time or average number of times for each channel for which averaging processing was specified 2 Itis necessary to set Operating condition setting request Y9 to on off in order to enable the setting Refer to Section 3 2 2 3 The setting range is as shown below Averaging processing by the number of times 4 to 62500 1 Averag
25. 2 Intelligent function module parameter 5 7 Intelligent function module utility parameter setting module select screen 5 9 Internal current consumption e0ee 3 2 List Of FO signal Sra aia 3 12 Maximum and minimum values hold function ececeeeeeeeeeeeeeseeeeeeeeteeetsaees 3 12 Maximum and minimum values SlOlage alee ici kaaciniaaii a 3 30 Maximum resolution cccccceeteeeeeeeeeeees 3 1 Maximum value minimum value reset completed FAG eeeeeeeeeeeeeeeeeteeeteeeeeeenreees 3 15 Maximum value minimum value reset regust nienean aeia aian 3 16 Mode switching setting 1 0 3 31 Mod le READY zoia a ee 3 13 Monitor test cecceeeeceeeeeeeeeeeeeeeeeeeeeeeeeeteaees 5 17 Multiple CPU system s 2 3 Index 1 N U Normal resolution mode 3 1 Uninstall eaa E 5 2 User range settings offset gain value 3 32 O User range writing request ceeee 3 16 Offset VAlUG sirare kee eiiie ened 3 2 Utility PACKAGE ee eeceeeeeeeeeeeeeeeeeneeeeeeeeeas 5 1 Offset gain setting mode flag eee 3 14 Offset gain setting Mode 3 30 V Offset gain settings 4 10 5 21 5 23 Voltage input characteristics eee 3 3 Online module change ceeeeeeeeeeeeeteeee 7 1 Open parameter eccecceceeeeeseeeeeeeeeeeeees 5 12 W Operating condition setting ee 5 18 Weight cen tate teat a 3 2 Operating condition setting completed flag
26. 3 Partial addition SAFETY PRECAUTIONS About the Generic Terms and Abbreviations Product Structure Section 1 2 Section 2 1 Section 3 1 1 3 2 Section 4 3 4 6 Section 5 2 1 5 2 2 Section 8 1 8 2 1 Appendix 1 1 1 2 1 3 Addition Section 3 4 2 3 4 3 3 4 13 3 4 14 3 4 15 Chapter 7 Appendix 2 2 1 2 2 2 3 Renumbering Section 3 4 2 to Section 3 4 10 Section 3 4 4 to Section 3 4 12 Chapter 7 Chapter 8 Appendix 2 Appendix 3 May 2002 SH NA 080055 E f Correction Section 3 4 1 3 4 2 3 4 3 3 4 14 3 4 15 Section 4 2 4 5 4 6 Section 7 2 7 3 1 7 3 2 7 3 4 7 3 6 7 4 7 5 Appendix 1 1 2 2 2 3 Partial addition Section 3 3 2 Section 8 2 3 Print Date_ Manual Number Feb 2003 SH NA 080055 F Correction SAFETY PRECAUTIONS Section 1 2 Section 2 1 Section 3 4 1 to 3 4 3 3 4 15 Section 4 5 Section 5 1 5 2 1 5 2 2 5 3 2 5 6 1 to 5 6 3 Section 7 3 1 7 3 3 to 7 3 6 Appendix 1 1 Appendix 1 2 Appendix 2 2 Appendix 2 3 Addition Section 5 6 4 5 6 5 May 2003 SH NA 080055 G Correction Section 2 2 Section 3 4 1 3 4 2 3 4 3 3 4 14 3 4 15 Section 4 5 4 6 Section 5 3 1 2 May 2004 SH NA 080055 H Addition of program example for use on the remote I O network Correction Section 2 2 Section 4 6 Chapter 6 Section 7 1 7 3 1 to 7 3 6 Aug 2004 SH NA 080055 I Correction Section 1 1 Section 5 1 5
27. Factory setting Generic term for the following Microsoft Windows Vista Home Basic Operating System a Microsoft Windows Vista Home Premium Operating System Windows Vista ny F 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 Generic term for the following Microsoft Windows 7 Starter Operating System Microsoft Windows 7 Home Premium Operating System Microsoft Windows 7 Professional Operating System Windows 7 R i Microsoft Windows 7 Ultimate Operating System Microsoft Windows 7 Enterprise Operating System Note that the 32 bit version is designated as 32 bit Windows 7 and the 64 bit version is designated as 64 bit Windows 7 PRODUCT STRUCTURE The product structure of this product is given in the table below Model code Product name Quantity Q64AD Q64AD Model Analog Digital Converter Module 1 Q68ADV Q68ADV Model Analog Digital Converter Module Q68ADI Q68ADI Model Analog Digital Converter Module SW2D5C QADU E GX Configurator AD Version 2 1 license product CD ROM SW2D5C QADU EA GX Configurator AD Version 2 Multiple license product CD ROM 1 OVE
28. I O number X Y0 to X YF to the offset gain setting mode when M10 is turned on and to return it to the normal mode when M10 is turned off Switches to offset gain setting mode J Stores setting of dedicated MIO instruction G OFFGAN into D1 It vo KI D1 O uo D1 Dedicated instruction G OFFGAN XDA H kaaas Performs processing for offset gain setting F Switches to normal mode M10 i Stores setting of dedicated wove KO o1 W k instruction G OFFGAN into D1 TG CFFGAN UO D1 Dedicated instruction G OFFGAN XOA pE Performs processing for normal mode 7 ee 13 App 5 App 5 APPENDICES MELSEC O Appendix 2 2 G P OGLOAD Reads the offset gain values of the user range setting of the A D converter module to the CPU Usable devices Internal device Link direct device Intelligent i Constant Setting System user File JOO function Index i data module register Others register j Bit Word Bit Word device ZO K H UL GO g oO aoy gt 7 36 Instruction Execution symbol condition Command G OGLOAD G OGLOAD Un S D Command GP OGLOAD GP OGLOAD Un S D Setting data Setting data Setting range Data type Start O number of the module 0 to FEH Binary 16 bits S Start number of the device in which control data is stored ini ae ange ae Device name specified device Device that
29. If an error error code 40 _ 1 occurs during offset gain setting set the correct offset gain value again The offset gain value of the channel where the error has occurred is not written to the A D converter module 1 _Jindicates the corresponding channel number Module READY X0 turns from off to on when the offset gain setting mode switches to the normal mode by the dedicated instruction G P OFFGAN or the setting of Mode switching setting buffer memory address 158 159 Un G158 Un G159 Note that initial setting processing will be executed if there is a sequence program that makes initial setting when Module READY X0 turns on Pass data classification setting buffer memory address 200 Un G200 and Industrial shipment settings and user range settings offset gain values buffer memory address 202 to 233 Un G202 to 233 are the areas used to restore offset gain values of user range settings when online module change is made Refer to chapter 7 for details of online module change 4 SETUP AND PROCEDURES BEFORE OPERATION 4 2 Program examples The program in the dotted area of a is common to a b and c In this example the I O signals for the A D converter module are X Y0 to X YF s Channel selection sien nities ote Gees aaa iiaia ie ia MO e Offset setting cect iste tteeeettteeeeetteneentnneentnetatentententaeenttas M1 e Gain setting 10er ttrt trtne rrtt tnnt ennan n ennenen eanne M2 e Channel ch
30. Index data module register Others register Word device zO UO GO o Instruction Execution symbol condition Command G OFFGAN G OFFGAN Un S Command GP OFFGAN GP OFFGAN Un S l Setting data Setting BEN Description Setting range Data type data Un Start 1 0 number of the module 0 to FEH Binary 16 bits Mode switching 0 Switching to normal mode 1 Switching to offset gain setting mode Binary 16 bits The setting of any other value results in switching to offset gain setting mode 1 Function Switches the mode of the A D converter module e Normal mode to offset gain setting mode Offset gain setting mode flag XA turns on e Offset gain setting mode to normal mode Offset gain setting mode flag XA turns off 1 When the offset gain setting mode is switched to the normal mode Module READY X0 turns from off to on Note that initial setting processing will be executed if there is a sequence program that makes initial setting when Module READY X0 turns on 2 When the offset gain setting mode is switched to the normal mode the A D converter module holds the previous operation condition and resumes operation automatically under the previous operation condition 2 Operation error No errors App 4 App 4 APPENDICES MELSEC O 3 Program example The following program is designed to switch the A D converter module mounted in the position of
31. Industrial shipment settings gain value CL system S 20 CH1Userrange settings offsetvalue system S 21 CH1 User range settings gainvalue CC System S 22 CH2 User range settings offsetvalue CL system S 23 CH2Userrange settings gainvalue Ci System S 24 CH3 User range settings offsetvalue CLC system S 25 CH3 User range settings gainvalue System S 26 CH4 User range settings offsetvalue CL system S 27 CH4 User range settings gain vaie OO System S 28 CHS User range settings offsetvaue system S 29 CHS User range settings gain vale CC System S 30 CH6 User range settings offsetvalue CL system S ings gai eT a S i E e S ings gai Se S a CH6 Industrial shipment settings gain value System App 11 App 11 System i System APPENDICES MELSEC Q Control data of the Q68ADV 2 2 Setting data Setting range_ Set by S 35 CH8 User range settings gain value Cd CC System Control data of the Q68ADI Setting data Setting range _ Set by s Systemarea o i o Stores the status when the instruction is complete S 1 Completion status 0 Normal completion System Other than 0 Abnormal completion 8 3 System area S 4_ CH1 Industrial shipment settings offset value _ S 5 CH1 Industri
32. Initial setting screen Start I O No Module type Module model name gt Initial setting b Auto refresh setting screen Start I O No Module type Module model name gt Auto refresh c Select monitor test module screen Online Monitor Test x1 Enter the start I O No in hexadecimal On the lt lt FB support parameter gt gt tab a FB conversion screen lt lt FB support parameter gt gt tab For details refer to section 5 7 The lt lt FB support parameter gt gt tab is displayed when the project which is being edited is a label project 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 2 Command buttons Common operations to the lt lt Intelligent function module parameter gt gt tab and lt lt FB support parameter gt gt tab Deletes the initial setting and auto refresh setting of the selected module However if initial setting and auto refresh setting have been prepared and the cell of initial setting or auto refresh is selected and executed only the setting of the selected cell is deleted Closes this screen When the lt lt FB support parameter gt gt tab is selected Moves the setting of the selected line to the lt lt Intelligent function module parameter gt gt tab When the lt lt Intelligent Function Module Parameter gt gt tab is selected FB parameter gt gt Moves the setting of the selected line to the lt lt FB support para
33. Is A D conversion enable disable setting for the channels to use set to A D conversion disabled Has Operating condition setting request Y9 been executed Verify that the offset gain settings are correct refer to Sections 4 6 5 6 2 and 5 6 3 If the user range is being used switch to a different default input range and check if A D conversion is correctly performed If it is correctly performed redo the offset gain settings Check Setting range buffer memory address 20 21 Un G20 Un G21 in GX Developer system monitor If the input range setting is incorrect reset the intelligent function module switch of GX Developer refer to Section 4 5 Check the on off status of High resolution mode status flag X8 in GX Developer system monitor If the resolution mode setting is incorrect reset the intelligent function module switch of GX Developer refer to Section Check the on off status with A D conversion enable disable setting buffer memory address 0 Un GO in GX Developer system monitor and review the initial setting of the sequence program or utility package refer to Section 3 4 From GX Developer set Operating condition setting request Y9 from on to off and check if a digital output value is stored in CHL Digital output value buffer memory address 11 to 18 Un G11 to Un G18 If so review the initial setting of the sequence program or utility package refer to Section 3 3 The module may be faulty if Digita
34. M13 Meo M31 RS RT Performs processing at abnormal completion ee w J App 14 App 14 APPENDICES MELSEC Q Appendix 3 External Dimension Diagram 1 Q64AD FT a P Py s Ep s P F P IEH T Y m 90 3 55 27 4 1 08 m pa Unit mm inch 2 Q68ADV n 1 Q68ADV i gels SEO NEO SEO GEO SEO OFO NEO SEO ele Like L le L Ie LLKILIEL Ik Pris Pi Pie P amp P il le Pe PF ik NN NN NNNNA pis P 13 ip 7 a Lt D 15 l oe 18 Ae 17 iD pI E Fo BN 8 q LA oy eaw V P U lt l Z4 J 23 0 91 le 90 3 55 27 4 1 08 Unit mm inch App 15 App 15 APPENDICES MELSEC O 3 Q68ADI nn fo ma a E DBZ a T Q68ADI IO oro O I0 mIo FLO vIO PIO gt je i T Est F Ea ae e E Fs z ANNANN NANNA 98 3 86
35. Module change execution 1 0 address 000H G ca Module name Q644D Installation confirmation r Status Module control restart Changing module r Status Guidance The module can be exchanged Please execute after installing a new module 4 Operation check a To make an operation check click the Cancel button to cancel control resumption Online module change x r Operation r Target module __ Module change execution 1 0 address O00H A Module name Q644D Installation confirmation r Status Module control restart Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel b Click the OK button to leave the Online module change mode MELSOFT series GX Developer GZ _ The online module change mode is stopped Even if the stop is executed the online module change mode on the PLC side is not cancelled Please execute the online module change and restart the control of the module again 7 NLINE MODULE CHANGE C MELSEC Q c Click the Close button to close the System monitor dialog box System Monitor Installed status p o f a f e e g a ee ee masce CILI
36. S ings gai CO S i EO a y o S ings gai CO S i ES fe o o S ings gai pT S S ET e U CH5 Industrial shipment settings offset value S 29 CH5 User range settings gain value 30 CH6 User range settings offset value System 31 System 32 CH7 User range settings offset value System 33 CH7 User range settings gain value System 34 CH8 User range settings offset value System 35 CH8 User range settings gain value System App 12 App 12 APPENDICES MELSEC Q 1 Functions a Restores the offset gain values of the user range setting stored in the CPU to the A D converter module b There are two types of interlock signals for the G P OGSTOR instruction the completion device D and the status display device at completion D 1 1 Completion device Turns on in the END processing of the scan where the G P OGSTOR instruction is completed and turns off in the next END processing 2 Status display device at completion Turns on and off depending on the completion status of the G P OGSTOR instruction Normal completion Stays off and does not change Abnormal completion Turns on in the END processing of the scan where the G P OGSTOR instruction is completed and turns off in the next END processing END processing END processing END processing END processing Sequence progam 5 t RT TG
37. Short circuit the input terminals terminal V and V of the unused channel 3 Connect the A G terminal to the GND terminal of the external device 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q 2 Q68ADV 2 i V z N sooro V am V GND AG V L FG 3 x1 Shielded Sh x4 x1 Use a twisted two core shielded wire for the power wire 2 Shows input resistance of the Q68ADV 3 A G terminal does not normally require wiring However it can be used as GND for external device ground under the following conditions 1 When there is a difference in polarity between A G and GND for external device 2 As an alternative for 0 V input when only the side is open on a wire x4 Always use a ground In addition ground the FG of the power supply module In an unused channel if terminals remain open an erratic digital value may be output To prevent this take any of the following measures 1 Select Disable in A D conversion enable disable setting for the unused channel Note that changing the setting from Enable to Disable will reduce the sampling time 2 Short circuit the input terminals terminal V and V of the unused channel 3 Connect the A G terminal to the GND terminal of the external device 3 Q68ADI 500kQ I iz i 500K Y GN
38. Y Y Y YO Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9 A B C D E YF ae ee a aa ae cae va a ve ae O x8_ _Highresolution mode statusffag vs oy ae ow O oye EE C e x1 These signals cannot be used by the user since they are for system use only If these are turned on off by the sequence program the functioning of the A D converter module cannot be guaranteed PECIFICATION Sa MELSEC Q 3 3 2 Details of I O signals I O signals for the A D converter modules are explained in detail below 1 Input signals Signal Name 1 When the programmable controller CPU is powered on or reset this signal turns on once the preparation for A D conversion has been completed and A D conversion processing is then performed X0 Module READY 2 When Module READY signal is off A D conversion processing is not performed Module READY X0 turns off in the following situations During offset gain setting mode e When the A D converter module has a watchdog timer error 1 When A D conversion processing is being performed with the temperature drift Temperature drift ere F compensation function on the flag indicating Temperature drift compensation flag compensation flag X1 tums on u High resolution This turns on when in high resolution mode mode status flag This signal is used as an interlock condition for turning on off Operating condition setting request Y9 when the following setti
39. conversion has stopped Operating condition setting PT Settingitem OT Cuentvas Setting valued Enable i Sampling Disable M Enable Start monitor Stop moniter 7 NLINE MODULE CHANGE Z eee ea MELSEC Q b After making sure that the indication in the Current value field of CH_ A D conversion enable disable setting is Disable change the Setting value field of Operating condition setting request to Setting request and click the Execute test button to stop conversion Operating condition setting ie x Module information Module type A D Conversion Module Start 1 0 No 0000 Module model name 0644D Function Version C CH3 A D conversion enable disable setting Enable CH3 Averaging process setting i Sampling CH3 Time number of times specifying Number of times CH3 Average time average number of times setting Time 2 to 5000ms Number of times 4 to 62500 H44 D conversion enable disable setting Enable H4 Averaging process setting i Sampling Number of times CH4 Average time average number of times setting Time 2 to 5000ms Number of times 4 to 62500 perating condition setting request Setting request Flash ROM setting Details Write to Current value Monitoring madule display Select input Read from Load file Mak fil module sa ie Cole No request Setting request Start monitor Sto
40. described in Section 7 3 6 2 c and later MELSOFT series GX Developer The target module didn t respond The task is advanced to the installation confirmation 7 ONLINE MODULE CHANGE MELSEC Q c After confirming that the RUN LED of the module has turned off remove the terminal block and dismount the module Always dismount the module If mounting confirmation is made without the module being dismounted the module will not start properly and the RUN LED will not be lit 3 Mounting of new module a Mount the dismounted module and new module to the other system b Using the G P OGLOAD instruction save the user set values to the CPU device Refer to Appendix 2 2 for the G P OGLOAD instruction c Using the G P OGSTOR instruction restore the user set values to the module Refer to Appendix 2 3 for the G P OGSTOR instruction d Dismount the new module from the other system mount it to the slot from where the old module was dismounted in the original system and install the terminal block e After mounting the module click the Execution button and make sure that the RUN LED is lit Module READY X0 remains off Online module change Operation Target module Module change execution 1 0 address 000H G k A Module name Q644D Installation confirmation Status Module control restart Changing module r Status Guidance The module can be exchanged P
41. displayed while performing the setting operation the details and measure of the error can be confirmed by clicking the _ button to the right of the error code display area In addition the error code can be cleared by clicking the Error clear button 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 6 3 Offset gain setting operation Function version B or earlier Perform the offset gain setting operation in the following sequence 1 2 Switch to the offset gain setting mode Change switch 4 for intelligent function module switch setting to the offset gain setting mode refer to Section 4 5 Switch to the offset gain setting screen Display the offset gain setting screen using the operation described in Section 5 6 1 xi Offset gain settings is performed Current module Q684D1 0000H Enror code _ Error clear Channel __ Setting state Offset setting selectio ji i election Offset setting Gain setting Gans Channel No Reaistration Conversion characteristic Close Specify channels Place check marks in Channel selection column to specify the channels for each of which the offset or gain setting is to be made Apply current voltage Apply current or voltage to the module Execute offset gain setting For each of the channels specified in 3 click the Offset setting or button to execute respective setting Write settings into the module Write th
42. ee 2 Setting range CH1 to CH4 See Section 3 4 10 eee Setting range CHS to CH8 E ae ees _ 2 Offset gain setting mode Offset specification 2 BY seton 41 Section 3 4 11 Offset gain setting mode Gain specification Sorin EEE EE ee w i ar i Ses System area 2 CH1 Maximum value CH1 Minimum value CH2 Maximum value CH2 Minimum value N reer CH3 Maximum value w Section 3 4 8 CH3 Minimum value CH4 Maximum value CH4 Minimum value K1 Indicates whether reading from and writing to a sequence program are enabled R Read enabled W Write enabled PECIFICATION eC MELSEC Q Table 3 6 Buffer memory assignment Q68ADI 2 3 It m Description Defau Read write 1 Reference section 2 45 CH8 Minimum value System area 157 T Mode switching setting System area CA H 2AH 2Bu 2CH 2E to Du 9 Ke z Section 3 4 13 o F o 201 c c CH3 Industrial shipment settings offset value CH3 Industrial shipment settings gain value 14 20 21 Din Section 3 4 15 X1 Indicates whether reading from and writing to a sequence program are enabled R Read enabled W Write enabled k2 Areas used to restore the user range settings offset gain values when online module change is made Refer to chapter 7 for details of online module change A k2 2 k k2 5 2 CH4 Industrial shipment settings offset value 7 CH4 Industrial shipment settings gai
43. for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel b Click the OK button to leave the Online module change mode MELSOFT series GX Developer i The online module change mode is stopped a Even if the stop is executed the online module change mode on the PLC side is not cancelled Please execute the online module change and restart the control of the module again 7 ONLINE MODULE CHANGE c d e MELSEC Q Click the Close button to close the System monitor dialog box System Monitor r Installed status m Base Base Module MasterPLC gt z QLZPHCPU Unmo Unmo Unmo Unmo untijunti juntijunti r Parameter status gt Mode I O Address o io zo 30 40 System monitor Online module change Q1Z2PHCPU Diagnostics Module s Detailed Information Base Information Start monitor Product Inf List r Status E Module system error C Module error a Module warning g Module change Stop monitor Set the channels to be used to A D conversion enabled in A D conversion enable disable setting buffer memory address 0 Un GO and turn on or off Operating condition setting request Y9 Monitor CHL Digital output value buffer memory address 11 to 18 Un G11 to Un G18 t
44. gain setting mode flag XA User range writing request YA During restoration Restoration completed User range restoration processing A D conversion completed flag Buffer memory address 10 Un G10 Digital output value Buffer memory addresses 11 to 18 Un G11 to 18 During user range restoration A D conversion is stopped A D conversion completed flag buffer memory address 10 Un G10 is off and digital output value is held as previously After user range restoration A D conversion is resumed when user range setting is used A D conversion is resumed at the restored offset gain setting value PECIFICATION Sa MELSEC Q 3 4 Buffer Memory The detailed explanation of the buffer memory in Section 3 4 4 and later is based on the 8 channel analog input CH1 to CH8 of the Q68ADV and Q68ADI 3 4 1 Buffer memory assignment Q64AD This section describes the assignment of the Q64AD buffer memory Do not write data from System area or sequence program to the buffer memory area where writing is disabled Doing so may cause malfunction Table 3 4 Buffer memory assignment Q64AD 1 2 n Description Default Read write 1 eterence tie ow o AD conversion enable disable setting o Rw _ Section 3 4 4 tw 1 CH1 Average time average numberoftimes o rw 2 CH Average timelaverage numberof imes o rw Section 3 4 5 3 CHS Average time average number of times t
45. initialization request signal to perform initialization If the sequence program performs initialization only for one scan after entering the RUN status initialization is not performed 5 Resumption of control a After choosing the Diagnostics Online module change dialog box on GX Developer to display the Online module change dialog box again click the Execution button to resume control Module READY X0 is turned on Online module change x r Operation r Target module __ Module change execution 1 0 address O00H y Module name Q644D Installation confirmation Status Module control restart N p Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel b The Online module change completed dialog box appears MELSOFT series GX Developer fe YD Online module change completed 7 ONLINE MODULE CHANGE MELSEC Q 7 3 6 When user range setting is used and initial setting was made with sequence program other system is unavailable 1 Conversion disable Set A D conversion enable disable setting buffer memory address 0 Un G0 for all channel conversion disable and turn Operating condition a setting request Y9 from off to o
46. installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel b The Online module change completed dialog box appears MELSOFT series GX Developer fe YD Online module change completed 7 ONLINE MODULE CHANGE MELSEC Q 7 3 5 When user range setting is used and initial setting was made with sequence program other system is available 1 Conversion disable Set A D conversion enable disable setting buffer memory address 0 Un G0 for all channel conversion disable and turn Operating condition a setting request Y9 from off to on to stop conversion After confirming that conversion has stopped with A D conversion completed flag buffer memory address 10 Un G10 turn off Operating condition setting request Y9 Device test xi r Bit device Device Close Y9 X Hide history FORCE ON FORCE OFF Toggle force ik r Word device buffer memory C Device 7 Buffer memory Module stat 1 00 x Hex Address fo 7 DEC 7 Setting value F HEX 7 16bit integer 7 Ser r Program Label reference program f MAIN ae r Execution history Find Ya Force ON Module start 0 Address 0 D F H Find next Y3 Force OFF Re setting 7 ONLINE MODULE CHANGE MELSEC Q 2 Dismounting of module a b After choosing Diagnosis Online module change on GX Devel
