FX3U-128ASL-M USER`S MANUAL
Contents
1. M eee ee 81 Revised HISTOIY deese 82 FX3U 128ASL M User s Manual Standards Standards Certification of UL CUL standards FX3U 128ASL M units comply with the UL standards UL cUL December 2014 and later UL cUL File number E95239 Regarding the standards that comply with the main unit please refer to either the FX series product catalog or consult with your nearest Mitsubishi product provider Compliance with EC directive CE Marking This document does not guarantee that a mechanical system including this product will comply with the following standards Compliance to EMC directive and LVD directive for the entire mechanical module should be checked by the user manufacturer For more information please consult with your nearest Mitsubishi product provider Regarding the standards that comply with the main unit please refer to either the FX series product catalog or consult with your nearest Mitsubishi product provider Regarding the standards that comply with the AnyWireASLINK slave module please consult with Anywire Corporation Requirement for Compliance with EMC directive The following products have shown compliance through direct