47. module change 1 Set Pass data classification setting buffer memory address 200 Un G200 2 Turn Operating condition setting request Y9 from off to on 3 Compare the offset gain values of Industrial shipment settings and User range settings buffer memory addresses 202 to 233 Un G202 to Un G233 with the range reference values Refer to Section 7 4 for the range reference values 4 If the values are proper record the offset gain values of Pass data classification setting Industrial shipment settings and User range settings x1 The Q68ADV and Q68ADI do not require the setting and recording of Pass data classification setting Refer to Section 4 6 for the offset gain value setting method 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q 4 SETUP AND PROCEDURES BEFORE OPERATION 4 1 Handling Precautions 1 Do not drop the module or subject it to heavy impact 2 Do not remove the PCB of the module from its case Doing so may cause the module to fail 3 Be careful not to let foreign particles such as swarf or wire chips enter the module They may cause a fire mechanical failure or malfunction 4 The top surface of the module is covered with a protective film to prevent foreign objects such as wire burrs from entering the module during wiring Do not remove this film until the wiring is complete Before operating the system be sure to 4 remove the film to provide adequate ventilation 5 Tighten the
48. o Stores the status when the instruction is complete S 1 Completion status 0 Normal completion System Other than 0 Abnormal completion ee mee S 4_ CH1 Industrial shipment settings offset value CL System S 5 CH1 Industrial shipment settings gain vale CL System S 6 CH2 Industrial shipment settings offset value CT System S 7_ CH2 Industrial shipment settings gainvalue i System S 8 CH3 Industrial shipment settings offsetvalue CT System S 9 CH3 Industrial shipment settings gain vale CL System System System System i E ial shi E e S 14 CH6 Industrial shipment settings offsetvalue CLC system S 15 CH6 Industrial shipment settings gain vawe CC System S 16 CH7 Industrial shipment settings offsetvalue CL System S 17 CH7 Industrial shipment settings gain value CL system S 18 CH8 Industrial shipment settings offsetvalue CL System PO Syste i E e poe fSte i System Pp System i EE A o o Syste i ee Se E a o System S 29 CHS User range settings gain vaie system S 30 CH6 User range settings offsetvalue system S 31 CH6 User range settings gainvale CL System S 32 CH7 User range settings offsetvalue CLC system S 33 CH7 User range settings gainvalue OO system S 34 CH8 Us
49. of the changed module when you change the Cancel If the following error dialog box appears the user range cannot be saved Click the OK button and perform the operations described in Section 7 3 4 2 c and later MELSOFT series GX Developer O The target module didn t respond The task is advanced to the installation confirmation 7 ONLINE MODULE CHANGE c MELSEC Q After confirming that the RUN LED of the module has turned off remove the terminal block and dismount the module Always dismount the module If mounting confirmation is made without the module being dismounted the module will not start properly and the RUN LED will not be lit 3 Mounting of new module a b c d e Mount the dismounted module and new module to the other system Using the G P OGLOAD instruction save the user set values to the CPU device Refer to Appendix 2 2 for the G P OGLOAD instruction Using the G P OGSTOR instruction restore the user set values to the module Refer to Appendix 2 3 for the G P OGSTOR instruction Dismount the new module from the other system mount it to the slot from where the old module was dismounted in the original system and install the terminal block After mounting the module click the Execution button and make sure that the RUN LED is lit Module READY X0 remains off Online module change x Operation
50. setting and wiring etc and execute Cancel b The Online module change completed dialog box appears MELSOFT series GX Developer fe YD Online module change completed 7 ONLINE MODULE CHANGE MELSEC Q 7 3 2 When industrial shipment setting is used and initial setting was made with sequence program 1 Conversion disable Set A D conversion enable disable setting buffer memory address 0 Un G0 for all channel conversion disable and turn Operating condition a setting request Y9 from off to on to stop conversion After confirming that conversion has stopped with A D conversion completed flag buffer memory address 10 Un G10 turn off Operating condition setting request Y9 Device test x m Bit device Device Close vg X Hide history FORCE ON FORCE OFF Toggle force il m Word device buffer memory C Device z Buffer memory Module start 1 00 vi Hex Address jo 7 DEC 7 Setting value F HEX 7 16 bit integer 7 Set r Program Label reference program MAIN v Execution history Find Y9 Force ON Module start 0 Address 0 D F H Find next Y9 Force OFF Re setting 7 ONLINE MODULE CHANGE 2 Dismounting of module After choosing Diagnosis Online module change on GX Developer to enter the Online module change mode double click the module to be changed online to displ
51. side of the programmable controller indicates compliance with EMC and Low Voltage Directives 2 Additional measures No additional measures are necessary for the compliance of this product with EMC and Low Voltage Directives ABOUT THE GENERIC TERMS AND ABBREVIATIONS Unless otherwise specified this manual uses the following general terms and abbreviations A D converter module Generic term for Q64AD Q68ADI Q68BADV Personal computer IBM PC AT or compatible computer with DOS V GX Developer GX Works2 Product name of the software package for the MELSEC programmable controllers Generic term for analog digital converter module setting and monitor tool GX Configurator AD SW2D5C QADU E Generic term for QOOJCPU QOOCPU Q01CPU QO02CPU QO2HCPU QO6HCPU Q12HCPU Q25HCPU QO2PHCPU QO6PHCPU Q12PHCPU Q25PHCPU Q12PRHCPU Q25PRHCPU QOOUJCPU QOOUCPU Q01UCPU QO02UCPU QCPU Q mode QO3UDCPU QO4UDHCPU QO6UDHCPU Q10UDHCPU Q13UDHCPU Q20UDHCPU Q26UDHCPU QO3UDECPU QO4UDEHCPU QO6UDEHCPU Q10UDEHCPU Q13UDEHCPU Q20UDEHCPU Q26UDEHCPU Q50UDEHCPU and Q100UDEHCPU Process CPU Generic term for QQ2PHCPU QO6PHCPU Q12PHCPU and Q25PHCPU Redundant CPU Generic term for Q12PRHCPU Q25PRHCPU Personal computer Generic term for DOS V personal computer Generic term for analog input ranges 0 to 10V 0 to 5V 1 to 5V 10 to 10V 0 to 20mA and 4 to 20mA FB Abbreviation of function block GX Configurator AD
52. time Number of channels used x 80 u s 1 channel b With the temperature drift compensation function Processing time Number of channels used x 80 u s 1 channel 160 us Example When three channels channels 1 2 and 4 are A D conversion enabled with the temperature drift compensation function the sampling processing time is 400 yw s 3 x 80 160 400 u s 2 Averaging processing For channels for which averaging processing is specified A D conversion is performed for the set number of times or the set amount of time The average value is calculated from the sum of values excluding the maximum and minimum values and then stored in the buffer memory 3 10 3 10 PECIFICATION eda MELSEC Q a When averaging processing is specified for the set amount of time 1 The number of processing repetitions within the set time differs according to the number of channels used number of channels for which A D conversion is enabled and whether or not temperature drift compensation is used Without the temperature drift compensation function Number of Set time x 1000 processing repetitions Number of channels used X 80 u s 1 channel e With the temperature drift compensation function Number of z Set time X 1000 processing repetitions Number of channels used X 80 u s 1 channel 160 Example When averaging processing is performed with four channels channels 1 2 3 and 4 for the set time of
53. to 12000 1 33 WA Figure 3 4 Current input characteristic in high resolution mode PECIFICATION Se MELSEC Q 1 Set within the analog input range and digital output range for each input range If these ranges are exceeded the maximum resolution and accuracy may not fall within the performance specifications Avoid using the dotted line area shown in Figures 3 3 and 3 4 2 When inputting an analog current out of the range between 30mA to 30mA the elements may be damaged 3 Set the offset gain values for the user range setting within a range in which the following conditions are met a Offset value gain value setting range 20 0 to 20 0mA b Choose either one of the following formulas which corresponds to the resolution mode to be set 1 Normal resolution mode Gain value Offset value gt 5 5mA 2 High resolution mode Gain value Offset value 16 0mA 4 When an analog value that exceeds the range of Digital output value 7 is entered Digital output value will be fixed at the maximum or minimum value Analog input range ERT PETA mode ETA e mode setting a Maximum mel a wE A 20 mA Oto20ma O to 20 mA 4095 User range setting a 12288 12287 a Ea PECIFICATION EAE MELSEC Q 3 1 3 Accuracy Accuracy is represented with respect to the maximum value of Digital output value Accuracy does not change and remains within the range listed in the performance specifi
54. to the following manual first e QCPU User s Manual Multiple CPU System a Supported A D converter module Use an A D converter module with function version B or higher if using the module in a multiple CPU system b Intelligent function module parameters Write intelligent function module parameters to only the control CPU of the A D converter module Compatibility with online module change To make an online module change use the module of function version C or later 2 SYSTEM CONFIGURATION Q00J Q00 Q01CPU 4 Supported software packages Relation between the system containing the A D converter modules and software package is shown in the following table GX Developer or GX Works2 are necessary when using the A D converter module Single CPU system Software Version MELSEC Q GX Developer Version 7 or later Multiple CPU system Version 8 or later GX Configurator AD 1 Version 1 10L or later cannot be used with the SWOD5C QADU E 50F or earlier versions Q02 Q02H QO6H Q12H Q25HCPU Single CPU system Version 4 or later SWOD5C QADU E 00A or later Multiple CPU system Version 6 or later SWOD5C QADU E 20C or later GX Works2 Version 1 15R or later Q02PH QO6PHCPU Single CPU system Multiple CPU system Version 8 68W or later Q12PH Q25PHCPU Single CPU system Multiple CPU system Version 7 10L or later Version 1 13P or later canno
55. when registering the value after adjustment of the offset gain settings have been completed 2 Refer to Section 4 6 regarding the offset gain settings gt Performed by the A D converter module age gt Performed by the sequence program Module READY X0 Offset gain setting mode flag XA Offset gain setting User range writing request YA mode flag In normal mode 1 This signal is used as an interlock condition to turn on off User range writing request YA when the user range is restored 2 Refer to Chapter 7 for the user range restoration gt Performed by the A D converter module Performed by the sequence program Module READY xo ON Offset gain setting mode flag XA User range writing request YA PECIFICATION eda MELSEC Q 1 This is used as an interlock condition for setting Channel change request YB to on off when changing the channel for which the offset gain settings are to be performed 2 Refer to Section 4 6 regarding the offset gain settings Performed by the A D converter module ERN EE om aiin an is Se Performed by the sequence program sevgain specitications completed flag buffer memory addresses 22 and 23 Un G22 and Un G23 Channel change completed flag XB Channel change request YB 1 This signal turns on when the maximum and minimum values stored in Maximum and minimum values storage area buffer m
56. x2 When the A D converter module is function version A and the GX Configurator AD software version is the SWOD5C QDAU E 20C or later or GX Configurator AD Version 1 10L or later OFF is always displayed x3 Functions added by function version C Appendix 1 3 Precautions for replacing the module of function version A with the one of function version B or later 1 Incorporation into an existing system You can use the wiring designed for function version A as is to mount the A D converter module of function version B or later 2 Program utilization You can use the program created for function version A as is with the A D converter module of function version B or later 3 Switch setting for intelligent function module The setting of the offset gain setting mode differs between function versions A and B or later Perform the offset gain settings after checking the RUN LED flashes in offset gain setting mode If the RUN LED does not flash check to see if the switch 4 setting is correct Refer to Section 4 5 for the intelligent function module switch setting of function version B or later lt Contents of switch 4 setting for function version A gt WILL t 00H With temperature drift correction 01H to FFH Without temperature drift correction 00H Normal mode A D conversion processing 01H to FFH Offset gain setting mode App 2 App 2 APPENDICES MELSEC O Appendix 2 Dedicated Instruction List and Available Devices
57. 0 Conversion Close A 5 18 5 18 5 UTILITY PACKAGE GX Configurator AD MELSEC Q Explanation of items 1 Items Setting item Displays I O signals and buffer memory names Current value Monitors the I O signal states and present buffer memory values Setting value Select or enter the data to be written during test operation 2 Command buttons Current value display 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 items To select more than one item select them while holding down the key Closes the screen that is currently open and returns to the previous screen 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 3 Operation examples of Execute test The following explains changing CH1 A D conversion method from the sampling processing to Averaging process setting of every ten conversions and enables the settings a b Click the Operating condition setting button on the Monitor Test screen Change the setting value field for CH1 Averaging process setting to Averaging Change the setting value fiel
58. 0 can be Section 3 2 selected Section 2 1 High resolution mode status flag X8 This turns on when the high resolution mode is set Section 3 3 This signal turns on when the maximum and minimum values stored in Maximum and minimum values storage area buffer memory address 30 to 45 Un G30 to Un G45 are reset by Maximum value minimum value reset request YD Maximum value minimum value reset completed flag XD Section 3 3 2 Functions added to function version C The functions added to the A D converter module of function version C are listed below Item Function overview Reference section You can change the module without stopping the system A programmable controller CPU of function version C or later is required Using Mode switching setting buffer memory address 158 159 Un G158 Un G159 and Operating condition setting request Y9 the module is switched between the normal mode and offset gain setting mode without the programmable controller CPU being reset Using the dedicated instruction G P OFFGAN the module is switched between the normal mode and offset gain setting mode Appendix 2 1 without the programmable controller CPU being reset Using GX Configurator AD the module is switched between the normal mode and offset gain setting mode without the programmable controller Section 5 6 2 CPU being reset Online module change Chapter 7 Section 3 4 13 Mode switching that does not re
59. 0 to 4000 ae User range setting 4000 to 4000 0 375 mV Figure 3 1 Voltage input characteristic in normal resolution mode PECIFICATION a MELSEC Q b Voltage input characteristic in high resolution mode Figure 3 2 shows a graph of the voltage input characteristic in high resolution mode Analog input practical range J 288 384 Digital output value oO 8000 15 10 5 0 5 10 15 Analog input voltage V 1010 10V 16000 to 16000 0 625 mv 010 10V 010 16000 0 625 mV REN User range setting 12000 to 12000 0 333 mV Figure 3 2 Voltage input characteristic in high resolution mode PECIFICATION Aa MELSEC Q 1 Set within the analog input range and digital output range for each input range If these ranges are exceeded the maximum resolution and accuracy may not fall within the performance specifications Avoid using the dotted line area shown in Figures 3 1 and 3 2 2 When inputting an analog voltage out of the range between 15 to 15V the elements may be damaged 3 Set the offset gain values for the user range setting within a range in which the following conditions are met a Offset value gain value setting range 10 0 to 10 0V b Choose either one of the following formulas which corresponds to the resolution mode to be set 1 Normal resolution mode Gain value Offset value gt 1 5V 2 High resolution mode Gain value Offset value
60. 1 Input range refers to the type of offset gain settings The most frequently used range is set as the default but the user can also set the offset gain 6 Easy settings with GX Configurator AD The number of sequence programs can be reduced since GX Configurator AD sold separately allows A D converter module settings in the dialog box Also GX Configurator AD simplifies checking of the module settings and operation status In addition FB can be automatically created from intelligent function module parameters set in advance to use them in a sequence program 1 FB is the function for making a circuit block used in a sequence program repeatedly a part FB to use it in the sequence program This function can improve the efficiency of program development and minimize program bugs to improve program qualities For details of FB refer to GX Developer Version 8 Operating Manual Function Block 1 OVERVIEW MELSEC Q 1 2 Functions Added to Function Version B and Later 1 Functions added to function version B The functions added by the function version B A D converter module are listed below Item Function overview Reference section Multiple CPU system Compatible with a multiple CPU system A programmable controller compatibility CPU of function version B or later are required The resolution mode can be changed according to the application and Resolution mode digital value resolution settings of 1 4000 1 12000 or 1 1600
61. 11 D21 D10 1 E MOV D12 D22 D10 2 MOV D13 D23 HKO Z REMFR J1 K2 K1 H2 K10 D10 K4 M300 Error code display and reset processing X12F 2P REMER gi K4 K1 H2 K19 D14 K1 M306 M306 M307 i Bco D14 K3Y30 X23 X12F tt SET Y12F Y12F X12F H t RST Y12F MCR NO s E gt conversion completed flag and CH1 to CH3 Digital output value Read CH1 Digital output value Read CH2 Digital output value Read CH3 Digital output value Read the error code J Output the error code in BCD F Turn on Error clear requset YF J Turn off Error clear requset YF 7 NLINE MODULE CHANGE S CA MELSEC Q 7 ONLINE MODULE CHANGE When performing an online module change carefully read the following e QCPU User s Manual Hardware Design Maintenance and Inspection This chapter describes the specifications of an online module change 1 Perform an online module change by operating GX Developer 2 To ensure ease of offset gain re setting there is a user range save restoration function that is performed by executing the dedicated instruction or read write from to buffer memory 1 Perform an online module change after making sure that the system outside the programmable controller will not malfunction 2 To prevent an electric shock and malfunction of operating modules provide means such as switches for powering off each of the external power supply and external devices connected to the module to be replaced online 3
62. 2 1 5 2 2 5 3 1 5 3 2 5 3 3 5 6 1 5 6 2 5 6 3 Appendix 2 3 Addition Section 5 6 4 5 7 5 8 Oct 2004 SH NA 080055 J Correction SAFETY PRECAUTIONS Section 2 1 Section 3 1 1 Section 4 1 Section 6 2 6 2 1 Sep 2005 SH 080055 K Correction SAFETY PRECAUTIONS Section 2 1 Section 5 2 2 Section 6 2 2 H NA 2 Feb 2006 SH NA 080055 L Correction Section 6 1 1 6 1 2 6 2 1 6 2 2 Appendix 2 NA ee Jan 2007 SH NA 080055 M Correction SAFETY PRECAUTIONS Section 3 3 2 4 4 2 4 6 6 2 1 6 2 2 Chapter 7 Jun 2007 SH NA 080055 N Correction Section 4 3 Appendix 3 Jan 2008 SH NA 080055 O Correction SAFETY PRECAUTIONS About the Generic Terms and Abbreviations Section 1 2 Section 2 1 2 3 Section 4 1 4 5 4 6 Section 5 2 1 5 2 2 5 3 2 5 3 3 5 4 5 6 1 5 6 5 5 6 6 Section 6 1 1 6 2 1 Section 7 3 1 7 3 3 7 3 4 7 3 5 Section 8 1 Appendix 1 1 Appendix 2 Appendix 2 1 Appendix 2 2 Appendix 2 3 Addition Section2 2 Print Date_ Manual Number May 2008 SH NA 080055 P Correction SAFETY PRECAUTIONS Compliance with the EMC and Low Voltage Directives About the Generic Terms and Abbreviations Section 2 1 Section 3 1 1 3 1 2 3 3 2 3 4 4 to 3 4 6 Section 4 1 Section 5 2 1 5 2 2 5 3 1 5 3 3 Chapter 7 Section 7 1 Nov 2010 SH NA 080055 Q SAFETY PRECAUTIONS About Manuals INTRODUCTI
63. 4 1 Handling Precautions 00 2 n26i hansiiaiieeid eat AAA AA 4 1 4 2 Setup and Procedures before Operation ccccccececceeeceeeeeeeeeeeeeeeeeeeceeseaeeseaeeeeeeeseeeeseaeeseeetsieeeneees 4 2 4 3 Part Identification Nomenclature serere EAE EREA e ENERE EARRA 4 3 a ERATI oe EE E ET od bag ene coca cha anv ended cuca de save A E sade E E EE A E E 4 5 AAE NVINING PECOS a A E R a 4 5 AVA 2 External WiinGicrs ee e tein eae aati a ete eee 4 6 4 5 Switch Setting for Intelligent Function Module 0 0 eeeeeeeeeeeeeeeeeeeeeeeeeeteeseeseesaeeseeseeseesieesieetietieeeiees 4 8 4 6 Offset Gain Settings 2 0 0 0 cceeccesceeeceeeeeeeceeeeeeeeeeseeeaeeeseneaeeeaeneaeneaeeeaeneaeneaeneaeseneeeaeneaeeeeteeeeeneeeneneneseneeeees 4 10 5 UTILITY PACKAGE GX Configurator AD 5 1 to 5 34 5 1 Utility Package FUNCIONS onarga E r 5 1 5 2 Installing and Uninstalling the Utility Package ooo eect eeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeseaeeeaeeeaeeeaeeeaeeaeeeatesas 5 2 9 2 1 Handling precautions reiecit eRe ar AERA att EAEE AR EA AAEE AAA RENATE ETRA EK ERAR 5 2 5 2 2 Operating environmen sansen rana aAa aAA AA a AA aAA A 5 4 5 3 Utility Package OPeraNON erren E R E ARAARA EE EAR 5 6 5 3 1 Common utility package operations eprsrisseisisrieisii einas ein NR EIR R ENARA ARARNAR EINAR NEI 5 6 5 3 2 Operation OVERVIGW s setia eiea a aia a aaa a a a e aeaa 5 9 5 3 3 Starting the intelligent function module utility 0 ee eee eeee eee teee tees sees teeese
64. 50 ms with the temperature drift compensation function on measurement is performed 104 times and the average value is output 50 x 1000 4 X 80 160 104 17 times Round down the number 2 When 7 or 8 channels are used with the temperature drift compensation function on set the average time to 3 ms or more If the time is set to 2 ms or less the average number of times becomes less than 3 and it causes Digital output value to become 0 since a sum excluding the maximum and minimum values will be averaged b When the averaging processing is specified for the set number of times The time required to store the average value calculated using the average number of times in the buffer memory differs according to the number of channels used the number of channels set to A D conversion enable and whether or not the temperature drift compensation is used 1 Without the temperature drift compensation function Processing time Set number of times x Number of channels used 80 1000 Unit ms 2 With the temperature drift compensation function Processing time Set number of times x Number of channels used x 80 160 1000 Unit ms Example When averaging processing is performed with four channels 1 2 3 and 4 for the set number of 100 times with temperature drift compensation on an average value is output every 48 ms 100 x 4 x 80 160 1000 48 ms PECIFICATION Sa MELSEC Q 3 2 2 Maxi
65. Analog Digital Converter Module MITSUBISHI Q64AD Q68ADV Q68ADI GX Configurator AD SW2D5C QADU E Mitsubishi Programmable Controller MELSEG Q e SAFETY PRECAUTIONS e Read these precautions before using this product Before using this product please read this manual and the relevant manuals carefully and pay full attention to safety to handle the product correctly In this manual the safety precautions are classified into two levels N WARNING and A CAUTION T Indicates that incorrect handling may cause hazardous conditions A WARNING resulting in death or severe injury Indicates that incorrect handling may cause hazardous conditions i A CAUTION resulting in minor or moderate injury or property damage cea a me Gy St ey sa me eee ee a ee ae te omens ae emma Sn mn a ae tm em ay ea ee meat me Se Ve ee See fee Under some circumstances failure to observe the precautions given under A CAUTION may lead to serious consequences Observe the precautions of both levels because they are important for personal and system safety Make sure that the end users read this manual and then keep the manual in a safe place for future reference DESIGN PRECAUTION WARNING e Do not write data into System area of the buffer memory of intelligent function modules Also do not use any Use prohibited signals as an output signal to an intelligent function module from the programmable controller C
66. CNET H remote I O stations modules can be replaced online during energizing However there are some restrictions on replaceable modules and the replacement procedures are predetermined for each module For details refer to the chapter of the online module change in this manual e Do not install remove the module to from the base unit or the terminal block to from the module 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 CAUTION e When disposing of this product treat it as industrial waste e CONDITIONS OF USE FOR THE PRODUCT e 1 Mitsubishi programmable controller the PRODUCT shall be used in conditions x i where any problem fault or failure occurring in the PRODUCT if any shall not lead to any major or serious accident and ii where the backup and fail safe function are systematically or automatically provided outside of the PRODUCT for the case of any problem fault or failure occurring in the PRODUCT The PRODUCT has been designed and manufactured for the purpose of being used in general industries MITSUBISHI SHALL HAVE NO RESPONSIBILITY OR LIABILITY INCLUDING BUT NOT LIMITED TO ANY AND ALL RESPONSIBILITY OR LIAB
67. D AS y FG 3 1 Shielded 4 x1 Use a twisted two core shielded wire for the power wire x2 Shows input resistance of the Q68ADI 3 A G terminal does not normally require wiring However it can be used as GND for external device ground under the following conditions 1 When there is a difference in polarity between A G and GND for external device 4 Always use a ground In addition ground the FG of the power supply module 4 7 4 7 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q 4 5 Switch Setting for Intelligent Function Module The settings for the intelligent function module are performed using the I O assignment settings for GX Developer 1 Setting item The intelligent function module switches consist of switches 1 to 5 and are set using 16 bit data When the intelligent function module switches are not set the default value for switches 1 to 5 is 0 Table 4 1 Switch setting item ee eee Setting item Input range setting Analog input range Input range setting value Switch 1 J 4 to 20 mA OH 1 CH4CH3CH2CH1 0 to 20 mA 1H 1to5V 2H Input range setting Oto5V 3H 10 to 10 V 4H Switch 2 HGH H Oto 10V 5H CH8 CH7CHGCHS User range setting FH Switch 3 coo uUu 00H With temperature drift correction 01H to FFH numeric value other than 00H Without temperature drift correction OH Normal resolution mode 1H to FH numeric
68. E DEC Stop monitor Close TROUBLESHOOTIN Bee ed MELSEC Q 3 H W information a H W LED information The LED on status is displayed RUN LED 00004 Indicates that LED is unlit ERROR LED 00014 Indicates that LED is lit b H W SW information The status of the intelligent function module switch setting is displayed Switch setting for intelligent function module Switch 1 Switch 2 Switch 3 Switch 4 Switch 5 H Information xj r Module r Display format Module Name Q644D Product information 061220000000000 C HEX C DEC H W LED Information p HAW SW Information 1l 0001 p 0000 2 0000 2 0000 3 0000 4 0000 5 0000 Stop monitor 8 TROUBLESHOOTING MELSEC Q MEMO APPENDICES MELSEC O APPENDICES Appendix 1 Function Upgrade for the A D Converter Module The A D converter modules of function versions B and C have more functions than the conventional model function version A This section describes a comparison of functions of the A D converter module based on the function additions combinations with GX Configurator AD software version and precautions when replacing the module Appendix 1 1 A comparison of functions of the A D converter module The following table indicates the functions supported by the corresponding function versions AD convers
69. EC Q 3 4 11 Offset gain setting mode Offset gain specification buffer memory address 22 23 Un G22 Un G23 1 2 Un G22 Offset specification mos enemaran 0 Lo fe pele e o feelorleejel oneei Specifies the channel to be adjusted for the offset gain settings The channel for which the offset is to be adjusted is specified in Offset gain setting mode Offset specification buffer memory address 22 Un G22 and the channel for which the gain is to be adjusted is specified in Offset gain setting mode Gain specification buffer memory address 23 Un G23 Although it is possible to set multiple channels at the same time set the offset and gain separately Set either Offset gain setting mode Offset specification buffer memory address 22 Un G22 or Offset gain setting mode Gain specification buffer memory address 23 Un G23 to 0 If both are set at the same time an offset gain setting mode error error code 500 occurs For Q64AD b4 to b7 information for CH5 to CH8 are invalid Refer to Section 4 6 for the details of the offset gain settings b15 b14 b13 b12 b11 b10 b9 b8 b7 bE b5 b4 b3 b2 bi bO CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 1 Channel to be set 0 Invalid 3 4 12 Maximum and minimum value storage area buffer memory address 30 to 45 Un G30 to Un G45 1 2 The maximum and minimum values of the converted digital value for each channel are stored by each sample processing time 80yu
70. FB Conversion of Initial Setting Auto Refresh Setting Purpose FB is generated automatically from the intelligent function module parameter initial setting auto refresh setting Operating procedure Intelligent Function Module Parameter Setting Module Selection Screen gt lt lt FB Support Parameter gt gt tab gt Setting screen x FB program is generated from the following contents Start 1 0 Module model Initial Auto ep No name setting refresh pegan name OOOOH Q684D V m Explanation of items 1 Items displayed on the screen Start I O No The start I O No of the information which is set up on the currently open intelligent function module parameter is displayed Module model name The module model name of the information which is set up on the currently open intelligent function module parameter is displayed Initial setting Set up whether to apply FB conversion to the parameter or not Check if you apply FB conversion to the parameter Auto refresh Set up whether to apply FB conversion to the parameter or not Check if you apply FB conversion to the parameter FB program name Set up the name of the converted FB program Up to six single byte characters can be set up as an FB program name However the characters and terms shown below cannot be set up as FB program name Character 5 75 2 7 S gt hoso Term COM1 to COM9 LPT1 to LPT9 AUX PRN CON NUL CLOCK In addi
71. GX Configurator AD Version 2 11M or later in GX Developer Version 8 98C or later 5 UTILITY PACKAGE GX Configurator AD MELSEC Q Operating system and performance required for personal computer Performance ee for personal computer ee emo Windows 95 Pentium 133MHz or more 32MB or more Windows 98 Pentium 133MHz or more 32MB or more Windows Me Pentium 150MHz or more 32MB or more 1GB or more Windows 7 1GB or more 32 bit Pentium 1GHz or more 2GB or more 64 bit EONI functions shown below are not available for Windows XP Windows Vista and Windows 7 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 DPI setting other than 100 Also GX Configurator AD is not supported by 64 bit Windows XP and 64 bit Windows Vista e A user with USER authority or higher can access GX Configurator AD for Windows Vista and Windows 7 e When Windows 7 is used the following functions are not available Windows XP Mode Windows Touch 5 UTILITY PACKAGE GX Configurator AD 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 Closes
72. ILITY BASED ON CONTRACT WARRANTY TORT PRODUCT LIABILITY FOR ANY INJURY OR DEATH TO PERSONS OR LOSS OR DAMAGE TO PROPERTY CAUSED BY the PRODUCT THAT ARE OPERATED OR USED IN APPLICATION NOT INTENDED OR EXCLUDED BY INSTRUCTIONS PRECAUTIONS OR WARNING CONTAINED IN MITSUBISHI S USER INSTRUCTION AND OR SAFETY MANUALS TECHNICAL BULLETINS AND GUIDELINES FOR the PRODUCT Prohibited Application Prohibited Applications include but not limited to the use of the PRODUCT in e Nuclear Power Plants and any other power plants operated by Power companies and or any other cases in which the public could be affected if any problem or fault occurs in the PRODUCT e Railway companies or Public service purposes and or any other cases in which establishment of a special quality assurance system is required by the Purchaser or End User e Aircraft or Aerospace Medical applications Train equipment transport equipment such as Elevator and Escalator Incineration and Fuel devices Vehicles Manned transportation Equipment for Recreation and Amusement and Safety devices handling of Nuclear or Hazardous Materials or Chemicals Mining and Drilling and or other applications where there is a significant risk of injury to the public or property Notwithstanding the above restrictions Mitsubishi may in its sole discretion authorize use of the PRODUCT in one or more of the Prohibited Applications provided that the usage of the PRODUCT is limited only for
73. Installation confirmation Status Module control restart gt Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel b The Online module change completed dialog box appears MELSOFT series GX Developer fe YD Online module change completed 7 ONLINE MODULE CHANGE MELSEC Q 7 3 3 When user range setting is used and initial setting was made with GX Configurator AD other system is available 1 Conversion disable Set A D conversion enable disable setting buffer memory address 0 Un G0 for all channel conversion disable and turn Operating condition a setting request Y9 from off to on to stop conversion After confirming that conversion has stopped with A D conversion completed flag buffer memory address 10 Un G10 turn off Operating condition setting request Y9 Device test x m Bit device 3 v Hide history FORCE ON FORCE OFF Toggle force Device Close i r Word device buffer memory C Device 7 Buffer memory Module stat 1 00 x Hex Address jo 7 DEC 7 Setting value F HEX 7 is bi integer 7 Set r Program Label reference program MAIN z r Execution history Find Y9 Forc
74. MINAMI 5 CHOME HIGASHI KU NAGOYA JAPA When exported from Japan this manual does not require application to the Ministry of Economy Trade and Industry for service transaction permission Specifications subject to change without notice
75. Main base a rr anf ene gge i oer ODe pees Expansion e Pe ion EA eae base 7 Parameter status Mode 170 adaress o 1o zo so ao T JC Systemmoritor a SSP ooe f c f a eee a a None None None None Q12PHCPU 1 pt 1 pt 1 pt 1 pe Oooo d EE a ca Online module change Diagnostics Module s Detailed Information ui Status Start monitor Product Inf List P Module system error 7 Module eror fE Module warning J Module change Stop monitor Base Information i d Monitor CHO Digital output value buffer memory address 11 to 18 Un G11 to Un G18 to check that proper conversion has been made Monitor Test 7 ONLINE MODULE CHANGE MELSEC Q 5 Resumption of control a After choosing the Diagnostics Online module change dialog box on GX Developer to display the Online module change dialog box again click the Execution button to resume control Module READY X0 is turned on Online module change r Operation r Target module Module change execution 1 0 address OOOH Si Module name Q644D Installation confirmation Status Module control restart gt Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter
76. ON About the Generic Terms and Abbreviations Section 1 1 Section 2 1 2 2 2 3 Section 3 1 1 3 1 2 3 3 2 3 4 1 to 3 4 3 3 4 5 3 4 7 3 4 8 3 4 10 3 4 12 Section 4 1 4 3 4 4 2 4 5 4 6 Section 5 1 5 2 1 5 3 1 5 3 3 5 4 5 5 5 6 1 to 5 6 4 5 7 Section 6 2 2 Section 7 1 7 3 1 to 7 3 6 7 5 Section 8 1 8 2 3 8 2 4 Appendix 2 1 to Appendix 2 3 Appendix 3 Addition CONDITIONS OF USE FOR THE PRODUCT Dec 2012 SH NA 080055 R Correction SAFETY PRECAUTIONS COMPLIANCE WITH EMC AND LOW VOLTAGE DIRECTIVES ABOUT MANUALS ABOUT THE GENERIC TERMS AND ABBREVIATIONS Section 1 2 Section 2 1 Section 2 3 Section 3 1 2 3 2 2 3 3 1 3 4 6 3 4 7 3 4 8 3 4 10 3 4 11 3 4 15 Section 4 1 4 6 Section 5 2 2 5 6 1 to 5 6 4 Section 6 1 6 2 6 2 2 Chapter 7 Section 7 3 4 7 4 7 5 Section 8 1 8 2 3 Japanese Manual Version SH 080028 W 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 1999 MITSUBISHI ELECTRIC CORPORATION INTRODUCTION Thank you for purchasing the MELSEC Q series programmable controller Before using the product please read this manual carefully to develop full familiarity with the functions and performance of the Q
77. PU Writing data into System area or outputting a signal for Use prohibited may cause a programmable controller system malfunction CAUTION e Do not bunch the control wires or communication cables with the main circuit or power wires or install them close to each other They should be installed 100mm 3 9inch or more from each other Not doing so could result in noise that may cause malfunction INSTALLATION PRECAUTIONS CAUTION e Use the programmable controller in an environment that meets the general specifications contained in the user s manual of the CPU module to use Using this programmable controller in an environment outside the range of the general specifications may cause electric shock fire malfunction and damage to or deterioration of the product e While pressing the installation lever located at the bottom of module insert the module fixing tab into the fixing hole in the base unit until it stops Then securely mount the module with the fixing hole as a supporting point Improper installation may result in malfunction breakdown or the module coming loose and dropping Securely fix the module with screws if it is subject to vibration during use e Tighten the screws within the range of specified torque If the screws are loose it may cause the module to fallout short circuits or malfunction If the screws are tightened too much it may cause damage to the screw and or the module resulting in fallout sh
78. PU V QO6CCPU V B___ Up to 64 C Controller module Q12DCCPU V Q24DHCCPU V__ Up to 62 O Applicable X N A 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 3 The safety CPU cannot be connected with extension base units For the use of the C Controller module refer to C Controller Module User s Manual b Mounting toa MELSECNET H remote I O station The table below shows the network modules and base units applicable to the A D converter module and quantities for each network module model Depending on the combination with other modules or the number of mounted modules power supply capacity may be insufficient Pay attention to the power supply capacity before mounting modules and if the power supply capacity is insufficient change the combination of the modules Base unit 2 enna OoOo Basut module No of modules Main base unit of Extension base unit of remote I O station remote I O station QJ72LP25 25 QJ72LP25G Up to 64 QJ72LP25GE QJ72BR15 O Applicable X N A 1 Limited within the range of I O points for the network module 2 Can be installed to any I O slot of a base unit The Basic model QCPU or C Controller module cannot create the MELSECNET H remote I O network 2 SYSTEM CONFIGURATION MELSEC Q 2 Support of the multiple CPU system 3 When using the A D converter module in a multiple CPU system refer
79. RVIEW MELSEC Q 1 OVERVIEW This User s Manual describes the specifications handling and programming methods for the Q64AD analog digital converter module hereinafter referred to as the Q64AD Q68ADV analog digital converter module hereinafter referred to as the Q68ADV and Q68ADI analog digital converter module hereinafter referred to as the Q68ADI which are used in conjunction with MELSEC Q Series CPUs In this manual the Q64AD Q68ADV and Q68ADI are collectively referred to as the A D converter modules 1 1 Features 1 Select the type of module according to the application e Q64AD erene 4 channels where the voltage input or current input can be selected for each channel Q68ADV vee 8 channels all of which are voltage input e Q68ADI 8 channels all of which are current input 2 High speed conversion Conversion is performed at a high speed of 80 u s channel Also the temperature drift compensation function can be performed using a processing time of conversion time for all channels 160 ws 3 High degree of accuracy The degree of accuracy for the conversion process is 0 1 When the ambient temperature is 25 5 C 4 Changing the resolution mode The resolution mode can be changed according to the application and digital value resolution settings of 1 4000 1 12000 or 1 16000 can be selected 5 Changing the input range The input range can easily be set from GX Developer
80. TY PACKAGE GX Configurator AD MELSEC Q 5 6 5 Pass data Q64AD Perform operation in the following sequence to save restore the user range 1 Switch to the pass data screen Perform the operation in Section 5 6 1 to display the Pass data screen Pei Module information Module type A D Conversion Module Start 170 No 0000 Module model name Q64AD Function Version C Setting item Current value Setting value Voltage specified H3 Pass data classification setting Voltage specified CH4 Pass data classification setting Voltage specified CH1 Industrial shipment settings offset value CH1 Industrial shipment settings gain value 0000 CH2 Industrial shipment settings offset value 0000 CH2 Industrial shipment settings gain value 0000 ee ee Po 0000 CH3 Industrial shipment settings offset value ee a H3 Industrial shipment settings gain value 0000 CH4 Industrial shipment settings offset value 0000 Flash ROM setting Details Write to Save file Current value Monitoring module aie ile display Select input Read from Sane R modii Load file Make text file Voltage specified Current specified Start manitor Stop monitor Execute test Close 2 User range saving a Set Voltage specified or Current specified in the Setting value field of Pass data classification setting and click the Execute test button When the se
81. UN GO ee eeeeeeeeeeeeees 3 25 3 4 5 Average time average number of times buffer memory address 1 to 8 UN G1 to UMNG8 0 eee cece cee tees teeeeeeeseeeseeeteeeteneseaeeeneeeaes 3 25 3 4 6 Averaging process setting buffer memory address 9 Un G9 ee eeeeeeeeeeeeeeeeeeeeeeeeeeeeateneeenes 3 26 3 4 7 A D conversion completed flag buffer memory address 10 UM G10 eee eect eeeeeteeeteeeteeees 3 27 3 4 8 CHO Digital output value buffer memory address 11 to 18 Un G11 to Un G18 aseeseen 3 28 3 4 9 Error code buffer memory address 19 UM G19 0 eee eeeeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeaeeeas 3 29 A 9 A 9 3 4 10 Setting range buffer memory address 20 21 Un G20 Un G21 eee eee eeeee ete eteeeetteeees 3 29 3 4 11 Offset gain setting mode Offset gain specification buffer memory address 22 23 Un G22 UM G23 ooo ceeeeeee eee teeeeeeeseeeeeeeseneeeeeeeeeeeeeeeneeeaes 3 30 3 4 12 Maximum and minimum value storage area buffer memory address 30 to 45 UN G30 to UMN G45 oo eee ceeeeeeeteeeeeeeseeeseeeseeeseeeeeneeeneeaes 3 30 3 4 13 Mode switching setting buffer memory address 158 159 Un G158 Un G159 ee 3 31 3 4 14 Pass data classification setting buffer memory address 200 Un G200 Q64AD only 3 31 3 4 15 Industrial shipment settings and User range settings offset gain value buffer memory address 202 to 233 Un G202 to UM G233 oo eeeee eee ene eter eter eneeteeetneetieeeees 3 32
82. X Developer to create a program and print out monitor and debug the program Sold separately 13JU41 SH 080373E GX Developer Version 8 Operating Manual Function Block Describes the methods of using GX Developer to create a function block and print out the function block Sold separately SH 080376E 13JU44 GX Works2 Version 1 Operating Manual Common Describes the system configuration parameter settings and online operations common to Simple project and Structured project of GX Works2 Sold separately 13JU63 SH 080779E GX Works2 Version 1 Operating Manual Intelligent Function Module Explains methods of intelligent function module for such as parameter setting monitoring programs and predefined protocol support function in GX Works2 Sold separately 13JU69 SH 080921ENG If you would like to obtain a manual individually printed matters are available separately Order the manual by quoting the manual number on the table above model code COMPLIANCE WITH EMC AND LOW VOLTAGE DIRECTIVES 1 Method of ensuring compliance To ensure that Mitsubishi programmable controllers maintain EMC and Low Voltage Directives when incorporated into other machinery or equipment certain measures may be necessary Please refer to one of the following manuals e QCPU User s Manual Hardware Design Maintenance and Inspection e Safety Guidelines This manual is included with the CPU module or base unit The CE mark on the
83. a ee ee Ee Bl fe ale Die sle 6 HG F E Sle el Be ol aeaee ajaja 3 En Ez GA Fo A A re Ez Riz Host station fowwte m Operation procedure Click the Convert menu gt Convert Compile menu of GX Developer 6 PROGRAMMING 6 PROGRAMMING MELSEC Q This chapter describes the programs of the A D converter module When applying any of the program examples introduced in this chapter to the actual system verify the applicability and confirm that no problems will occur in the system control 6 1 For Use in Normal System Configuration System configuration used in the program explanation 1 2 System configuration 2 5 ae fe amp 2 a 2 j N lt a 6 A X Y0 X10 Y20 to to to XIYF X1F Y2F Perform the following intelligent function module switch settings in advance e Switch 1 0430H CH1 4 to 20mA CH2 0 to 5V CH3 10 to 10V e Switch2 Empty e Switch 3 Empty e Switch 4 00004 Normal mode A D conversion processing e Switch 5 00004 0 Fixed Program conditions This program reads the digital output values that have been A D converted using CH 1 to CH3 of the Q64AD CH1 performs sampling processing CH2 performs averaging processing every 50 times and CH3 performs averaging processing every 1000 ms Error code appears in BCD format if a write error occurs a Contents of initial setting e A D conversion enable chan
84. agement information of the product e The serial number displayed in the Product information list dialog box of GX Developer indicates the function information of the product The function information of the product is updated when a new function is added 2 SYSTEM CONFIGURATION SYS CONFIGU O MELSEC O 2 Checking the software version of GX Configurator AD The software version of GX Configurator AD can be checked by selecting Help Product information on GX Developer Product information ge PLC programming software p GX Developer Version 7 01B SW7D5C GPPW E COPYRIGHT C 2001 MITSUBISHI ELECTRIC CORPORATION ALL RIGHTS RESERVED This Product is licensed to Name MITSUBISHI Company MITSUBISHI ELECTRIC CORPORATION Software version List of version information on Add4 GX Configurator AD SWODS5C QADU E COPYRIGHT C 1999 MITSUBISHI ELECTRIC CORPORATION ALL RIGHTS RESERVED Warning This product is protected by copyright law and international treaties Unauthorized reproduction or distribution of this program or any 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 7 The version indication for GX Configurator AD has been changed as shown below from the SWOD5C QADU E 50F upgrade product Previous product Upgrade and subsequent versions SWOD5C QADU E 50F GX Configurator AD Vers
85. ailed Inf n Base Information z Inte None None None None Status Start monitor i Module system error E Module error Module warning oO Module change Product Inf List Close Stop monitor 7 NLINE MODULE CHANGE Z eee ea MELSEC Q Click the Execution button to enable a module change b Online module change x r Operation Module change execution Installation confirmation Target module 1 0 address Module name O00H Q644D r Status Module control restart 7 Change module selection completed r Status Guidance Please turn off Y signal of the changed module when you change the intelligent function module Cancel If the following error dialog box appears the user range cannot be saved Click the OK button and execute the operations described in 2 c or later in this section MELSOFT series GX Developer The target module didn t respond The task is advanced to the installation confirmation After confirming that the RUN LED of the module has turned off remove the terminal block and dismount the module c POINT _ Always dismount the module If mounting confirmation is made without the module being dismounted the module will not start properly and the RUN LED will not be lit 3 Mounting of new module a Mount anew module to the same slot and instal
86. al shipment settings gain vale System S 6 CH2 Industrial shipment settings offsetvalue CC System S 7_ CH2 Industrial shipment settings gainvalue System S 8 CH3 Industrial shipment settings offsetvalue System S 9 CH3 Industrial shipment settings gainvalue S 10 CH4 Industrial shipment settings offsetvalue S 11 CH4 Industrial shipment settings gain vaie _____ S i i E a S 13 CHS Industrial shipment settings gain value S 14 CH6 Industrial shipment settings offset value _ _ S 15 CH6 Industrial shipment settings gain vale S 16 CH7 Industrial shipment settings offsetvalue System CH7 Industrial shipment settings gain value Po O O O o System S 18 CH8 Industrial shipment settings offsetvalue system S 19 CH8 Industrial shipment settings gain vawe System S 20 CH1 User range settings offsetvaue System S 21 CH1 User range settings gainvaue Systm S 22 CH2 User range settings offsetvalue System S 23 CH2 User range settings gainvale System S 24 CH3 User range settings offsetvaue System S 25 CH3 User range settings gainvale System S 26 CH4 User range settings offsetvalue system S 27 CH4 User range settings gainvale System S 28 CH5 User range settings offsetvalue System
87. ange command a 5s aia Since a Sracarain oracGibin p aCaidiareiacdiaia alubidia aaGiaie aracidian Gata iaeaiasa e ad M3 e Offset gain setting value write command to the module veesesese M4 Mode switching POeeT rer recrer eee Ter eerreer ee ere reer cee reece re eee eee ere eer cre ee eee eee eee eee e Channel designation storage device e Dedicated instruction G P OFFGAN setting storage device D1 a When switching the mode using the dedicated instruction G P OFFGAN The following program switches to the offset gain setting mode with the dedicated instruction G P OFFGAN changes the channel where offset gain setting will be made writes the offset gain values to the A D converter module and then switches to the normal mode MELSEC Q Switches to offset gain setting mode W5 Mo K itt eee Uo Specifies channel where offset gain setting will be made He o HH Specifies channel where offset setting will be made MI M2 XOA m 1 TO DO mv Ko Specifies channel where gain setting will be made M2 MI XOA 1H wv o e e KO Changes channel where offset gain setting will be made 3 XOB D1 UO G22 uoy 623 uoy 623 UO G22 YOB YOB Dl Stores setting of dedicated instruction G OFFGAN into D1 Dedicated instruction G OFFGAN Stores channel where offset gain setting will be made into DO Specifies offset setting channel Sets 0 to buffer memor
88. ange module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel The Online module change completed dialog box appears MELSOFT series GX Developer feo I Online module change completed 7 NLINE MODULE CHANGE S Siaa a MELSEC Q 7 4 Range Reference Table The range reference tables are given below 1 Reference table for Industrial shipment settings offset gain values buffer memory address 202 to 217 Un G202 to Un G217 a For the Q64AD The reference values change depending on the setting of Pass data classification setting buffer memory address 200 Un G200 Address Decimal Beecasnon Pass data classification Reference value ipti setting Hexadecimal Volt ified A 800C 202 204 206 208 Industrial shipment settings offset value otage specie pprox z Current specified Approx 800CH s s Voltage specified Approx FA64H 203 205 207 209 Industrial shipment settings gain value Current specified Approx BD38H b For the Q68ADV Address Decimal Desoniption Reference value Hexadecimal 214 Industrial shipment settings offset value Approx 800CH Industrial shipment settings gain value Approx FA64H c For the Q68ADI Address Decimal Desgin Reference value ipti Hexadecimal Industrial shipm
89. asterPLC JUnmo Unmo Unmo Unmo H ue untijuntijuntijunti m mig QLZPHCPU paps ps ps E Lie pansion He He mme mmg r Parameter status r Mode T o Addressjo_ io eo so ao I System monitor ofitztst s aa Online module change None None None None Q12PHCPU l 6pt 1 6pt 1 pt 1 pt Diagnostics Module s Information Base Information r Status i Module system error 7 Module eror fj Module warning J Module change Product Inf List Close Start monitor Stop monitor 7 NLINE MODULE CHANGE Z atena MELSEC Q d Monitor CHO Digital output value buffer memory address 11 to 18 Un G11 to Un G18 to check that proper conversion has been made ixi Module information Module type A D Conversion Module Start 1 0 No 0000 Module model name 064AD Function Version C Setting item Current value Setting value CH Digtal output value oo g CH2 Digital output value PT H3 Digital output value CH4 Digital output value ror code etting range CH1 to CH4 XZY monitor test XZY monitor test Maximum value minimum value information O OOo Maven vate info perating condition setting T Dperating setting A Offset gain setting Offset gain setting Cannot execute test e Load file Make text file Flash ROM setting Details Write to ONERE C
90. ating CH1 digital READY conver condition Digital values sion setting output comple request na uoy MOV G2 D12 Read digital output values for CH2 CH1 to 3 Digital output uo MOV G13 D13 CH3 Digital J output Error code display and reset processing X10 XOF UO Output the error code to H BCD a9 K3Y20 Y20 to Y2B by BCD code Error Error Error code reset flag signal SET YOF Error clear request Clear the error code YOF XOF t K _ 4 SSS ST es YOF Error Error Error clear clear flag request request F En 6 PROGRAMMING MELSEC Q 6 2 For Use in Remote I O Network System configuration used in the program explanation 1 System configuration Remote master station Network No 1 Remote I O station Station No 1 Power Q Q Q Q Power Q Q Q J J module C L 0 0 module a 0 0 A P P P D u 5 6 2 2 5 5 X Y100 X Y110 X Y120 to to to XIY10F X Y11F X Y12F Perform the following intelligent function module switch settings in advance e Switch 1 0430H CH1 4 to 20mA CH2 0 to 5V CH3 10 to 10V e Switch 2 Empty e Switch 3 Empty e Switch 4 0000H Normal mode A D conversion processing e Switch 5 00004 0 Fixed N Program conditions In this program the digital output values that have been A D converted using CH1 to CH3 of the Q64AD are read by the CPU of the remote master station CH1 performs sampling processing CH2 performs averaging
91. ation M station lt A station a StationNo Y Y x x Points Start End Points Stat End Points Start End Points Start End 1 256 0100 OFF 256 0000 OOFF 256 0100 O1FF 256 0000 OOFF v 4 a M station gt R station M station lt R station M station gt R station M station lt R station StationNo B Points Start End Points Stat End Points Start End Points Start End 1 160 moo omsF 160 oooo oog wv 4 gt Refresh parameters Assignment method OPa Transient transmission error history status ponmi Overwrite C Hold Start End Link side PLC side a Dev name Points Start End Dev name Points Start End Transfer SB SB 512 0000 DIFF SB 512 0000 DIFF Transfer SW SW 512 0000 DIFF Sw 512 0000 DIFF Random cyclic LB Random cyclic LW Transfer Transferi LB Y B 8192 0000 1FFF Transfer2 Lw v 8192 0000 1FFF wW Transfer3 LX 512 0000 OFF x 512 0000 O1FF Transfert Y x 8192 0000 1FFF MELSEC Q PR RAMMIN RNS MELSEC Q 2 Operating the utility package Operate the utility package on the remote I O station side Set the following in the Intelligent function module parameter setting module select area e Start I O No 20 e Module type A D Conversion Module e Module model name Q64AD a Initial setting refer to Section 5 4 CH1 CH2 CH3 A D conversion enabl
92. auto refresh setting The program can be simplified if the utility package is used for setting refer to Chapter 5 Programming and debugging Create and check the sequence program MELSEC Q 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q 4 3 Part Identification Nomenclature The name of each part of the A D converter module is listed below Q64AD Q68ADV Q68ADI assan Q68ADV Q68ADI ea sec RUN iD cel RUN iD een RUN _ EROR _ RoR ROR 2 2 V ojo nNIiajlaj A jojnj gt Slololwlo a ale r nm ao a a gt a wI EL l lt aja HTO wO SO acy AEO wor wero lt AG 7 AG f Fo A 8 ro BS AD 0 10V AD 0 20mA 0 10V Name and aa Number Description appearance 1 RUN LED Displays the operating status of the A D converter module On Normal operation Flashing During offset gain setting mode Off 5V power switched off watchdog timer error occurred or online module change enabled 2 ERROR LED Displays the error status of the A D converter module On Error Off Normal operation Flashing Erro
93. ay the Online module change dialog box a b System Monitor x r Installed status MELSEC Q 2 3 4 MasterPLC gt l pting ng ng Q1ZPHCPU Q64a Unmo Unmo Unmo Unmo ID untijuntijuntijunti m Base Base Module O O Main base r Parameter status I O Address 0O 10 z0 30 Q12PHCPU r Mode System monitor Online module change Diagnostics Module s Detailed Information Base Information r Status Bi Module system error Module error g Module warning iia Module change Start monitor Stop monitor Product Inf List Close Click the Execution button to enable a module change Online module change 000H Q644D Module control restart Operation r Target module Module change execution 1 0 address gt TS Module name Installation confirmation r Status Change module selection completed r Status Guidance intelligent function module Please turn off Y signal of the changed module when you change the Cancel If the following error dialog box appears click the OK button dismount the module as is and mount a new module MELSOFT series GX Developer The target module didn t respond The task is advanced to the installation confirmation 7 NLINE MODULE CHANGE
94. cation even if the input characteristic is changed by changing offset gain settings input range and resolution mode Figure 3 5 shows the range of fluctuation in accuracy when a 10 to 10V range is selected and in normal resolution mode Accuracy is 0 1 4 digits when the ambient temperature is 25 5 C 0 3 12 digits when the ambient temperature is 0 to 55 C with temperature drift compensation and 0 4 16 digits when the ambient temperature is 0 to 55 C without temperature drift compensation Fluctuation range gt a gt 2 2 T 2 2 Q OV Analog input value Figure 3 5 Accuracy PECIFICATION Sa MELSEC Q 3 2 Function List Table 3 2 shows the function list of the A D converter modules Table 3 2 Function list Item Function Reference section 1 Specifies whether to enable or disable the A D conversion for each channel 2 By disabling the conversion for the channels that are not used the Section 3 4 2 sampling time can be shortened 1 Sampling processing The A D conversion for analog input values is performed successively for each channel and Digital output value is output upon each conversion 2 Averaging processing For each channel A D conversion values are averaged for the set number of times or set amount of time and the average value is output as a digital value Maximum and minimum 1 The maximum and minimum values of Digital output value is
95. cting monitor test module screen FB conversion screen Select monitor test module FB conversion Zi ERa Moan ino teon TEPoganrane Tie oo0oH oesanw ME OO f _StartI 0 No Module modelname 1 T Select a module to be monitored tested See Section 5 7 Monitor Test screen Monitor Test See Section 5 6 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 3 3 Starting the intelligent function module utility Operating procedure Intelligent function module utility is started from GX Developer Tools Intelligent function utility Start Setting screen Display when the lt lt FB support parameter gt gt tab is selected Intelligent function module utility C MELSEC Gppw fb 5 x Intelligent Function module parameter Online Tools Help r Select a target intelligent function module Start 1 0 No Module type 0000 A D Conversion Module Module model name Q68ADV 7 Parameter setting module Intelligent function module parameter ESD ty Start 1 0 No Module model name Initial setting Auto refresh A 000 g58ADv Available Available Mil SS aes Explanation of items 1 Activation of other screens Following screens can be displayed from the intelligent function module utility screen Common operations to the lt lt Intelligent function module parameter gt gt tab and lt lt FB support parameter gt gt tab a
96. ctions 5 8 3 Convert compile the sequence program ae 5 UTILITY PACKAGE GX Configurator AD MELSEC Q The initial setting auto refresh setting of the intelligent function module can be performed by each of the following methods 1 Set intelligent function parameters Initial setting Auto refresh setting and write them to the programmable controller CPU 2 Create an FB of the intelligent function module parameter initial setting auto refresh setting and paste it to the sequence program In accordance with the specification of the system perform the initial setting auto refresh setting of the intelligent function module by one of the methods above 1 x1 The following explains the case in which both of 1 and 2 are performed a Initial setting FB setting given in 2 is valid b Auto refresh setting e Both 1 and 2 are valid e At the time of FB execution and in the END processing of the sequence program auto refresh is performed 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 8 2 Paste an FB to a Sequence Program Purpose of operation Paste an FB in order to use it with a sequence program Operation procedure Switch the lt lt Project gt gt tab into the lt lt FB gt gt tab on GX Developer and drag amp drop the FB to be used onto the sequence program Before pasting MELSOFT series GX Developer C MELSEC GPPW GX Configurator AD LD Edit mode MAIN 124 Step TT Projec
97. d for CH1 Time number of times specifying to Number of times Click the setting value field for CH1 Time number of times specifying Input 10 as the average number of processing times and press the key At this point the setting data have not been written to the A D converter module f Select the Setting value fields input in the operations b to e while h pressing the key Multiple fields can be selected by dragging the mouse over them Click the Execute test button to write the data After the completion of writing the written values are displayed in the Current value field At this time the operation is the same as before changing the setting value in b c d and e Set the Setting value field of Operating condition setting request to Setting request i Click the Execute test button while the Setting value field of Operating condition setting request is selected to validate the setting 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 6 2 Offset gain setting operation Function version C or later Perform the offset gain setting operation in the following sequence 1 Switch to the offset gain setting screen Perform the operation in Section 5 6 1 to display the offset gain setting screen At this point a dialog box to confirm the transition of module s operation mode normal mode gt offset gain setting mode is displayed Click the Yes button to
98. d or module resulting in drop short circuit or malfunction e Be careful not to let foreign matter such as sawdust or wire chips get inside the module They may cause fires failure or malfunction e The top surface of the module is covered with protective film to prevent foreign objects such as cable offcuts from entering the module when wiring Do not remove this film until the wiring is complete Before operating the system be sure to remove the film to provide adequate ventilation STARTING AND MAINTENANCE PRECAUTIONS WARNING e Do not touch any terminal while power is on Doing so will cause electric shock or malfunction e Shut off the external power supply all phases used in the system before cleaning the module or retightening the terminal screws or module fixing screws Failure to do so may result in electric shock or cause the module to fail or malfunction Undertightening can cause drop of the screw short circuit or malfunction Overtightening can damage the screw and or module resulting in drop short circuit or malfunction CAUTION e Do not disassemble or modify the modules Doing so may cause failure malfunction injury or a fire e Be sure to shut off all phases of the external power supply used by the system before mounting or removing the module Not doing so may cause failure or malfunction of the module In the system where a CPU module supporting the online module change is used and on the MELSE
99. d to perform an online module change 1 4 5 CPU The Process CPU or Redundant CPU are required For precautions for multiple CPU system configuration refer to the QCPU User s Manual Multiple CPU System For precautions for redundant system configuration refer to the QnPRHCPU User s Manual Redundant System MELSECNET H remote I O module The module of function version D or later is necessary A D converter module The module of function version C or later is necessary GX Developer GX Developer of Version 7 10L or later is necessary GX Developer of Version 8 18U or later is required to perform an online module change on the remote I O station Base unit 1 When the slim type main base unit Q3 change cannot be performed 2 When the power supply module unnecessary type extension base unit Q5_ B is used online module change cannot be performed for the modules on all the base units connected SB is used an online module 7 ONLINE MODULE CHANGE MELSEC Q 7 2 Online Module Change Operations The following gives the operations performed for an online module change CPU operation O Executed X Not executed GX Configurator R z A Intelligent function module Dedicated Device Initial User operation i operation instruction test setting aries p es FROM TO instruction 1 parameter 1 Conversion disable Turn off all Y signals that i y Module is operating as usua
100. dule information Module type A D Conversion Module Start 1 0 No 0000 Module model name Q64AD Function Version C Ginette Stings O A Setting item A D conversion completed flag CH1 Digital output value CH2 Digital output value CH3 Digital output value CH4 Digital output value Error code Setting range CH1 to CH4 XZY monitor test Maximum value minimum value information a I a Po XA moritorrtest e Max value min value info Operating condition setting Offset gain setting Offset gain setting r Flash ROM setting Details Writets Save fil Current value Tn modile jaz iils display Cannot execute test ere Uceniie Make test file Start monitor Stop monitor Execute test Close 7 ONLINE MODULE CHANGE MELSEC Q 5 Resumption of control a After choosing the Diagnostics Online module change dialog box on GX Developer to display the Online module change dialog box again click the Execution button to resume control Module READY X0 is turned on Online module change r Operation r Target module Module change execution 1 0 address OOOH Si Module name Q644D Installation confirmation Status Module control restart gt Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the
101. dule system error m Module error a Module warning g Module change b Click the Execution button to enable a module change Online module change r Operation r Target module Module change execution 1 0 address O00H TREN Module name 0644D Installation confirmation r Status Module control restart Change module selection completed r Status Guidance Please turn off Y signal of the changed module when you change the intelligent function module Cancel If the following error dialog box appears click the OK button dismount the module as is and mount a new module MELSOFT series GX Developer The target module didn t respond The task is advanced to the installation confirmation c After confirming that the RUN LED of the module has turned off remove the terminal block and dismount the module Always dismount the module If mounting confirmation is made without the module being dismounted the module will not start properly and the RUN LED will not be lit 7 NLINE MODULE CHANGE Z o MELSEC Q 3 Mounting of new module a Mount a new module to the same slot and install the terminal block b After mounting the module click the Execution button and make sure that the RUN LED is lit Module READY X0 remains off Online module change r Operation r Target module
102. e ON Module start 0 Address 0 D F H Find next Y3 Force OFF Re setting 7 ONLINE MODULE CHANGE 2 Dismounting of module After choosing Diagnosis Online module change on GX Developer to enter the Online module change mode double click the module to be changed online to display the Online module change dialog box a b System Monitor x r Installed status MELSEC Q m Base Base Module Q12PHCPU NasterPLC gt L CIE Main base QE4Al Unmo Unmo Unmo Unmo Oge D untijuntijuntijunti m m QLZPHCPU Pere ee a i EE DE OO OO E m Parameter status r Mode I O Address 0 lo zo 30 40 System monitor Online module change Diagnostics Module s Detailed Information Base Information r Status Bi Module system error Module error g Module warning iia Module change Start mon Stop mon vitor Product Inf List Close vitor Click the Execution button to enable a module change Online module change 000H Q644D Module control restart Operation r Target module Module change execution 1 0 address gt TS Module name Installation confirmation r Status Change module selection completed r Status Guidance intelligent function module Please turn off Y signal
103. e content set by operations 2 to 4 into the module by clicking the button a Precautions Do not perform the following operations during writing the content set by clicking the button into the module If performed an error occurs in E7PROM data and the A D converter module may not operate properly e Powering off the programmable controller CPU e Resetting the programmable controller CPU 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 7 Switch to the normal mode After the setting has finished click the Close button to close the offset gain setting screen and set Switch 4 of the intelligent function module switch settings to the normal mode Refer to Section 4 5 If an error code is displayed while performing the setting operation the details and measure of the error can be confirmed by clicking the button to the right of the error code display area In addition the error code can be cleared by clicking the Error clear button 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 6 4 Confirmation of Conversion Characteristic Purpose The converted value of digital analog conversion can be confirmed according to the tilt of the graph based on the offset gain setting Operating procedure Monitor test screen Offset gain setting Conversion characteristic Setting screen Conversion characteristic xi r nalog Range setting 4095 Analog
104. e disable setting Enable CH1 Averaging process Setting cecseceeeeeereeteeeeeeteeeeneees Sampling CH2 Averaging process Setting ceceeeseeeeeeeeeeeeteeneees Averaging CH2 Time number of times specifying ceeeeeeeeeeeeeees Number of times CH2 Average time average number of times setting 50 CH3 Averaging process Setting eceeeeeeseeeeteeeteeneeteees Averaging CH3 Time number of times specifying Time ms CH3 Average time average number of times setting 4000 lx Module information Module type A D Conversion Module Start 1 0 No 0020 Module model name 0644D Setting item Setting value CH1 A D conversion enable disable setting Enable CH1 Time number of times specifying Number of times CH1 Average time average number of times setting Time 2 to 5000ms Number of times 4 to 62500 CH2 A D conversion enable disable setting Enable CH2 Time number of times specifying Number of times Details Select input Disable Make text file End setup Cancel 6 PROGRAMMING MELSEC Q b Auto refresh setting refer to Section 5 5 CH1 Digital output value W11 CH2 Digital output value W12 CH3 Digital output value W13 Error COUG ipsios W14 TE Module information Module type A D Conversion Module Start 1 0 No 0020 Module model name 064AD Seting tem terse oi Tianst
105. e format to hexadecimal and then enter the values 4 SETUP AND PROCEDURES BEFORE OPERATION 4 6 Offset Gain Settings 2 1 MELSEC Q When the user range setting is used perform the offset and gain settings according to the following procedure When the industrial shipment setting is used offset gain setting is not necessary If the utility package is installed perform the offset gain settings according to the procedure described in Section 5 6 2 1 Offset gain setting procedure Co Switch to the offset gain setting mode 1 Verify that the mode is set to offset gain setting and the RUN LED is flashing A Add the voltage or current that will be the offset value Specify channels in Offset gain setting mode Offset specification buffer memory address 22 Un G22 Specify 0 in Offset gain setting mode Gain specification buffer memory address 23 Un 23 Turn Channel change request YB to on Verify that Channel change completed flag XB is on Set Channel change request YB to off Add the voltage or current that will be the gain value l Specify channels in Offset gain setting mode Gain specification buffer memory address 23 Un G23 Specify 0 in Offset gain setting mode Offset specification buffer
106. e new module is in a default status it must be initialized by a sequence program after control resumption Before performing initialization check whether the contents of the initialization program are correct or not 1 Normal system configuration The sequence program should perform initialization on the leading edge of Module READY X0 of the A D converter module When control resumption is executed Module READY X0 turns on and initialization is performed If the sequence program performs initialization only one scan after RUN initialization is not performed 2 When used on remote I O network Insert a user device that will execute initialization at any timing initialization request signal into the sequence program After control resumption turn on the initialization request signal to perform initialization If the sequence program performs initialization only for one scan after entering the RUN status initialization is not performed 5 Resumption of control a b After choosing the Diagnostics Online module change dialog box on GX Developer to display the Online module change dialog box again click the Execution button to resume control Module READY X0 is turned on Online module change x r Operation _ p Target module _ Module change execution 1 0 address O00H 4 To Module name Q64AD Installation confirmation Status Module control restart Ch
107. e properly a Powering off the programmable controller CPU b Resetting the programmable controller CPU TROUBLESHOOTIN A MELSEC Q 8 TROUBLESHOOTING The following section explains the types of errors that may occur when the A D converter module is used and how to troubleshoot such errors 8 1 Error Code List If an error occurs in the A D converter module while writing to or reading data from the programmable controller CPU the applicable error code is written to buffer memory address 19 Un G19 Table 8 1 Error code list Error code inti i decimal eee The input range is set an illegal value using the intelligent function module switch in GX Developer O indicates the incorrectly specified channel number Reset to the correct parameter with GX Developer parameter setting refer to Section 4 5 Turn the power off and on again If the error occurs again the module may be malfunctioning Contact the nearest distributor or branch office with the description of the problem The G P OGSTOR instruction was executed in the Do not execute the G P OGSTOR instruction in the offset gain setting mode offset gain setting mode e The G P OGSTOR instruction was executed e Execute the G P OGSTOR instruction only once 2 2 consecutively for one module At the time of offset gain setting a set value was At the time of offset gain setting write a set value written to the E7PROM 26 or more times only once at one time T
108. ecimal input Load file Make text file Setting range I 0000 FFFF Stop monitor Execute test Close 2 User range saving 3 a b Change the Setting value field of pass data read request to Request and click the Execute test button When read is completed the values are displayed in the Current value fields of CHO industrial shipment settings offset gain values CHD user range settings offset gain values Compare the values with those in the range reference table and record them if they are correct Refer to Section 7 4 for the range reference table User range restoration a b c Set the recorded values in the Setting value fields of CHU industrial shipment settings offset gain values user range settings offset gain values Select all the Setting value fields of CHU industrial shipment settings offset gain values user range settings offset gain values and click the Execute test button When write is completed the set values are displayed in the Current value fields of CHO industrial shipment settings offset gain values CHO user range settings offset gain values Change the Setting value field of pass data write request to Request and click the Execute test button Make sure that the indication in the Current value field of pass data write request changes from Request to OFF on completion of write 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 7
109. ed by the user when Section 5 6 the analog output range setting is user range setting the offset and gain can be easily set while viewing the screen Pass data The pass data pass data classification setting industrial shipment settings offset gain values user range settings offset gain values can be monitored and set p Generates FB automatically from the intelligent function module FB conversion se i d Section 5 7 parameter initial setting auto refresh setting 1 If initial setting and auto refresh setting are performed the intelligent function module parameters require a maximum of 76 bytes per module 5 UTILITY PACKAGE GX Configurator AD 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 GX Configurator AD 1 For safety Since GX Configurator AD is add in software for GX Developer read Safety Precautions and the basic operating procedures in the GX Developer Operating Manual 2 About installation GX Configurator AD is add in software for GX Developer Version 4 or later Therefore GX Configurator AD must be installed on the personal computer that has already GX Developer Version 4 or later installed 3 Screen error of Intelligent function module utility Insufficient system resource
110. eeseeeseeeseaeteaesenseaeeeaes 5 11 5A Initial Selingan cacani anana a dvd aaa a avid a eS 5 14 5 5 Auto Refresh Settings osissa iiie aiai aa aana Piera n Aia inr arai aaan Deniere 5 15 SO Monitoring NeStiicv ceia we dited aAA eed AAAA eed 5 17 5 6 1 Monitor test screen oranin nia oaar a T R OE E A T 5 17 5 6 2 Offset gain setting operation Function version C or later eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeereeas 5 21 5 6 3 Offset gain setting operation Function version B or earlier esesseeesieseeerseresrersrsrrsrrsrrsrrsrnses 5 23 5 6 4 Confirmation of Conversion Characteristic ecceccceceeceseceeeeeeeeeeeeseeeseeeseeeseeeseeeseeeseaeseaeseneeaeeaes 5 25 56S Pass data QG4AD ctete lin ieridona ne anand tatiana aia datian dead 5 27 5 6 6 Pass data Q68ADV Q68AD I eeeeeceeeceeeeeeeceeeeeceeeceeeseneseeeseeeseneseaeseeeseeseaeseneseeeseeeseaeseaeseneeeneeaes 5 29 5 7 FB Conversion of Initial Setting Auto Refresh Setting c cc eeeeeceeeeeseeeeeeeeereeeeeeeeeeeeeeeeeeeaeeeaeeeaeeatesas 5 30 oe USAGES OFF Bis crena a a a a T ohisetease 5 31 58 1 Outline crienerarrnienriiiit oti TA aR E RA bene A RA T R 5 31 5 8 2 Paste an FB to a Sequence Prograim e secceeceeeeeeeeeeeeteeeteeeteeeseeeseeeceeseeeseeeseeeseneseeeseaeseaeseneseneeeaes 5 33 5 8 3 Convert Compile a Sequence Program ccccecceeceeceeeceteeeeeeeteeeeeeeseeeseeeseeeseeeseeeseeeseaeseaeeeneeeateaes 5 34 6 1 For Use in Normal System Configuration
111. emory address 30 to 45 Un G30 to Un G45 are reset by setting Maximum value minimum value reset request YD to on Performed by the A D converter module Maximum Maximum and minimum values gt Performed by the sequence program value minimum storage area buffer memory addresses 30 to 45 Un G30 to Un G45 completed flag 7 es Maximum value minimum value reset request YD value reset Maximum value minimum value reset completed flag XD 1 This turns on when conversion for all of the channels that are conversion enabled A D conversion has been completed completed flag 2 When reading the digital output values use this signal or A D conversion completed flag buffer memory address 10 Un G10 as an interlock 1 The error flag turns on when a write error occurs 2 To clear the error code set Error clear request YF to on Performed by the A D converter module gt Performed by the sequence program XF Error flag Error flag XF ER Error clear request YF The error code is read during this interval PECIFICATION A MELSEC Q 2 Output signals 1 Turn on this signal to enable the following setting contents e A D conversion enable disable setting buffer memory address 0 Un GO CH Average time average number of times buffer memory address 1 to 8 Un G1 to Un G8 e Averaging process setting buffer memory address 9 Un G9 Operating conditi
112. ent settings gain value oo o CH4 Industrial shipment settings gain value o w CH3 Industrial shipment settings offset value CH4 Industrial shipment settings offset value Z D1u f C Rw Section 3 4 15 2 2 CCH CDi i CEH CFu DOH p 2 D2k 210 D3 D n DSi Den 214 CH3 User range settings offset value D7 D8 Dok K1 Indicates whether reading from and writing to a sequence program are enabled R Read enabled W Write enabled X2 Areas used to restore the user range settings offset gain values when online module change is made Refer to chapter 7 for details of online module change i i i i i 7210 214 PECIFICATION Sa MELSEC Q 3 4 2 Buffer memory assignment Q68ADV This section describes the assignment of the Q68ADV buffer memory Do not write data from System area or sequence program to the buffer memory area where writing is disabled Doing so may cause malfunction Table 3 5 Buffer memory assignment Q68ADV 1 3 a a TT ETT pts 1 CH1 average time average number oftimes o rw 2 CH Average time average numberoftimes o rw 3 CH Average time average numberoftimes o rw a 4 Cha Average time average numberof times o rw Ps CHS Average time average number oftimes o0 rw 6 CHa average time average number oftimes o rw Z CHT Average tmelaverage number otimes 0 Rw 8 CHB Average timelaverage number of times
113. ent settings offset value Approx 800CH Industrial shipment settings gain value Approx BD38H 2 Reference table for User range settings offset gain values buffer memory address 218 to 233 Un G218 to Un G233 Example When the offset value and gain value of channel 1 are 1V and 5V respectively in the Q68ADV the reference value of CH1 User range settings offset value buffer memory address 218 Un G218 is approx 8C46x and that of CH1 User range settings gain value buffer memory address 219 Un G219 is approx BD38n Offset gain value Reference value Hexadecimal wv _ Approx 800C Approx 8C46H Voltage Approx BD38H Approx FA64H Approx 800CH Current 4mA Approx 8C46H Approx FAG4H 7 ONLINE MODULE CHANGE MELSEC Q 7 5 Precautions for Online Module Change The following are the precautions for online module change 1 Always perform an online module change in the correct procedure A failure to do so can cause a malfunction or failure If an online module change is made with the user range setting the accuracy after that will fall to about less than three times of the accuracy before that Re set the offset gain values as necessary Do not perform online module change during setting the offset gain mode If performed the A D converter module may not operate properly Do not perform the following operations during online module change If performed the A D converter module may not operat
114. er See 7 Make text file End setup Cancel c Writing the intelligent function module parameters refer to Section 5 3 3 The intelligent function module parameters are written to the remote I O station This operation is performed using the Intelligent function module parameter setting module select screen 3 Programming example Digital output value read X21 X120 X12E Y129 p p Wit D11 J Read CH1 Digital output value mov w12 D12 7 Read CH2 Digital output value Fo w3 D13 J Read CH3 Digital output value Error code display and reset X23 X12F ttt 1 BCD w4 K3Y30 J Output the error code in BCD a Y12F J Turn on Error clear request YF RST Y12F J Turn off Error clear request YF To write the intelligent function module parameters set the target remote I O station from Online Transfer setup on GX Developer They can be written by e Directly connecting GX Developer to the remote I O station e Connecting GX Developer to another device such as a CPU module and passing through the network PR RAMMIN me MELSEC Q 6 2 2 Programming example without using the utility package The dedicated instructions used for reading writing the buffer memory of the intelligent function module on a remote I O station REMTO and REMFR are the execution type for which several scans are needed Therefore transmissions of the execution results are not synchronized with the I O signal o
115. er modules MELSEC G MITSU MODEL Serial No first 5 digits Function version Relevant regulation standards a MITSUBISHI ELECTRIC MADE IN JAPAN 2 SYSTEM CONFIGURATION MELSEC Q b Checking on the front of the module The serial number and function version on the rating place is shown on the front at the bottom of the module Q64AD ma V Function version Serial No c Checking in the System monitor dialog box Product Information List To display the system monitor select Diagnostics System monitor and click the Product Information List button of GX Developer Function version Serial No Product No Product Information List x s1ot Type series model nane Q QO6UDHCPU 0 0 Intelli Q Q64aD l 6pt 0000 061220000000000 c o 1 None gt None AES ETE 0 2 0 3 None 0 4 None a 1 Displaying the product No Since the A D converter modules do not support the production number display is displayed in the Product No field The serial number displayed in the Product information list dialog box of GX Developer may differ from that on the rating plate and on the front of the module e The serial number on the rating plate and front part of the module indicates the man
116. er range settings offsetvalue system S 35 CH8 User range settings gain vaie Cid CC System x3 Setting is not necessary If setting is made the offset gain values will not be read properly S S S S S S S S S S S S S S S S S S App 8 App 8 APPENDICES 1 Functions MELSEC Q a Reads the offset gain values of the user range setting of the A D converter module to the CPU b There are two types of interlock signals for the G P OGLOAD instruction the completion device D and the status display device at completion D 1 1 Completion device Turns on in the END processing of the scan where the G P OGLOAD instruction is completed and turns off in the next END processing 2 Status display device at completion Turns on and off depending on the completion status of the G P OGLOAD instruction Normal completion Stays off and does not change Abnormal completion Turns on in the END processing of the scan END processing END processing Sequence program ON G OGLOAD instruction Orr where the G P OGLOAD instruction is completed and turns off in the next END processing END processing END processing Execution completion of the G OGLOAD instruction Completion device D BEF Status display device OFF at completion D 1 2 Operation error No errors 3 Program example ON ON Abnormal completion
117. g is used and initial setting was made with GX Configurator AD thers ystems available hegae e a RE 7 14 7 3 4 When user range setting is used and initial setting was made with GX Configurator AD other system is unavailable urisini reier pannan tareni ranra Ranea rR ARINKA rA REAA RE RREA NRA AKIRE NEARE ERRENA 7 19 7 3 5 When user range setting is used and initial setting was made with sequence program other system is available c qsscnesninerainnoiiiara eiia aia a aiaiai iaia 7 25 7 3 6 When user range setting is used and initial setting was made with sequence program other system is UNAVAIIADIC ee eee eeceeeeeeeeeeeeeeeeeeeesaeesaeeseeseeseesaeesieeseesieesieesieesieesieesieeneesaeees 7 30 7 4 Range Reference Table ccecccsccesccesccceccescceeccessceecenseeesecesaeecensacesaeesaetecensaeesaceuaeteaeeaaeeneeeaeteaeenaeeees 7 35 7 5 Precautions for Online Module Change ecccecceeeeeeeeeeeeeeeeneeeeeeaeeeaeeeaeeeaeseaeeeaeseaeeeaeeeaeeeaeeeaeeeeeateeas 7 36 8 1 Error Code LiStiinc iii ite Ae eed Ald A ie de Al de td i ede at aed A aiaa 8 1 8 2 Troubleshooting i 4 ciseartiia ae ie enti aie eet oe i onion ee 8 3 8 2 1 When the RUN LED is flashing or turned Off 0 eeceeceeeeeeeeeeeeeeeeeeeeeseeeseeeseeeseneseeeeeneseneseneeenaaes 8 3 8 2 2 When the ERROR LED is om or flaSHIN enere eR EER 8 3 8 2 3 When the digital output values cannot be Lead eceeceeeeeeeeeeeeeeeeeteeeteeeseeeseeeseneseeeseaeseaeteneeeaaeaes 8 4
118. gram are enabled R Read enabled W Write enabled x2 Areas used to restore the user range settings offset gain values when online module change is made Refer to chapter 7 for details of online module change PECIFICATION Sa MELSEC Q 3 4 3 Buffer memory assignment Q68ADI This section describes the assignment of the Q68ADI buffer memory Do not write data from System area or sequence program to the buffer memory area where writing is disabled Doing so may cause malfunction Table 3 6 Buffer memory assignment Q68ADI 1 3 ey e a ET a ts 1 CH1 average time average number oftimes o rw 2 CH Average time average numberoftimes o rw 3 CH Average time average numberoftimes o rw am CHA average timelaverage number of times o Rw _ Section 3 4 5 5 5 CH5 average time average numberoftimes o rw 6 CH Average time average numberoftimes o rw m 7 CHT average time average numberoftimes o rw chs average tmelaverage number otimes 0 RW _ og Averagngprocess seting o rw lt CH Digtal outputvae o R CH2Digtaloutputvaue o R o R OOo OOR To ye ER OO a RE Section 3 4 6 Section 3 4 7 CH3 Digital output value CH4 Digital output value CH5 Digital output value o w CH6 Digital output value E i a CH7 Digital output value C E pO R CH8 Digital output value O o R Pte tL rorcode o R Section 3 4 9
119. hange and restart the control of the module again k c Click the Close button to close the System monitor dialog box r Installed status r Base Base Module o 1 2 3 4 MasterPLC gt LJ LIE Main base Q1ZPHCPU r Parameter status r Mode E70 adaress o io zo so ao I I I I I System monitor o z s a4 Online module change None None None None Diagnostics Q12PHCPU l pt l6pt l pt l6pt Module s Detailed Information Base Information r Status Start monitor Product Inf List BH Module system error m Module error a Module warning oO Module change Stop monitor Close d Choose Online Debug Device test on GX Developer and set the prerecorded values to the buffer memory 7 ONLINE MODULE CHANGE e f 9 MELSEC Q Turn User range writing request YA from off to on to restore the user set values to the module After confirming that Offset gain setting mode flag XA is on turn off User range writing request YA Set the channels to be used to A D conversion enabled in A D conversion enable disable setting buffer memory address 0 Un GO and turn on or off Operating condition setting request Y9 Monitor CHLI Digital output value buffer memory address 11 to 18 Un G11 to Un G18 to check whether proper conversion has been made or not Since th
120. hat does not break module inner electrical resistance Refer to the user s manual for the CPU module being used for general specifications of the A D converter modules Insulation resistance 3 1 2 I O conversion characteristic The I O conversion characteristic represents the angle formed by a straight line connecting the offset value and gain value when the analog signals voltage or current input from outside the programmable controller are converted to digital values Offset value The offset value denotes the analog input value voltage or current that makes Digital output value 0 Gain value The gain value denotes the analog input value voltage or current that makes Digital output value 4000 in normal resolution mode 12000 when 0 to 5 V 1 to 5 V 4 to 20 mA 0 to 20 mA or the user range setting is selected in high resolution mode 16000 when 10 to 10 V or 0 to 10 V is selected in high resolution mode PECIFICATION eda MELSEC Q 1 Voltage input characteristic a Voltage input characteristic in normal resolution mode Figure 3 1 shows a graph of the voltage input characteristic in normal resolution mode Analog input practical range Digital output value 0 Analog input voltage V Analog input x2 Maximum Number Offset value Gain value Digital output value range setting EFH o teosv tomv 0 to 4000 2 otsv 1 25 mV 3 10t0 10 4000 to 4000 4 owo
121. he G P OGSTOR instruction was executed for the 163 model that differs from the model for which the G P OGLOAD instruction had been executed The average time setting value for CHO Average time average number of times buffer memory 2001 address 1 to 8 Un G1 to Un G8 is outside the range of 2 to 5000 ms O indicates the incorrectly specified channel number The average number of times setting value for CHO Average time average number of times buffer memory address 1 to 8 Un G1 to Un G8 is outside the range of 4 to 62500 times O indicates the incorrectly specified channel number The offset value is equal to or greater than the gain value at the time of user range setting or user range Reset so that the offset value becomes smaller than restoration the gain value O indicates the error causing channel number The offset gain channels were set at the same time Reset the contents of Offset gain setting mode during offset and gain value settings or both were Offset gain specifications buffer memory address 22 set to 0 23 Un G22 Un G23 1 Not written to Error code buffer memory address 19 Un G19 Written to the completion status area S 1 of the G P OGSTOR instruction Module error at startup 161 16 Execute the G P OGLOAD and G P OGSTOR instructions for the same model Reset the average time setting to a value within the range of 2 to 5000 ms Reset the average number of times setting value to within the
122. ie ee 2 i l 1 aal Normal completion 1 scan The following program is designed to read the offset gain values of the A D converter module mounted in the position of I O number X YO to X YF when M11 is turned on Control data setting M11 M20 M21 x1 E AR ET E E E TE E EEEE eu See a ee oe E z KO D102 Specifies voltage PEE TOENE E E A eee E loc eee eo ae 4 SET Miz D10 woo Dedicated instruction GP OGLOAD Jpg gt ste 0 M21 k AR 1 Performs processing at abnormal completion TEND 1 For the Q68ADV Q68ADI the program in the dotted area is not necessary App 9 App 9 APPENDICES MELSEC O Appendix 2 3 G P OGSTOR Restores the offset gain values of the user range setting stored in the CPU to the A D converter module Usable devices y Internal device Link direct device Intelligent Setting 3 i Index Constant System user File JOO function data register Others register module device Bit Word Bit Word K H app ee ak Instruction Execution symbol condition Command G OGSTOR G OGSTOR Un S D Command GP OGSTOR GP OGSTOR Un S D Setting data Setting data Setting range Data type Un____ Start I O number of the module 0 to FEH Binary 16 bits S Start number of the device in which control data is stored in the tangs orme Devic specified device D e name Device that is turned on 1 scan on completion of dedicated Within the range of
123. ield of Pass data write request to Request and click the Execute test button Make sure that the indication in the Current value field of Pass data write request changes from Request to OFF on completion of write 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 6 6 Pass data Q68ADV Q68ADI Perform operation in the following sequence to save restore the user range 1 Switch to the pass data screen Perform the operation in Section 5 6 1 to display the pass data screen REES r Module information Module type A D Conversion Module Stat 1 0 No 0000 Module model name Q68ADV Function Version C Setting item Current value Setting value cI CH1 Industrial shipment settings offset value 0000 0000 CH1 Industrial shipment settings gain value 0000 0000 CH2 Industrial shipment settings offset value 000 0000 CH2 Industrial shipment settings gain value 000 0000 CH3 Industrial shipment settings offset value 000 0000 CH3 Industrial shipment settings gain value 0000 0000 CH4 Industrial shipment settings offset value 0000 0000 CH4 Industrial shipment settings gain value 0000 0000 CH5 Industrial shipment settings offset value 0000 0000 CHS Industrial shipment settings gain value 0000 0000 CHE Industrial shipment settings offset value I 0000 0000 p Flash ROM setting Details 5 z i Curent value Monitoring Eevee display Hexad
124. inal with a marked tube or an insulation tube is recommended 4 SETUP AND PROCEDURES BEFORE OPERATION 4 4 2 External wiring 1 Q64AD a For voltage input x2 Signal source 0 to 10 V F 500kQ V I 7 V 500k LL GND z SLD 1 Shielded b For current input x2 Signal source 0 to 20 mA 1 3 500kQ N V m l 2502 l V V 500kQ SLD GND va 1 Shielded AG DS 4 5 x1 Use a twisted two core shielded wire for the power wire 2 Shows input resistance of the Q64AD x3 If current input always connect to V and I terminals 4 A G terminal does not normally require wiring However it can be used as GND for external device ground under the following conditions 1 When there is a difference in polarity between A G and GND for external device 2 As an alternative for 0 V input when only the side is open on a wire 5 Always use a ground In addition ground the FG of the power supply module In an unused channel if terminals remain open an erratic digital value may be output To prevent this take any of the following measures 1 Select Disable in A D conversion enable disable setting for the unused channel Note that changing the setting from Enable to Disable will reduce the sampling time 2
125. ing processing by time 2 to 5000 ms x1 When number of times in setting range is more than 32768 in a sequence program set the range in hexadecimal For example use F424H for setting of 62500 time 4 Zero is set as the default 1 The channel where the value outside the above setting range has been written results in an error Error code is stored into Error code buffer memory address 19 Un G19 Error flag XF turns on and the A D conversion processing is performed at the pre error setting 2 Since the default setting is 0 change it according to the processing method 3 The value which has been set to the channel specified for sampling processing is ignored PECIFICATION Sa MELSEC Q 3 4 6 Averaging process setting buffer memory address 9 Un G9 1 When selecting sampling processing or averaging processing write the setting to Averaging process setting buffer memory address 9 Un G9 2 When averaging processing is selected select average time or average number of times 3 Itis necessary to set Operating condition setting request Y9 to on off in order to enable the setting Refer to Section 3 2 2 4 By default sampling processing is set for all channels 5 In the case of the Q64AD module b4 to b7 and b12 to b15 CH5 to CH8 are invalid b15 b14 b13 b12 b11 b10 b9 b8 b7 b bd b4 b3 b2 b1_ bO CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1 CH8 CH7 CH6 CH5 CH4 CH3 CH2 CH1
126. ion 1 10L 2 SYSTEM CONFIGURATION MELSEC Q MEMO PECIFICATION esa at MELSEC Q 3 SPECIFICATIONS 3 1 Performance Specifications 3 1 1 Performance specifications list Table 3 1 shows the performance specifications of the A D converter modules Table 3 1 Performance specifications Q64AD Q68ADV Q68ADI 3 Analog in wooo points 4 points 4 channels 8 points 8 channels T 8 channels Analo Voltage sid 10 to 10 V DC Input resistance value 1M 2 g 0 to 20 mA DC Ss mA DC input Current input resistance value 250 input resistance value 250 16 bit signed binary normal resolution mode 4096 to 4095 high resolution mode 12288 to 12287 16384 to 16383 Normal resolution mode High resolution mode Analog input range Digital output Maximum value resolution value resolution 0 to 16000 0 625 mV O to 4000 0 416 mV 0 to 12000 tto5v to5V aom 0 mV 0 333 mV I O characteristics Voltage 16000 to Maximum resolution 10 to 10 V 2 5 mV 46000 0 625 mV 4000 to 4000 Digital output Users eel 12000 to oarsmy 375 mV 0 333 mV aa 12000 0to20mA 20 mA 0 to 4000 4 to 20 mA Current Users range setting 0 to 12000 12000 to 4000 to 4000 1 37 U A 12000 Normal resolution mode High resolution mode Ambient temperature 0 to 55 C Ambient temperature 0 to 55 C Ambient Ambient Analog input range With Without temperature With Without temperature temperatu
127. ion enableldisable setting OF O O AJD conversion method Oo ee ee Sampling processing COC o O Averaging processing d O J o O Maximum and minimum valuesholdfunction O O O Temperature drift compensation function 90o O oO Multiple CPU system compatibtity x Oo o Resolution mode Normal resolution mode je Oe EI High resolutionmode EX OO High resolution mode status fag 8 x Oo o Maximum value minimum value reset completed fag xD x Oo a e a Switching between normal mode and offset gain setting mode fee Buffer memory Mode switching setting and Operating condition setting request Y9 GX Configurator AD Intelligent function module switch setting O Compatible X Not compatible App 1 App 1 APPENDICES MELSEC O Appendix 1 2 Combinations of A D converter module functions and GX Configurator AD software versions The following table indicates the A D converter module functions and corresponding GX Configurator AD software versions GX Configurator GX Configurator Function A SWODSC QADU SWOD5SCQADUY AD Version 1 10L AD Version 1 16S to 1 15R or later Normal resolution mode Hof aL resolution mode 1 Maximum value minimum value reset completed flag XD 1 2 Multiple CPU system compatibility 1 Normal mode offset gain setting mode switching 3 O Compatible X Not compatible x1 Functions added by function version B
128. is turned on 1 scan on completion of the dedicated instruction processing D 1 also turns on at an abnormal completion Within the range of the specified device Control data of the Q64AD 1 2 Setting data Setting range_ Set by s Systemarea o i o Stores the status when the instruction is complete S 1 Completion status 0 Normal completion System Other than 0 Abnormal completion Specify the voltage current of the pve om offset gain values to be read 0 Voltage specified S 2 Pass data classification setting 1 Current specified 0000 to 000F H User b15 b4 b3 b2 bi b0 0 0 CH 4 CH 3 CH 2 CH 1 o S 4 S 5 S 6 S 7 S 8 S 9 s E CH1 Industrial shipment settings offset value jal shi P System CH2 Industrial shipment settings offset value System S 5 CH1 Industrial shipment settings gain value CH2 Industrial shipment settings gain value S 8 CH3 Industrial shipment settings offset value System S 9 CH3 Industrial shipment settings gain value System x1 Set only the pass data classification setting S 2 If data is written to the area set by the system the offset gain values will not be read properly App 6 App 6 APPENDICES MELSEC O Control data of the Q64AD 2 2 S 10 CH4 Industrial shipment settings offsetvalue _ CT System S 11 CH4 Industrial shipment settings gain value CL
129. l ccccccccccsssececssseeesesseeees 5 12 Digital output VAIUCS eee eee eeeeteeeeeeteeeee 3 28 Digital OUPU uceci utc 3 1 EMC directive cccccccecceeeceeeeeeeeeteeeeneeees A 12 Error clear request ccccssceeeeeeeeeteeeeeeees 3 16 Error Code list 4 4 atcakenetig eatin 8 1 ERROR LEDa e ae e e a ia 4 3 Error flag cence tate as 3 15 External dimension diagram App 16 External Wiring eecceceeceseceeeeeeeeeeeneeeeeeeeeenes 4 6 FB conversion de patpat e 5 30 Function version cccccceeee 1 2 2 3 App 1 Index 1 G H 1 L M G POFFGAN 2 40 4ca annealed App 4 G P OGLOAD orienten App 6 G POGSTOR crcrireiariaiin App 10 Gain vale me a a a a aaa 3 2 GX Configurator AD eececeeeeeeeeetereteeeeeees 2 4 GX Configurator AD software version neat n it eat Mike cea eke ita tee aa 2 4 App 2 GX Developer cccceceessecesesseeesesseeees A 13 2 4 Handling precautions eceeeeeeeseeteenreee 4 1 High resolution MOC ceeeeeeeeeeeeeeeteeees 3 1 High resolution mode status flag 3 13 I O assignment Setting cece eeeeeeeeeeeeeee 4 9 W O Characteristics ccccceeceeeeeeeeeteeeeees 3 1 I O occupied points ccceeeceeeeeeeeteeeteeees 3 2 Industrial shipment settings offset gain value E uy daniel ivad E 3 32 Input range ceececeeeeeeeeeeteseeeseeeeeees 3 29 4 8 istal as a rer reer reer 5
130. l were turned on by a sequence program y Module stops operating Operate GX Developer to start RUN LED turns off an online module change Conversion disabled Vv Dismounting of module y Click the Execution button of GX Developer to make the module dismountable Vv Dismount the corresponding module v 3 Mounting of new module Mount a new module Yy Yv X Y refresh resumes and the module starts RUN LED turns on Default operation XO remains off When there are initial setting parameters operation is performed according to the initial setting parameters at this point After mounting the module click the Execution button of GX Developer Operation check before control start Y 4 Operation check Click the Cancel button of GX Developer to leave the online mode Conduct an operation test on the new module using Device test of GX Developer or Monitor test of x 7 GX Configurator Module operates according to test operation processing by write to buffer memory at this point l Perform user range restoration m Operation check completed v Resumption of control Y X0 Module READY turns on Operate GX Developer to 4 resume the online module Start is made when XO turns change mode and click the from off to on Executi
131. l output value cannot be read after proper corrective actions have been taken according to the above check items Consult the nearest representative or branch 8 TROUBLESHOOTING MELSEC Q 8 2 4 Checking the A D converter module status using GX Developer system monitor When the A D converter module detail information is selected in GX Developer system monitor Error code LED on status and status of the intelligent function module switch setting can be checked 1 Operating GX Developer Diagnostics System monitor Select the A D converter module to check the status Module s Detailed Information 2 Module Detail Information a Checking the function version The function version of the A D converter module is displayed in the product information field b Checking Error code The error code stored in buffer memory address 19 Un G19 of the A D converter module is displayed in the Present Error field When the button is pressed the contents displayed in the Present Error field are displayed in the No 1 field x Module Module Name 0644D Product information 061220000000000 C lt Function version 1 0 Address 0 Implementation Position Main Base OSlot m Module Information Module access 1 0 Clear Hold Settings Fuse Status _ Noise Filter Setting Status of 1 0 Address Verify Input Type Remote password setting status Error Display Display format gt No asai m H
132. l the terminal block b After mounting the module click the Execution button and make sure that the RUN LED is lit Module READY X0 remains off Online module change x r Operation Target module Module change execution 1 0 address O00H G a RT Module name Q644D Installation confirmation Status Module control restart k Changing module r Status Guidance The module can be exchanged Please execute after installing a new module Cancel 7 NLINE MODULE CHANGE z aei a MELSEC Q 4 Operation check a To make an operation check click the Cancel button to cancel control resumption Online module change x r Operation r Target module Module change execution 1 0 address 000H She Module name Q644D Installation confirmation r Status Module control restart A Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel b Click the OK button to leave the Online module change mode MELSOFT series GX Developer CG _ The online module change mode is stopped c gt Even if the stop is executed the online module change mode on the PLC side is not cancelled Please execute the online module c
133. lease execute after installing a new module Execution Cancel 7 ONLINE MODULE CHANGE MELSEC Q 4 Operation check a b d To make an operation check click the Cancel button to cancel control resumption Online module change x r Operation r Target module Module change execution 1 0 address OOH Mie Module name Q64AD Installation confirmation r Status Module control restart Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel Click the OK button to leave the Online module change mode MELSOFT series GX Developer Even if the stop is executed the online module change mode on the PLC side is not cancelled Please execute the online module change and restart the control of the module again D The online module Sherge mode is stopped OK Click the Close button to close the System monitor dialog box System Monitor x r Installed status r Base Base Module O O Main base Q1ZPHCPU m Parameter status r Mode Evo Address o Jio zo eo 40 of if2z2 3f4 __ pear E None None None None E Diagnostics a Sy
134. lled module are restarted Please confirm the parameter setting and wiring etc and execute Cancel Click the OK button to leave the Online module change mode MELSOFT series GX Developer GZ _ The online module change mode is stopped 5 Even if the stop is executed the online module change mode on the PLC side is not cancelled Please execute the online module change and restart the control of the module again 7 NLINE MODULE CHANGE C MELSEC Q c Click the Close button to close the System monitor dialog box System Monitor x r Installed status m Base 0 l z 3 4 Base Module MasterPLC gt CICE Main base F F xpansion Unmno Unmo Unmo Unmo A untijuntijuntijunti a Ing jng jng ing pa a Q12PHCPU a m Parameter status r Mode 1 0 TEE System monitor l litz 3 4 Online module change Diagnostics Module s Detailed Information Base Information r Status Start monitor Product Inf List Oo Module system error E Module error a Module warning g Module change Stop monitor Close d On the pass data screen of GX Configurator AD set the prerecorded values and perform User range writing request Refer to Section 5 6 5 5 6 6 e Monitor CHO Digital output value buffer memory address 11 to 18 Un G11 to Un 18 to check that proper conversion has been made Eix m Mo
135. may cause the screen to be displayed 5 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 4 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 function 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 5 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 AStart E MELSOFT series GX Deve Ef Inteligent function Module Zj Intelligent function M 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 6 Number of parameters that can be set in GX Configurator AD When multiple intelligent function modules are mounted the number of parameter settings must not exceed the f
136. memory address 22 Un 22 Y Set Channel change request YB to on Y Verify that Channel change completed flag XB is on E ee Set Channel change request YB to off Adjust other channels Turn on User range write request YA to register the value of offset gain settings with the A D converter module y Check Offset gain setting mode flag XA is off Turn off User range write request YA 7 Verify Offset gain setting mode status flag XA is on ERROR LED lit Switch to the normal setting mode 1 End 1 2 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q x1 The mode switching normal mode to offset gain setting mode to normal mode method is given below e Dedicated instruction G P OFFGAN Refer to Section 4 6 2 a Setting made to Mode switching setting buffer memory address 158 159 Un G158 Un G159 and turning Operating condition setting request Y9 from off to on sp she bashed cud a aa ia E ea aaa Refer to Section 4 6 2 b e Intelligent function module switch setting Refer to Section 4 5 Section 4 6 2 c After intelligent function module switch setting reset the programmable controller CPU or switch power off then on x2 Do not perform the following during 2 operation If performed an error occurs in E PROM data and the A D converter mod
137. meter gt gt tab 3 Menu bar a File menu Intelligent function module parameters of the project opened by GX Developer are handled Open parameters Reads a parameter file Intelligent function module parameter Online T e nres A Close parameters Closes the parameter file If any data are eer ae modified a dialog asking for file saving will Delete parameters a p p ear Save parameters Saves the parameter file Delete parameters Deletes the parameter file Open FB support parameters Opens the FB support parameter file Save as FB support parameters Saves the FB support parameter file Exit Closes this screen b Online menu Monitor Test Activates the Select monitor test module screen Intelligent function module utility C MELSEC Gppw i Tnfeligent function module parameter oniga Too Hap l Read from PLC Reads intelligent function module parameters from the Select a target intelligent function m irala A C P U m od u le 2 a OST Write to PLC Writes intelligent function module parameters to the CPU module 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 1 Saving intelligent function module parameters in a file Since intelligent function module parameters cannot be saved in a file by the project saving operation of GX Developer save them on the shown module selection screen Reading writing intelligent function module parameters from to a programmable controlle
138. mory area 4 When reading Digital output value use A D conversion completed flag XE or A D conversion completed flag buffer memory address 10 Un G10 as an interlock PECIFICATION Sa MELSEC Q 3 4 9 Error code buffer memory address 19 Un G19 1 The error codes generated by the A D converter modules are stored here 2 Refer to Section 8 1 for the details of Error code 3 4 10 Setting range buffer memory address 20 21 Un G20 Un G21 1 These areas are used to confirm Setting range of the A D converter module 2 The setting values for CH1 to CH4 are stored in Setting range CH1 to CH4 buffer memory address 20 Un G20 and setting values for CH5 to CH8 are stored in Setting range CH5 to CH8 buffer memory address 21 Un G21 For the Q64AD module Setting range CH5 to CH8 buffer memory address 21 Un G21 is invalid b15 tob12 b11tob8 b7tob4 b3tob0 Un G21 CH8 CH7 CH6 CH5 The setting values are as follows Input range Setting value 4 0 to 20 mA 0to5V 10 to 10V 3 Default setting is OH When the setting for the Q68ADV is OH the analog input range operates between 0 to 10V When the setting is 5H the analog input range will be the same as above The input range cannot be changed by using Setting range buffer memory address 20 21 Un G20 Un G21 For changing the input range perform by the intelligent function module switch Refer to Section 4 5 3 SPECIFICATIONS MELS
139. mounted on the base unit to see if the power supply capacity is adequate Reset the programmable controller CPU and verify that it is i lit If the RUN LED does not light even after doing this the Has a watchdog timer error occurred ats module may be malfunctioning Contact the nearest distributor or branch office with a description of the problem Is the module correctly mounted on the base unit Check the mounting condition of the module Is a module change enabled during an online module Refer to Chapter 7 and take corrective action change 8 2 2 When the ERROR LED is on or flashing 1 When on Check item l oe ted Confirm the error code and take corrective action described s an error being generated g9 in Section 8 1 2 When flashing Check item Is intelligent function module setting switch 5 set to other Using GX Developer parameter setting set intelligent than 0 function module setting switch 5 to 0 refer to Section 4 5 8 TROUBLESHOOTING MELSEC Q 8 2 3 When the digital output values cannot be read Check item Is there any fault with the analog signal lines such as Check for faulty condition of the lines visually and perform a disconnection continuity check of the signal lines Is the CPU module in the STOP status Set the CPU module to the RUN status Are the offset gain settings correct Is the input range setting correct Is the resolution mode setting correct
140. mum and minimum value hold function 1 The maximum and minimum value of Digital output value for each channel are stored in Maximum and minimum values storage area buffer memory address 30 to 45 Un G30 to Un G45 2 When Operating condition setting completed flag X9 turns off the values are cleared to 0 and new maximum and minimum values are stored when conversion begins 3 Since Maximum and minimum values storage area buffer memory address 30 to 45 Un G30 to Un G45 can be rewritten with the sequence program the maximum and minimum values within a specific period of time can be checked 3 3 I O Signals for the Programmable Controller CPU 3 3 1 List of I O signals Table 3 3 shows a list of the I O signals for the A D converter modules Note that I O numbers X Y shown in this chapter and thereafter are the values when the start I O number for the A D converter module is set to 0 Table 3 3 List of I O signal Signal direction CPU lt A D converter module Signal direction CPU A D converter module Device No Input Device No Output Module READY Temperature drift compensation flag fe Use prohibited 1 Use prohibited Maximum value minimum value reset Maximum value minimum value reset completed flag request A D conversion completed flag Use prohibited 1 Doo Emor d E Error clear request User range writing request Channel change request Operating condition setting request Use prohibited 1 Y Y
141. n to stop conversion After confirming that conversion has stopped with A D conversion completed flag buffer memory address 10 Un G10 turn off Operating condition setting request Y9 Device test x m Bit device Device Close vg X Hide history FORCE ON FORCE OFF Toggle force il m Word device buffer memory C Device z Buffer memory Module start 1 00 vi Hex Address jo 7 DEC 7 Setting value F HEX 7 16 bit integer 7 Set r Program Label reference program MAIN v Execution history Find Y9 Force ON Module start 0 Address 0 D F H Find next Y3 Force OFF Re setting 7 NLINE MODULE CHANGE 2 D MELSEC Q b Ifthe saved buffer memory contents are not yet prerecorded record them in the following procedure 1 Make Pass data classification setting buffer memory address 200 Un G200 2 Turn Operating condition setting request Y9 from off to on 3 Compare the offset gain values of Industrial shipment settings and User range settings buffer memory address 202 to 233 Un G202 to Un G233 with the range reference table Refer to Section 7 4 for the range reference table 4 Ifthe values are proper record the offset gain values of Pass data classification setting 1 Industrial shipment settings and User range settings 1 The Q68ADV Q68ADI does not require the setting and recording of Pass data classifica
142. n value g CH5 Industrial shipment settings offset value CH5 Industrial shipment settings gain value 2 z 2 A 2 A 2 2 A t C D D D D D D D D D C C C D D 0 o 9 B C D E F 0 2 3 4 5 6 7 8 9 A B C D M f i ii i 7 H i H k 4 H i 7 i F ii D D PECIFICATION eC MELSEC Q Table 3 6 Buffer memory assignment Q68ADI 3 3 Reference Description Default Rw section be 222 cra Usersngeseungecneetvaue 0 Raw C oe 223 co user renge stings gainvaue 0 rw C eo 224 ci User range setings ofsetvaue 0 rw C en 25 cis user renge stings gainvaue 0 rw C e 22 ons User range setings ofsetvaue 0 Rw C ee 220 one veer range setings ofstvaue t 0 rw json C es 2 one User renge stings gainvaue 0 rw C ee 290 ch user range setings ofsetvaue 0 rw C en f 2 Orr user renge senings gainvaue 0 rw C ee 22 one user range setings ofsetvaue 0 rw C eo 20 one user renge stings garvare 0 rw X1 Indicates whether reading from and writing to a sequence program are enabled R Read enabled W Write enabled x2 Areas used to restore the user range settings offset gain values when online module change is made Refer to chapter 7 for details of online module change PECIFICATION Sa MELSEC Q 3 4 4 A D conversion enable disable setting buffer memory address
143. neeeeaeeeeaeeeseaeesaeeseaeeseacessceeseaeseaeeessaeeesineeseas 3 1 3 1 1 Performance specifications list ccccccescceeeeceeeceeeeeeeeeaeeeeaeeecaeeeseaeeseaeeseaeeseaeesseaeeseaeeseeeseneessineess 3 1 3 1 2 W O Conversion Character istic cecccecseceeeeeeeeeseeeceeeceeeeeeeseeeeeeeseeeseeeseeeseeeseeeseeeseeeseeeseaneaeseaeeeeeenes 3 2 31 3 ACCUIACY EEE EET EE Nati Mahan aA ana RAMA aa aaah 3 9 SeZ FUNCION LEASE rua say ees castes gus N vavsrassechiigvstanisgistantigsstausiastt ETE 3 10 3 2 1 A D Conversion Methods ninia i a Mle a eeetednes 3 10 3 2 2 Maximum and minimum value hold function sssssseseseeeneenersereenserstnstrstnstnstnstnstnstnstnstnstnstnntnntnnn 3 12 3 3 I O Signals for the Programmable Controller CPU ceceeceeeceeeeeeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeesaeeeaeeeaeeeaeeeresas 3 12 3 301 List of l O SIQNalS E E E EE 3 12 3 3 2 Details of I O SIQMAlS EEE ETER EE IE IE ETE TA OE PER EIEE E E E T 3 13 D Butter MONO E aa E EE E O Raa 3 17 3 4 1 Buffer memory assignment Q64AD cecceeceeeeeeeeseeeeeeeeeeeteeeseeeeeeseeeseeeseaeseeeseeeseeeseaeseaeeenesenseaes 3 17 3 4 2 Buffer memory assignment Q68ADV essessessessesresnesnesnesnsrnesneraetnetnsenetactnetnennenacenntncenenncenetneneane 3 19 3 4 3 Buffer memory assignment Q68ADI ce eeceeceeeceeeeeeeeeeeeteeeeeeeseeeseeseeeseeeseeeseeeseeeseaeseaeseneeeneaaes 3 22 3 4 4 A D conversion enable disable setting buffer memory address 0
144. nel EPS TRTETERTCRET ELE Ree ETETETT TELLIT CH1 to CH3 e Channel performing averaging processing using number of times Ss acGlen ae aiars Sie sie arie acetals ble cte v sea arste PAR The average number of times set for CH2 is 50 e Channel performing averaging processing using time lae ar Gated staan se RaR Sead REAR name des The average time set for CH3 is 1000 ms b Devices used by the user Error reset signal PORE EC ECPET ERC CR PREC ET CETTE PETE ETEOCEERTRET RECT ECT X10 e Input signal for Digital output value read command X11 Error code display 3 digit BCD a de Sha dedehac TE TS Y20 to Y2B CH1 Digital output Vale nesses niaaa etieie D11 e CH2 Digital output yalye titre er ne D12 CH3 Digital output yale seereis aisinas nase nini D13 eo Eriorcode aap Ta ea ea Ea E D14 PR RAMMIN gS MELSEC Q 6 1 1 Programming example using the utility package 1 Operating the utility package a Initial setting refer to Section 5 4 CH1 CH2 CH3 A D conversion enable disable setting Enable CH1 Averaging process Setting ecceceeeeeeeereteneeeneeenes Sampling CH2 Averaging process Setting ecceceeeeeeeeneeeneeeneeeees Averaging CH2 Time number of times specifying eects Number of times CH2 Average time average number of times setting 50 CH3 Averaging process Setting ecceceeseeeeeteeeeeeenetenes Averaging CH3 Time number of times SpecifYiNg eee Time ms
145. ng example Remote I O station operating status checking SB47 H s EES SB49 H s EESE SW70 0 H n EA SW74 0 H HR 3 SW78 0 H s EES 5B20 RST T100 T101 T102 T103 T104 SB20 T100 T101 T102 T103 T104 NO M100 x20 x120 il PLS M101 RST SET Set the A D conversion enabled channel initial setting M102 MOV H8 MOV K50 MOV K1000 MOV H604 M102 x129 Y129 K4 K3 K4 K3 K3 M103 M100 M101 M102 M101 M103 DO D3 D9 moe o KO gt 22 Rim0 agi Kl K1 H2 KO D0 K4 M200 M201 ZP REMTO al Kl K1 H2 K9 D9 K1 M200 M210 gt MELSEC Q Master station baton pass status checking Master station data link status checking Remote I O station baton pass status checking Remote 1I O station data link status checking Remote I O parameter communication status checking Master module status checking A D conversion enable disable setting CH2 Average time average number of times CH3 Average time average number of times Averaging processing setting Write to buffer memory 6 11 6 PROGRAMMING Digital output value read processing MELSEC Q Turn on Operating condition setting request Y9 Turn off Operating condition setting request Y9 Concurrently reads A D M210 M211 t SET 129 Y129 X129 5 e RST Y129 X21 X120 X12E Y129 i VT af KU M300 M301 D10 0 s nov D
146. ng is changed A D conversion enable disable setting buffer memory address 0 Un GO e CH Average time average number of times buffer memory address 1 to 8 Un G1 to Un G8 e Averaging process setting buffer memory address 9 Un G9 When Operating condition setting completed flag X9 is off A D conversion processing is not performed Under the following conditions Operating condition setting completed flag X9 turns off e When Module READY X0 is off e When Operating condition setting request Y9 is on Performed by the A D converter module Operating gt Performed by the sequence program condition setting completed flag Module READY X0 Operating condition setting completed flag X9 Operating condition setting request Y9 A D conversion completed flag XE 3 Digital outputs are cleared immediately after Operating condition setting request Y9 turns on Therefore turn on A D conversion completed flag XE before reading digital outputs x1 A watchdog timer error occurs when the program calculations are not completed within the scheduled time due to malfunctions of A D converter module hardware When a watchdog timer error occurs the RUN LED for the A D converter module turns off 3 13 3 13 3 SPECIFICATIONS MELSEC Q Signal Name In offset gain setting mode 1 This is used as an interlock condition for setting User range writing request YA to on off
147. nge 2 Specify whether the offset gain values to be saved restored are voltages or currents when saving restoring the offset gain values of the user range setting b15 b14 b13 b12 b11 b10 b9 Data in b4 to b15 are fixed to 0 1 Current specified 0 Voltage specified Refer to Section 4 6 for the offset gain value setting method 3 SPECIFICATIONS MELSEC Q 3 4 15 Industrial shipment settings and User range settings offset gain value buffer memory address 202 to 233 Un G202 to Un G233 1 3 Areas used to restore the user range settings offset gain values when online module change is made Refer to chapter 7 for details of online module change When the offset gain values of the user range setting are restored the used data are stored The data are stored saved when e Initial setting write is performed by the utility e The operating condition is set Operating condition setting request Y9 turns from off to on 1 or e The offset gain values are written in the offset gain setting mode User range writing request YA turns from off to on x1 The data are not saved when values have been written to Mode switching setting buffer memory address 158 159 Un G158 Un G159 When restoring the offset gain values of the user range setting set the data saved here similarly into the corresponding area of the module where the data will be restored Buffer memory saving recording procedure for online
148. nity and secondary loss from warranty liability Regardless of the gratis warranty term Mitsubishi shall not be liable for compensation of 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 Microsoft Windows Windows NT and Windows Vista are registered trademarks of Microsoft Corporation in the United States and other countries Pentium is a trademark of Intel Corporation in the United States and other countries Ethernet is a trademark of Xerox Corporation All other company names and product names used in this manual are trademarks or registered trademarks of their respective companies SPREAD Copyright C 1997 Farpoint Technologies Inc SH NA 080055 R Analog Digital Converter Module MODEL Q A D U S E poly 13JR03 SH NA 080055 R 1212 MEE afa MITSUBISHI ELECTRIC CORPORATION HEAD OFFICE TOKYO BUILDING 2 7 3 MARUNOUCHI CHIYODA KU TOKYO 100 8310 oo NAGOYA WORKS 1 14 YADA
149. nsibility of Mitsubishi occurs during use of the product within the gratis warranty term the product shall be repaired at no cost via the sales representative or Mitsubishi Service Company 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 ca
150. number of times specifying Number of times CH1 Average time average number of times setting Time 2 to 5000ms Number of times 4 to CH2 A D conversion enable disable setting Enable CH2 Averaging process setting Sampling CH2 Time number of times specifying Number of times Details Select input Setting range Enable Disable Make text file End setup Cancel Explanation of items 1 Setting contents Set whether A D conversion is enabled or disabled and the A D conversion method for each channel 2 Command buttons Make text file Creates a file containing the screen data in text file format End setup Saves the setting data and ends the operation Cancels the setting and ends the operation Initial settings are stored in the intelligent function module parameter After being written to the CPU module the initial setting is made effective by either 1 or 2 1 Cycle the RUN STOP switch of the CPU module STOP RUN STOP RUN 2 With the RUN STOP switch set to RUN turn off and then on the power or reset the CPU module When using a sequence program the initial setting parameters are written at the time the CPU module status changes from STOP to RUN So create the sequence program so that the initial setting will be reexecuted 5 UTILITY PACKAGE GX Configurator AD 5 5 Auto Refresh Settings Purpose MELSEC Q Configure the A D converter module s buffe
151. o check whether proper conversion has been made Since the new module is in a default status it must be initialized by a sequence program after control resumption Before performing initialization check whether the contents of the initialization program are correct or not 1 Normal system configuration The sequence program should perform initialization on the leading edge of Module READY X0 of the A D converter module When control resumption is executed Module READY X0 turns on and initialization is performed If the sequence program performs initialization only one scan after RUN initialization is not performed When used on remote I O network Insert a user device that will execute initialization at any timing initialization request signal into the sequence program After control resumption turn on the initialization request signal to perform initialization If the sequence program performs initialization only for one scan after entering the RUN status initialization is not performed 7 ONLINE MODULE CHANGE MELSEC Q 5 Resumption of control a After choosing the Diagnostics Online module change dialog box on GX Developer to display the Online module change dialog box again click the Execution button to resume control Module READY X0 is turned on Online module change r Operation r Target module Module change execution 1 0 address OOOH Si Module name Q644D
152. oft 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 Microsoft Windows 7 Starter Operating System English version 4 Microsoft Windows 7 Home Premium Operating System English version 3 Microsoft Windows 7 Professional Operating System English version xA Microsoft Windows 7 Ultimate Operating System English version K Microsoft Windows 7 Enterprise Operating System English version 4 1 Install GX Configurator AD in GX Developer Version 4 or higher in the same language GX Developer English version and GX Configurator AD Japanese version cannot be used in combination and GX Developer Japanese version and GX Configurator AD English version cannot be used in combination x2 GX Configurator AD is not applicable to GX Developer Version 3 or earlier In addition GX Developer Version 8 or later is necessary to use the FB conversion function 3 When Windows Vista or Windows 7 is used resolution of 1024 x 768 dots or more is recommended 4 When 32 bit Windows 7 is used add GX Configurator AD Version 2 11M or later in GX Developer Version 8 91V or later When 64 bit Windows 7 is used add
153. ollowing limit Maximum number of parameter settings When intelligent function modules are installed to Initial Auto refresh setting laooqovaoicpu s CPU Gozar sie 256 aozpHiacsPHiaraPHiazsPHoPU s 286 meugcononiors fs QO02UCPU 2048 Oooo o ee Q03UD Q04UDH Q06UDH Q10UDH Q13UDH Q20UDH Q26UDH Q03UDE Q04UDEH 4096 2048 QO6UDEH Q10UDEH Q13UDEH Q20UDEH Q26UDEHCPU MELSECNETIH remote I O station oo o5 e For example if multiple intelligent function modules are installed to the MELSECNET H remote I O station configure the settings in GX Configurator AD so that the number of parameter settings for all the intelligent function modules does not exceed the limit of the MELSECNET H remote I O station 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 AD is as shown below Target module Initial setting Auto refresh setting Q64AD 2 Fixed 13 Max Q68ADV ADI 2 Fixed 25 Max Example Counting the number of parameter settings in Auto refresh setting Auto refresh setting loj xj r Module information Module type A D Conversion Module Start 1 0 No 0000 Module model name Q684DV Module side Module side eres PLC side Setting item Buffer size Transfer ection evice word count CH1 Digital output value 1 1 CH2 output value 1 Blank rows are not c
154. on button to resume Operation is performed control according to the initial setting sequence 2 1 Access to the intelligent function module device UL GL is included 2 In the absence of the operation marked 2 the operation of the intelligent function module is the operation performed prior to that 7 NLINE MODULE CHANGE Z Do MELSEC Q 7 3 Online Module Change Procedure There are the following online module change procedures depending on whether the user range setting has been made or not whether the initial setting of GX Configurator AD has been made or not and whether the other system exists or not Range setting Initial setting Other system Industrial shipment setting GX Configurator AD Oooo O O Section 7 3 1 Industrial shipment setting Sequence program Oooo Section 7 3 2 User range setting GX Configurator AD Section 7 3 3 User range setting GX Configurator AD Section 7 3 4 User range setting Sequence program Present Section 7 3 5 User range setting Sequence program Section 7 3 6 7 3 1 When industrial shipment setting is used and initial setting was made with GX Configurator AD 1 Conversion disable a Set A D conversion enable disable setting buffer memory address 0 Un GO for all channel conversion disable and turn Operating condition setting request Y9 from off to on to stop conversion After confirming that conversion has stopped with A D conversion
155. on setting request 2 Refer to Operating condition setting completed flag X9 column for on off timing In offset gain setting mode 1 This turns on when the value for the adjusted offset gain settings are registered in the A D converter module 2 Refer to Offset gain setting mode flag XA column for on off timing User range writin 9 g Refer to Section 4 6 for offset gain settings request In normal mode 1 This signal turns on when the user range is restored 2 Refer to Offset gain setting mode flag XA column for on off timing Refer to Chapter 7 for user range restoration 1 This turns on when changing the channel for which offset gain settings are to be Channel change performed request 2 Refer to Channel change completed flag XB column for on off timing Refer to Section 4 6 for offset gain settings 1 Maximum and minimum values stored in Maximum and minimum values storage area buffer memory address 30 to 45 Un G30 to Un G45 are cleared by setting Maximum value minimum value reset request YD to on Maximum value minimum 2 Refer to Maximum value minimum value reset completed flag XD column for on off timing 1 This turns on when a write error is cleared YF Error clear request aL 2 Refer to Error flag XF column for the on off timing When User range writing request YA is turned on in the normal mode with A D conversion enabled the A D converter module restores the user range Offset
156. oper to enter the Online module change mode double click the module to be changed online to display the Online module change dialog box System Monitor Monitor System Monitor r Installed status r Base Base Module 0 a 2 3 4 MasterPLC E IE mig kan base QE4RAU U U U O O 2 ia mmo Unmo Unmo Unmo D untijuntijunti junti m mj l pting ng jng ng Q12PHCPU m m EE OO OO l mi r Parameter status r Mode I O Address 0 lo zo 30 40 System monitor Online module change Diagnostics Q12PHCPU Module s Detailed Information es me ese a ee Base Information Status Start monitor Product Inf List O Module system error Module error g Module warning g Module change Stop monitor Close Click the Execution button to enable a module change Online module change r Operation r Target module Module change execution 1 0 address O00H B S Module name Q644D Installation confirmation r Status Module control restart A Change module selection completed r Status Guidance Please turn off Y signal of the changed module when you change the intelligent function module Cancel If the following error dialog box appears the user range cannot be saved Click the OK button and perform the operations
157. ort circuits or malfunction e Be sure to shut off all phases of the external power supply used by the system before mounting or removing the module Not doing so may cause damage to the module In the system where a CPU module supporting the online module change is used and on the MELSECNETH H remote I O stations modules can be replaced online during energizing However there are some restrictions on replaceable modules and the replacement procedures are predetermined for each module For details refer to the chapter of the online module change in this manual e Do not directly touch the conductive area or electronic components of the module Doing so may cause malfunction or failure in the module WIRING PRECAUTIONS WARNING e After wiring attach the included terminal cover to the module before turning it on for operation Failure to do so may result in electric shock CAUTION e Individually ground the FG terminal of the programmable controller with a ground resistance of 100Q or less Failure to do so may result in electric shock or malfunction e Use applicable solderless terminals and tighten them within the specified torque range If any spade solderless terminal is used it may be disconnected when a terminal screw comes loose resulting in failure e Tighten the terminal screws within the specified torque range Undertightening can cause short circuit fire or malfunction Overtightening can damage the screw an
158. ounted Count up all the setting items on this screen and add the total to the number of settings for other intelligent function modules to get a grand total CH5 Digital output value CHE Digital output value CH Digital output value CH8 Digital output value Hi v CH1 Maximum value Make text file End setup Cancel 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 2 2 Operating environment This section explains the operating environment of the personal computer that runs GX Configurator AD Installation Add in target 1 Add in to GX Developer Version 4 English version or later E A personal computer with any of the operating systems below CPU Refer to the next page Operating system and performance required for personal Required memory computer Hard disk For installation 65 MB or more space 20 MB or more Display 800 x 600 dots or more resolution 3 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 SP1 or later Microsoft Windows XP Home Edition Operating System English version SP1 or later Micros
159. ow e CH4 Average time average number of times 0 o w eee A Averaging process setting o Rw Secion346 pm o AID conversion completed flag o R I Section 3 4 7 Oo o ew n CH1 Digital output value o o R O o oa 2 CH2 Digital output value O o R Section 3 4 8 OoOo w ng CH3 Digital output value o R Oo mn o w CH4 Digital output value C E o Loe ee ee ae A a System area OOOO Emorcode o SR Section 3 4 9 ee ad Setting range CH1 to CH4 oo R __ Section 3 4 10 ose n Offsetigain setting mode Offset specification o Rw Section 3 4 11 Offset gain setting mode Gain specification seston 18H o System area CH1 Maximum value C a ee o w 201 RW cre sna vue 0 aw CHA Maximumvalue o w a a oo mme o l w K1 Indicates whether reading from and writing to a sequence program are enabled R Read enabled W Write enabled Section 3 4 12 3 17 3 17 PECIFICATION eC MELSEC Q Table 3 4 Buffer memory assignment Q64AD 2 2 Reference Description Default Read write 1 j section 38 System area 9DH Mode switching setting R W Section 3 4 13 System area ce 2 Pass data classification setting o rw _ Section 3 4 14 C8H System area CAH CH1 Industrial shipment settings offset value Rw O CBH CH1 Industrial shipment settings gain value CH2 Industrial shipment settings offset value Rw O CH2 Industrial shipm
160. p monitor Execute test Close c Ifthe saved buffer memory contents are not yet prerecorded record them in the following procedure 1 Display the pass data screen of GX Configurator AD 2 Set Pass data classification setting and make a pass data read request Refer to Section 5 6 5 5 6 6 3 Compare the current values of Industrial shipment settings and User range settings offset gain values with those of the range reference table Refer to Section 7 4 for the range reference table 4 Ifthe values are proper record the offset gain values of the pass data classification setting industrial shipment settings and user range settings x1 The Q68ADV Q68ADI does not require the setting and recording of Pass data classification setting If the buffer memory values compared with the reference table are not proper save and restoration of the user range cannot be executed Before executing module control resumption make offset gain setting in GX Configurator AD refer to Section 5 6 2 Note that if module control is resumed without offset gain setting being made operation will be performed with the default values 7 ONLINE MODULE CHANGE MELSEC Q 2 Dismounting of module a b After choosing Diagnosis Online module change on GX Developer to enter the Online module change mode double click the module to be changed online to display the Online module change dialog box
161. perations When reading a digital output value on an A D converter module after changing the operating condition during operation be sure to read A D conversion completed flag buffer memory address 10 at the same time Also for the case of changing the operating condition insert an interlock to prevent the execution of the REMFR instruction 1 Operating GX Developer CPU parameter setting e Network type MNET H Remote master e Starting I O No 0000H e Network No 1 e Total stations 1 e Mode Online e Network range assignment M station gt RA station M station lt A station a StationNo Y Y x Points Start End Points Start End Points Start End Points Start End 1 256 o100 mFF 256 oooo ooFF 256 moo oiFr 256 Oooo OOFF x LLI aE Refresh parameters Assignment methad ae e Cine Transient transmission error history status t A aaa Overwrite C Hold Start End Link side PLC side a Dev name Points Start End Dev name Points Start End Transfer SB SB 512 0000 O1FF 512 0000 DIFF Transfer Sw SW 512 0000 DIFF Sw 512 0000 DIFF 8192 0000 1FFF 8192 0000 1FFF 512 0000 DIFF 512 0000 O1FF bd 8192 0000 1FFF Transfer3 LX bd 512 0000 O1FF ae 512 0000 DIFF E S o amp 8192 0000 1FFF gt H amp 8 e 6 PROGRAMMING 2 Programmi
162. processing every 50 times and CH3 performs averaging processing every 1000ms Error code appears in BCD format if a write error occurs a Initial settings e A D conversion enable channoel CH1 to CH3 e Count based averaging processing channel Average count setting of CH2 50 times e Channel performing averaging processing using time Average time setting of CH3 1000ms b Devices used by the user e Initial setting request signal 0 ceeeeeeeeeeeeeeteeeee X20 e Digital output value read command input signal X21 e Error reset signal cecceeceeeeeeeeeeeeeeeeeeeeneeeereeeeeas X23 e Error code display BCD 3 digits eee Y30 to Y3B e CH1 Digital output value oo eee eeeeeeeeeeeeeeeeneees D11 W11 e CH2 Digital output value oo eee eeeeeereeeeeteeeeeeees D12 W12 e CH3 Digital output value ssassn D13 W13 ETOr COo naasa a diadiadieaptaviiaencdan D14 W14 For details on the MELSECNET H remote I O network refer to the Q Corresponding MELSECNET H Network System Reference Manual Remote I O Network 6 PROGRAMMING 6 2 1 Programming example using the utility package 1 Operating GX Developer a CPU parameter setting e Network type e Starting I O No e Network No e Total stations e Mode e Network range assignment MNET H Remote master 0000H 1 1 Online M station gt R st
163. quire programmable controller CPU to be reset 1 Refer to Appendix 1 1 for a comparison of functions of the function version 2 Refer to Section 2 3 on how to check the function version 2 SYSTEM CONFIGURATION Se MELSEC Q 2 SYSTEM CONFIGURATION This chapter explains the system configuration of the A D converter module 2 1 Applicable Systems This section describes applicable systems 2 1 Applicable modules and base units and No of modules a When mounting to CPU module The table below shows the CPU modules and base units applicable to the A D converter module 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 attention to the power supply capacity before mounting modules and if the power supply capacity is insufficient change the combination of the modules ere CPU type CPU model a Up to 8 See upo to Uptoze Sy B ao ae IQO6PHCPU Process CPU ciate a lar2pHcPU_ YP to 64 IQ25PHCPU Redundant CPU OZERHCEY Peder U lezepReoeu a to 16 Universal model QCPU Se eee IQ26UDHCPU O Applicable X N A 2 SYSTEM CONFIGURATION MELSEC Q Applicable CPU module 4 Base unit 2 No of modules a Main base unit Extension base unit CPU type CPU model Programmable controller CPU Universal model QIOUDERCPU QCPU Q50UDEHCPU QO6CC
164. r CPU 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 Seta target programmable controller CPU in GX Developer Online Transfer setup Checking the required utility While the start I O is displayed on the Intelligent function module utility setting screen x 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 AD MELSEC Q 5 4 Initial Setting Purpose The following A D initial setting parameters are set e A D conversion enable disable setting Averaging process setting e Time number of times specifying Average time average number of times setting Setting parameters in the Initial setting screen will not required parameter settings with sequence program Operating procedure Start I O No Module type Module model name gt 1 Enter the start I O No in hexadecimal Setting screen ixi m Module information Module type A D Conversion Module Start 1 0 No 0000 Module model name Q68ADV Setting item Setting value CH1 A D conversion enable disable setting Enable CH1 Averaging process setting Sampling CH1 Time
165. r Target module Module change execution 170 address O00H G A T Module name Q644D Installation confirmation i m Status Module control restart Changing module r Status Guidance The module can be exchanged Please execute after installing a new module Cancel 7 ONLINE MODULE CHANGE MELSEC Q 4 Operation check a b c To make an operation check click the Cancel button to cancel control resumption Online module change x r Operation m Target module Module change execution 1 0 address OOOH sts Module name Q644D Installation confirmation r Status Module control restart A Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel Click the OK button to leave the Online module change mode MELSOFT series GX Developer CG _ The online module change mode is stopped Even if the stop is executed the online module change mode on the PLC side is not cancelled Please execute the online module change and restart the control of the module again OK Click the Close button to close the System monitor dialog box r Installed status r Base Base Module O oe Main base M
166. r in switch settings Switch No 5 of the intelligent function module has been set to a value other than zero 0 3 Serial Indicates the serial No of the A D converter module number plate x1 Check Error code for details 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q Signal name number Q68ADV Q68ADI oi 4 5 pS A G ANALOG GND FG a joa Jo Jo Jo Jo Jo Jo jo NI COIN o w N gt o 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q 4 4 Wiring The wiring precautions and examples of module connection are provided below 4 4 1 Wiring precautions In order to optimize the functions of the A D converter module and ensure system reliability external wiring that is protected from noise is required Please observe the following precautions for external wiring 1 Use separate cables for the AC control circuit and the external input signals of the Q64AD and Q68ADV I to avoid the influence of the AC side surges and inductions 2 Do not mount the cables close to or bundle them with the main circuit line a high voltage cable or a load cable from other than the programmable controller This may increase the effects of noise surges and induction 3 Perform an one point grounding for shielded lines and the shields of sealed cables 4 Asolderless terminal with insulating sleeve cannot be used for the terminal block Covering the cable connection portion of the solderless term
167. r memory for auto refresh Operating procedure Start I O No 1 Module type Module model name Auto refresh x1 Enter the start I O No in hexadecimal Setting screen Auto refresh setting m Module information Module model name Q68ADV Module type A D Conversion Module Start 1 0 No 0000 Setting tem CH1 Digital output value CH2 Digital output value CH3 Digital output value CH4 Digital output value CH5 Digital output value CHE Digital output value CH Digital output value PLC side 2 Device CH8 Digital output value CH1 Maximum value Make text file Explanation of items 1 Items End setup Model side Buffer size Model side Transfer word count Transfer direction PLC side Device Displays the size of the buffer memory for the setting item that can be transferred fixed at one word Displays the number of words to transfer the CPU device from the head device fixed at one word indicates that data is written from the device to the buffer memory gt indicates that data is read from the buffer memory to the device 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 set a number that can be divided by 16 points examples X10 Y120 M16 etc Also buffer memory data a
168. range of 4 to 62500 times TROUBLESHOOTIN sce ES MELSEC Q 1 If more than one error occurs the error code first detected by the A D converter module is stored No other error codes will be stored Error code marked with 2 can be cleared by turning on Error clear request YF Error code marked with 3 can be cleared by either turning on Error clear request YF or turning on Operating condition setting request Y9 after changing the setting value within the buffer memory setting range The error is cleared at the time of mode switching Error code marked with 4 may occur if the offset and gain values do not meet the conditions shown in POINT in Section 3 1 2 1 or Section 3 1 2 2 Set the offset and gain values that meet the conditions shown in POINT in Section 3 1 2 1 or Section 3 1 2 2 TROUBLESHOOTIN A Ie MELSEC Q 8 2 Troubleshooting 8 2 1 When the RUN LED is flashing or turned off 1 When flashing Check item Reset switch 4 of the intelligent function module setting for Is the mode set to the offset gain setting mode GX Developer to the normal mode refer to Section 4 5 2 When off Check item Is th bei lied Confirm that the supply voltage for the power supply module s the power being supplied ane is within the rated range Calculate the current consumption of the CPU module I O Is the capacity of the power supply module adequate module and intelligent function module
169. rator AD systems CPU modules and functions of the A D converter modules differ 3 When using GX Works2 refer to the following e GX Works2 Version 1 Operating Manual Common e GX Works2 Version 1 Operating Manual Intelligent Function Module 2 SYSTEM CONFIGURATION a MELSEC Q 2 2 Precautions on System Configuration 1 Using A D converter modules with Redundant CPU a Dedicated instruction The dedicated instruction cannot be used b GX Configurator AD GX Configurator AD cannot be used when accessing the Redundant CPU via an intelligent function module on an extension base unit from GX Developer Connect a personal computer to the Redundant CPU with a communication path indicated below Main base unit Extension base unit xX GX Configrator AD cannot be used Q Direct connection to the CPU 2 Connection through an intelligent function module on the main base unit Through Ethernet module MELSECNET H module or CC Link module 2 SYSTEM CONFIGURATION MELSEC Q 2 3 Checking Function Version Serial Number and Software Version 1 Checking the function version and serial number of the A D converter modules The serial number and function version of the A D converter modules are described in the rating plate on the front part of the module or displayed in the System monitor dialog box of GX Developer a Checking on the rating plate on the side of the A D convert
170. re stored in a 16 point area starting from the specified device number For example if X10 is entered data are stored in X10 to X1F 5 15 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 2 Command buttons Creates a file containing the screen data in text file format Saves the setting data and ends the operation Cancels the setting and ends the operation The auto refresh settings are stored in an intelligent function module parameter file After being written to the CPU module the auto refresh setting takes effect by either 1 or 2 1 Turn the RUN STOP switch of the CPU module STOP RUN STOP gt RUN 2 After the RUN STOP switch is set to RUN turn off and then on the power or reset the CPU module The auto refresh settings cannot be changed from sequence programs However processing equivalent to auto refresh can be added using the FROM TO instruction in the sequence program 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 6 Monitoring Test 5 6 1 Monitor test screen Purpose Buffer memory monitoring testing I O signals monitoring testing operating condition setting offset gain settings refer to Section 5 6 2 5 6 3 pass data refer to Section 5 6 5 5 6 6 are started from this screen Operating procedure Select monitor test module screen Start I O No 1 Module type Module model name Monitor test 1 Enter the start I O No in hexadecimal The sc
171. re temperature 2545 C temperature temperature 2545 C drift correction drift correction drift correction drift correction Oto10V Within Within 0 3 Within 0 4 0 1 10 to 10 V 48 digit 64 digit 16 digit 1 Voltage osv Within 1to5V__ Within 0 3 Within 0 44 0 1 Users range 12 digit 1 16 digit 48 digit Within setting 1 Within 0 3 Within 0 44 0 1 36 digit 48 digit 12 digit 1 Current 4 to 20 mA a Users range setting PECIFICATION Maerua MELSEC Q Q64AD Q68ADV Q68ADI 80 u s channel Conversion speed When there is temperature drift the time calculated by adding 160 u s will be used regardless of the number of channels used Absolute maximum input Voltage 15V Current 30 mA E PROM write count Max 100 thousand times Between the I O terminal and programmable controller power supply Insulation method Photocoupler insulation Between channels Non insulated Dielectric withstand voltage Between the I O terminal and data controller power supply 500VAC for 1 i Between the I O terminal and programmable controller power supply 500VDC 20MQ or more 18 point terminal block Applicable wire size Internal current consumption 63 A 64 A 0 64 A 5 VDC Weight Weight o o o ooo i 0 18 kg 0 19 kg 0 19 kg 1 Digit indicates a digital value 2 Current value indicates value of instant input current t
172. reen 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 5 x 1 Max value min value info 5 UTILITY PACKAGE GX Configurator AD MELSEC Q aes m Module information Module type A D Conversion Module Start 1 0 No 0000 Module model name Q68ADV Function Version C Setting item Curent value Setting value CH1 Industrial shipment settings offset value 0000 0000 CH1 Industrial shipment settings gain value 0000 0000 CH2 Industrial shipment settings offset value 0000 0000 CH2 Industrial shipment settings gain value 0000 0000 CH3 Industrial shipment settings offset value 0000 0000 CH3 Industrial shipment settings gain value 0000 0000 CH4 Industrial shipment settings offset value 0000 0000 CH4 Industrial shipment settings gain value 0000 0000 CHS Industrial shipment settings offset value 0000 0000 CH5 Industrial shipment settings gain value 0000 0000 CHE Industrial shipment settings offset value 0000 0000 Details Current value Monitoring display Hexadecimal input Make et fle Damm iE 0000 FFFF Flash ROM setting Write to Gasta modile Haai Read fon cere modal Eoadlil Ee Stop monitor Execute test Close Offset gain setting Operating condition setting x m Module information
173. retained in Section 3 2 2 value hold function the module 1 Errors arising from changes in the ambient temperature of the module are Temperature drift automatically compensated for to improve conversion accuracy compensation function 2 The temperature drift compensation function can be performed at A D conversion time for all channels 160 ds 1 The resolution mode can be switched according to the application and digital value resolution settings of 1 4000 1 12000 or 1 16000 can be selected Resolution mode 2 The resolution mode setting is applicable to all channels 3 Refer to Section 3 1 1 for Digital output value and maximum resolution in normal resolution mode and high resolution mode Online module change 1 A module change is made without the system being stopped Chapter 7 3 2 1 A D conversion methods A D conversion enable disable setting A D conversion method Section 3 2 1 Section 3 1 1 Section 4 5 There are two A D conversion methods sampling processing and averaging processing 1 Sampling processing A D conversion is performed successively for the analog input value and the converted Digital output value is stored in the buffer memory The sampling processing time depends on the number of channels used the number of channels set to A D conversion enable and whether the temperature drift compensation function is available a Without the temperature drift compensation function Processing
174. s channel The stored values for all channels will be cleared to 0 when Operating condition setting request Y9 is set to on and the setting is changed or when Maximum value minimum value reset request YD is set to on For the channels specified in averaging process maximum and minimum values of the converted digital values by sampling processing are stored PECIFICATION eda MELSEC Q 3 4 13 Mode switching setting buffer memory address 158 159 Un G158 Un G159 1 Set the values of the mode to which you want to switch 2 After setting the values turning Operating condition setting request Y9 from off to on switches the mode 3 When mode switching is performed this area is cleared to zero and Operating condition setting completed flag X9 turns off After confirming that Operating condition setting completed flag X9 has turned off turn off Operation condition setting request Y9 Set values Mode to be switched to Buffer memory address 158 Buffer memory address 159 Normal mode 0964H 4144H Offset gain setting mode 4144H 0964H If the values written are other than the above mode switching is not performed and only the operating condition is changed 3 4 14 Pass data classification setting buffer memory address 200 Un G200 Q64AD only 1 Areas used to restore the user range settings offset gain values when online module change is made Refer to chapter 7 for details of online module cha
175. screws such as module fixing screws within the following ranges Loose screws may cause short circuits failures or malfunctions Tightening torque range Module fixing screw M3 screw i 0 36 to 0 48 N m 1 Terminal block screw M3 screw 0 42 to 0 58 N m Terminal block mounting screw M3 5 screw 0 66 to 0 89 N m x1 The module can be easily fixed onto the base unit using the hook at the 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 6 With pressing the module mounting lever located at the bottom of the module fully insert the module fixing projection into the fixing hole of the base unit until it stops Improper installation may result in malfunction failure or drop of the module 4 SETUP AND PROCEDURES BEFORE OPERATION 4 2 Setup and Procedures before Operation Start Module mounting Mount the A D conversion module in the specified slot Wiring Wire external devices to the A D conversion module Intelligent function module switch settings Perform settings using GX Developer refer to Section 4 5 Use industrial shipment settings Use user range settings Use user range settings Offset gain setting If user range settings are used perform the offset and gain settings refer to Section 4 6 Use the utility package Initial setting and
176. series programmable controllers to ensure correct use CONTENTS SAFETY PRECAUTIONS ananisikia ed i e a i a i iaia A 1 CONDITIONS OF USE FOR THE PRODUCT 0 cccceeceeceeeeeeeeeeeeeeneesieeeeeseesaeeseesieesieesieesieesieesieetieeeinee A 5 REVISIONS mero nrinniieie tiiti ane NE A E RE R N A ARAA A a a aiaa A 6 INFRODUCTION saie Stat iad ied alt ihre al dd A EEE A 9 CONTENT Seinasti a talaia dada ada i a aiia A 9 ABOUT MANUALS reirei rai en aa eh oh a het a e A 12 COMPLIANCE WITH EMC AND LOW VOLTAGE DIRECTIVES ssseseeeeeseeereerseisrrsrrsrrsrrsrrsrrsrrsrnrrsrrsrns A 12 ABOUT THE GENERIC TERMS AND ABBREVIATIONS 0 eccesceeeeeeeeeeeeeeeeeeaeeeaeeeaeeeaeeeaeeeaeeeaeenaeeeatesas A 13 PRODUCT STRUCTURE tier oii Sethe eas bait RAE NA NEA neha sieev nds N A VAA A 14 EFOR S anu e sels shen tee Secested a bdaxacivbea faces beds caewvdal noes ved a uGes ben tauineen tad 1 1 1 2 Functions Added to Function Version B and Later cceeeceeceeeceeeeeeeeeeeeeseeesaeeseeseeseesieesieesieesieeeeees 1 2 2 1 Applicable SystemS 04 i006 deed edi bended ideaa aae en da aeaa dan aat adanadan adt aiandi aak 2 1 2 2 Precautions on System Configuration ccccecceeceeeeeeeeeeeeeneeeeeeeeeeeeesaeesaeeseeseeseesaeeeaeeeeeseeeeeeeeeaeeas 2 6 2 3 Checking Function Version Serial Number and Software Version cc cccccceeeceeeeeeeeeeeeeteeeeneeees 2 7 3 1 Performance Specifications ccccccccceceseeeeeeeeeeceeeceeeaeece
177. settings offsetvalue CL system S 15 CH2Userrange settings gain vae CLC System S 16 CH3 User range settings offsetvalue CL system S 17 CH3 User range settings gainvalue system S 18 CH4 User range settings offsetvaue CL system S 19 CH4 User range settings gainvalue Cd System Control data of the Q68ADV 1 2 Setting data Setting range _ Set by fe aS Systema ee l Stores the status when the instruction is complete S 1 Completion status 0 Normal completion System Other than 0 Abnormal completion ef mm D ed S 4 CH1 Industrial shipment settings offsetvalue System S 5 CH1 Industrial shipment settings gain value CT Sstem S 6 CH2 Industrial shipment settings offsetvalue system S 7 CH2 Industrial shipment settings gain vale Sysel S 8 CH3 Industrial shipment settings offsetvalue CC System S 9 CH3 Industrial shipment settings gainvalue System S 10 CH4 Industrial shipment settings offsetvalue CC System S 11 CH4 Industrial shipment settings gain vale i S 12 CH5 Industrial shipment settings offsetvalue CC System S 13 CHS Industrial shipment settings gain value CT System S 14 CH6 Industrial shipment settings offsetvalue CC System S ial shi ings gai a S i E ne S ial shi ings gai ag a S e A System System S 19 CH8
178. shown in Figure 5 1 are performed as follows 1 From GX Developer select Project gt 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 gt Read from PLC Write to PLC gt 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 AD MELSEC Q 5 3 2 Operation overview GX Developer screen LD Edit mode MAIN 35 Step Intelligent function utilit Tools Intelligent function utility Start Screen for selecting a target intelligent function module 2 Intelligent function module utility C MELSEC Gppwifb_sample PH E A D Conversion Module intelligent function module parameter e A AAA C o AvaiebleAvaiabio See Section 5 3 3 Enter Start I O No and select Module type and Module model name Initial setting Auto refresh Initial setting screen Auto refresh settings screen Auto refresh setting Initial setting See Section 5 5 See Section 5 4 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 1 Online Monitor Test lt lt FB support parameter gt gt tab Sele
179. splayed Digital value lt When converted to a digital value gt The digital value corresponding to an entered analog value is displayed lt When converted to an analog value gt Enter a digital value to be converted to an analog value 1 The following explains offset value and gain value e An offset value refers to the analog input value voltage or current whose Digital output value be 0 e Again value refers to the analog input value voltage or current whose Digital output value is 4000 in normal resolution mode 12000 in high resolution mode 2 Set the offset value and gain values within a range in which the following conditions are met a When selecting Voltage in the Analog Range setting 1 Setting ranges of the offset value and the gain value 10 0 to 10 0V 2 Normal resolution mode Gain value Offset value gt 1 5V High resolution mode Gain value Offset value 2 4 0V 3 Gain value Offset value lt 10 0V b When selecting Current in the Analog Range setting 1 Setting ranges of the offset value and the gain value 20 0 to 20 0mA 2 Normal resolution mode Gain value Offset value gt 5 56mA High resolution mode Gain value Offset value 2 16 0mA 3 Explanation of screen command buttons The entered offset gain value is determined and the I O characteristic diagram is updated Conversion Conversion for the entered value is performed 5 UTILI
180. stem monitor Online module change Q1ZPHCPU l pt l6pt l pt l6pt Module s Detailed Information Base Information r Status Start monitor ii Module system error m Module error a Module warning oO Module change Product Inf List Stop monitor Set the channels to be used to A D conversion enabled in A D conversion enable disable setting buffer memory address 0 Un GO and turn on or off Operating condition setting request Y9 Monitor CHU Digital output value buffer memory address 11 to 18 Un G11 to Un G18 to check whether proper conversion has been made 7 ONLINE MODULE CHANGE MELSEC Q e Since the new module is in a default status it must be initialized by a sequence program after control resumption Before performing initialization check whether the contents of the initialization program are correct or not 1 Normal system configuration The sequence program should perform initialization on the leading edge of Module READY X0 of the A D converter module When control resumption is executed Module READY X0 turns on and initialization is performed If the sequence program performs initialization only one scan after RUN initialization is not performed 2 When used on remote I O network Insert a user device that will execute initialization at any timing initialization request signal into the sequence program After control resumption turn on the
181. t Edt Find Replace Convert View Online Diagnostics Tools Window Help E lax t 18 x Dicsleal B 25 e alalel 2 8 alel le Global variables E el l E sali e i elaaeal Al easel lca lf ol wl mi ol zizi Aea EE l Elsa e ele eel SIRI f E E amp X Configurator AD 8 Function Block S pes E A AD FB Header Body Project pe structure Ready 5 jqizH Host station Ovrente num After pasting PMELSOFT series GX Developer C MELSEC GPPW GX Configurator AD LD Edit mode MAIN 124 Step TT Project Edt Find Replace Convert View Online Diagnostics Tools Window Help AEE lai x Dicsial S x a e o alae 2 8 ale ale Global variables E E feel E HAA l tk UE are UE T emia a TEE aa Elala e e E E c Configurator AD EFA Function Block of Header _ BI Body ofA A AD FB Header Body Project pp Structure Ready jqizH Host station Ovrerte Mm 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 5 8 3 Convert Compile a Sequence Program Purpose of operation Convert compile the sequence program to which an FB was pasted so that it can be executed pMELSOFT 3 la xi Z Project Edt Find Replace Convert View Onine Diagnostics Tools Window Help zlej Dela 3 sae gt alale 2 s ala ala Global variabies d fre a E a
182. t be used with the SWOD5C QADU E 50F or earlier versions Q12PRH Q25PRHCPU Redundant System Version 8 45X or later Version 1 15R or later Version 1 87R or later QO0UJ QO00U QO01UCPU Single CPU system Multiple CPU system Version 8 78G or later Q02U Q03UD QO04UDH QO6UDHCPU Single CPU system Multiple CPU system Version 8 48A or later Q10UDH Q20UDHCPU Single CPU system Multiple CPU system Version 8 78G or later Q13UDH Q26UDHCPU Single CPU system Multiple CPU system Version 8 62Q or later QO3UDE QO4UDEH QO6UDEH Q13UDEH Q26UDEHCPU Single CPU system Multiple CPU system Version 8 68W or later Q10UDEH Q20UDEHCPU Single CPU system Multiple CPU system Version 8 78G or later Version 2 05F or later Version 1 15R or later QSO0UDEHCPU Q100UDEHCPU Single CPU system Multiple CPU system Cannot be used Cannot be used Version 1 31H or later If installed in a MELSECNET H remote I O station Version 6 or later SWOD5C QADU E 50F or later Version 1 40S or later 1 Refer to Appendix 1 2 for the combinations of the A D converter module functions and GX Configurator AD software versions 2 SYSTEM CONFIGURATION MELSEC Q 1 The products of function version C include the functions of the products of function versions A and B 2 Depending on the version of GX Configu
183. the specific applications agreed to by Mitsubishi and provided further that no special quality assurance or fail safe redundant or other safety features which exceed the general specifications of the PRODUCTs are required For details please contact the Mitsubishi representative in your region REVISIONS x The manual number is given on the bottom left of the back cover Print Date Manual Number Dec 1999 SH NA 080055 A First printing Oct 2000 SH NA 080055 B Add the contents of the function version B Correction About the Generic Terms and Abbreviations Section 2 1 Section 3 1 3 3 4 1 Section 4 3 4 4 2 Section 5 2 1 5 2 2 5 3 3 5 6 1 Partial addition Section 1 1 Section 3 1 1 3 1 2 3 2 3 3 1 3 3 2 Section 4 5 Section 7 2 3 7 2 4 Addition Section 1 2 Section 2 2 Appendix 1 1 1 1 2 1 3 Conformation to the EMC Directive and Low Voltage Instruction About the Generic Terms and Abbreviations Product Structure Section 2 1 2 2 Section 4 6 Section 5 2 5 2 1 5 2 2 5 3 3 Appendix 1 2 Jun 2001 SH NA 080055 C Standardize the name from software package GPP function to Product name GX Developer Standardize the name from utility package QADU to Product name GX Configurator AD Feb 2002 SH NA 080055 D Add the contents of the function version C Correction Section 2 2 Section 3 4 1 Section 4 2 4 4 1 4 4 2 Section 5 3
184. the R instruction processing specified device D 1 also turns on at an abnormal completion P x1 When executing the G P OGLOAD instruction specify the device designated in S Do not change the data read with the G P OGLOAD instruction If it is changed normal operation cannot be guaranteed Control data of the Q64AD 1 2 Setting data Setting range _ Set by Ss Systemarea do Stores the status when the instruction is complete Completion status 0 Normal completion System Other than 0 Abnormal completion Error code The value set to Pass data classification setting S 2 using the G P OGLOAD instruction is stored Pass data classification setting 0 Voltage specified 0000x to 000F H User 1 Current specified b15 b4 b3 b2 bi bO 0 0 fertalon sfor 2fcr ee eS CH1 Industrial shipment settings gainvalue TE CC System CH2 Industrial shipment settings offset value System CH2 Industrial shipment settings gainvalue CC System CH3 Industrial shipment settings offset value CH3 Industrial shipment settings gain value S 10 CH4 Industrial shipment settings offset value App 10 App 10 APPENDICES MELSEC Q Control data of the Q64AD 2 2 S 41 CH4 Industrial shipment settings gainvalue dT Systemi S 12 CH1 User range settings offsetvalue system S 13 CH1Userrange settings gain vae CL system S 14 CH2 User range
185. the window multiple cells for test execution Deletes the character where the cursor is positioned Delete When a cell is selected clears all of the setting contents in the cell Back m Deletes the character where the cursor is positioned Space mi Page Moves the cursor one page up Page Down Completes the entry in the cell Moves the cursor one page down 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 2 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 a Intelligent function module parameter 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 5 UTILITY PACKAGE GX Configurator AD MELSEC Q b Text files A text file can be created by clicking the Make text file button on the initial setting Auto refresh setting or Monitor Test screen The text files can be utilized to create user documents GX Developer GX Configurator AD A Intelligent function module parameters B Data saved by Make text file Figure 5 1 Correlation chart for data created with the utility package Steps 1 to 3
186. tion 7 ONLINE MODULE CHANGE c MELSEC Q After confirming that the RUN LED of the module has turned off remove the terminal block and dismount the module Always dismount the module If mounting confirmation is made without the module being dismounted the module will not start properly and the RUN LED will not be lit 3 Mounting of new module a b Mount a new module to the same slot and install the terminal block After mounting the module click the Execution button and make sure that the RUN LED is lit Module READY X0 remains off Online module change x r Operation r Target module Module change execution 1 0 address 000H G i Module name Q644D Installation confirmation r Status Module control restart Changing module r Status Guidance The module can be exchanged Please execute after installing a new module 4 Operation check a b To make an operation check click the Cancel button to cancel control resumption Online module change x r Operation r Target modue Module change execution 1 0 address 000H f ees Module name Q644D Installation confirmation Status Change module installation completion Module control restart r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the insta
187. tion l is added for initial setting and A is added for auto refresh setting respectively to the top of the FB name setting to be registered in GX Developer after FB conversion is performed Ex If the FB program name is ABCDE the initial setting is I ABCDE and the auto refresh setting is A ABCDE Title Set up a title on a converted FB program Up to 32 single byte characters can be set up as a title 2 Explanation of screen command buttons FB conversion is performed for the checked columns of initial setting and auto refresh setting 5 UTILITY PACKAGE GX Configurator AD 5 8 Usage of FB 5 8 1 Outline MELSEC Q This section describes the procedure for using FB with GX Developer For details refer to GX Developer Version 8 Operating Manual Function Block The procedure for creating FB is shown below 1 Set up the intelligent function module parameter initial setting auto refresh setting 2 Convert the intelligent function module parameter into FB 3 Paste the FB to a sequence program 4 Convert compile the sequence program Next a flowchart of procedures 1 to 4 is shown below Start 1 t GX Configurator AD Set up the initial setting auto refresh setting Refer to sections 5 4 and 5 5 3 t GX Developer Paste the FB to a sequence program Refer to sections 5 8 2 v 2 4 Convert the parameter into FB Refer to sections 5 7 Refer to se
188. tion setting If the buffer memory values compared with the reference table are not proper save and restoration of the user range cannot be executed Before executing module control resumption follow the flowchart in Section 4 6 and make offset gain setting in the device test of GX Developer Perform mode switching by making the setting of Mode switching setting buffer memory address 158 159 Un G158 Un G159 and turning Operating condition setting request Y9 from off to on Note that if module control is resumed without offset gain setting being made operation will be performed with the default values 2 Dismounting of module a After choosing Diagnosis Online module change on GX Developer to enter the Online module change mode double click the module to be changed online to display the Online module change dialog box System Monitor r Installed status m Base 0 l 2 3 4 Base aa MasterPLC amp Main base Expansion l base 1 Q644 Unmo Unmo Unmo Unmo ac Ex sion iD untijuntijuntijunti O E l ptj ng ng ng ng E me Q1ZPHCPU C DAs l Oe ba x sion 0 Eeiz r Parameter status r Mode E70 address o io zo 30 40 System monitor o I 2 3 4 Online module change Diagnostic Q1ZPHCPU llig ent 1l 6 pt 1 pt 1 6 pt 1l ptr lpt Module Det
189. tting is completed the setting data is displayed in the Current value field of CHL Pass data classification setting b Change the Setting value field of Pass data read request to Request and click the Execute test button When read is completed the values are displayed in the Current value fields of CHO Industrial shipment settings offset gain values CHH User range settings offset gain values c Compare the values with those in the range reference table and record them if they are correct Refer to Section 7 4 for the range reference table 5 UTILITY PACKAGE GX Configurator AD MELSEC Q 3 User range restoration a Set Voltage specified or Current specified in the Setting value field of Pass data classification setting and click the Execute test button When the setting is completed the setting data is displayed in the Current value field of CHO Pass data classification setting Set the recorded values in the Setting value fields of CHU Industrial shipment settings offset gain values user range settings offset gain values Select all the Setting value fields of CHU Industrial shipment settings offset gain values user range settings offset gain values and click the Execute test button When write is completed the set values are displayed in the Current value fields of CHO Industrial shipment settings offset gain values CHU User range settings offset gain values Change the Setting value f
190. ule may not operate properly e Powering off the programmable controller CPU e Resetting the programmable controller CPU 1 Perform the offset gain settings in the range that satisfies the conditions specified in Section 3 1 2 1 and 2 When the setting exceeds this range the maximum resolution or total accuracy may not be within the range indicated in the performance specification Though the offset gain settings can be performed on multiple channels at the same time set the offset and gain separately 0 at either Offset gain setting mode Offset specification buffer memory address 22 Un G22 or Offset gain setting mode Gain specification buffer memory address 23 Un G23 If channels are set in Offset gain setting mode Offset specification buffer memory address 22 Un G22 and Offset gain setting mode Gain specification buffer memory address 23 Un G23 at the same time an error will occur and the ERROR LED will be lit After the offset gain settings are completed verify that the offset and gain values have been set correctly under actual usage conditions The offset and gain values are stored into the E PROM and are not erased at power off At the time of offset gain setting turn on User range writing request YA to write the values to the E7PROM Data can be written to the E 7PROM up to 100 thousand times To prevent improper writing to the E PROM an error error code 162 occurs when values are written 26 times continuously
191. urrent value Monitoring modale ETENE display Start monitor Stop monitor Ekecute test 5 Resumption of control a After choosing the Diagnostics Online module change dialog box on GX Developer to display the Online module change dialog box again click the Execution button to resume control Module READY X0 is turned on Online module change r Operation r Target module Module change execution 1 0 address OOOH TA Module name Q644D Installation confirmation r Status Module control restart Change module installation completion r Status Guidance The controls such as 1 0 FROM TO instruction executions and automatic refresh for the installed module are restarted Please confirm the parameter setting and wiring etc and execute Cancel b The Online module change completed dialog box appears MELSOFT series GX Developer fe YD Online module change completed 7 ONLINE MODULE CHANGE MELSEC Q 7 3 4 When user range setting is used and initial setting was made with GX Configurator AD other system is unavailable 1 Conversion disable a Onthe Operating condition setting screen of GX Configurator AD set Disable in the Setting value field of CH_ A D conversion enable disable setting and click the Execute test button Monitor A D conversion completed flag buffer memory address 10 Un G10 and confirm that
192. used by unapproved modifications etc to the product by the user 3 When the Mitsubishi product is assembled into a user s device Failure 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 opportu
193. ution mode In high resolution mode Digital output value Approximately 4000 Approximately 16000 2 Operating procedure Start the settings with GX Developer I O assignment setting dialog box Q parameter setting x ron a I O assignment setting Vo seigment Set the following for the slot in which the A D i m m E EE aha converter module is mounted i ra z oe The type setting is required set other items as ACA 3 Z eS ee oe oe Type Select intelli Base motel ane 2 faa Model name Enter the module model name J m Points Select 16 points Start XY Enter the start I O number for the A D converter module aia hice ven ese PU Paane _ Pend PLC dss Detail setting Specify the control PLC for the A D converter module E a It is unnecessary to set the Error time output mode or H W error time PLC operation mode since these settings are invalid for the A D converter module Switch setting for 1 0 and intelligent functional module 7 b Switch setting for intelligent function module iC ines a TE dialog box io fe C T Click on Switch setting on the I O assignment J setting dialog box to display the dialog box shown at left then set switches 1 to 5 e The switches can easily be set if values are ESE I entered in hexadecimal Change the entry ea
194. writing to a sequence program are enabled R Read enabled W Write enabled k2 Areas used to restore the user range settings offset gain values when online module change is made Refer to chapter 7 for details of online module change A k2 2 k k2 5 2 CH4 Industrial shipment settings offset value 7 CH4 Industrial shipment settings gain value g CH5 Industrial shipment settings offset value CH5 Industrial shipment settings gain value 2 z 2 A 2 A 2 2 A t C D D D D D D D D D C C C D D 0 o 9 B C D E F 0 2 3 4 5 6 7 8 9 A B C D M f i ii i 7 H i H k 4 H i 7 i F ii D D PECIFICATION eC MELSEC Q Table 3 5 Buffer memory assignment Q68ADV 3 3 bx 222 cra Usercngeseungecfeetvaue 0 Raw C oe 223 co user renge stings gainvaue 0 rw C eo 224 ci User range setings ofsetvaue 0 Rw C en 25 cis user renge stings gainvaue o rw C e 22 ons User range setings ofsetvaue 0 rw C ee 220 one veer renge senings ofstvaue t 0 rw json es 2 ci User renge stings gainvaue 0 rw C ee 290 ch user range setings ofsetvaue 0 rw C en f 2 Orr user renge senings gainvaue 0 rw C ee 22 one user range setings ofsetvaue 0 rw C eo 20 ci user renge stings garvare 0 rw X1 Indicates whether reading from and writing to a sequence pro
195. y address 23 Specifies gain setting channel address 22 Turns on Channel change request YB Turns off Channel change request YB Turns on User range writing request YA Turns off User range writing i 1 Sets 0 to buffer memory i 1 request YA i Stores setting of dedicated instruction G OFFGAN into D1 Dedicated instruction G OFFGAN ttt ae SE XOB H RS Registers offset gain setting results to module M4 XOA tt 1 f Se XOA RS Switches tonormalmode EEE EEE EEE SS M5 I4 oP Ko G CFFGAN uo XOA a Processing in normal mode 1 The program in the dotted area is a common program ENO 4 SETUP AND PROCEDURES BEFORE OPERATION MELSEC Q b When switching the mode using Mode switching setting buffer memory address 158 159 Un G158 Un G159 and Operating condition setting request Y9 Switches to offset gain setting mode Mov MOV Common program Switches to normal mode ee Mav H964 H4144 o SET RST Processing in normal mode UO G158 UO G159 y9 Y9 gt RED Sets 4144n to buffer memory address 158 Sets 964H to buffer memory address 159 Turns on Operating condition setting request Y9 Turns off Operating condition setting request Y9 q J Sets 964H to buffer memory address 158 Sets 4144n to buffer memory address 159 Turns on Operating condition setting request Y9
196. ystem ial shi CH6 Industrial shipment settings gain value a ae i System i System System CH7 Industrial shipment settings offset value CH1 User range settings offset value CH1 User range settings gain value System System i System i System System i System es See e e aT o a U S Se S E S _ er S 18 CH8 Industrial shipment settings offsetvalue Ci S 19 CH8 Industrial shipment settings gain value CL system S a eee S B a O o o U i CE ee oA i E a oe o o wo e CH2 User range settings offset value S S S S S S S S S S S S x2 Setting is not necessary If setting is made the offset gain values will not be read properly App 7 App 7 APPENDICES MELSEC O Control data of the Q68ADV 2 2 Setting data Setting range_ Set by CH6 User range settings offset value System S 31 CH6 User range settings gainvalue System S 32 CH7 User range settings offsetvalue system S 33 CH7 User range settings gainvalue CL system S 34 CH8 User range settings offsetvalue system S 35 CH8 User range settings gainvalue System x2 Setting is not necessary If setting is made the offset gain values will not be read properly Control data of the Q68ADI Setting data Setting range _ Set by s Systemarea o i
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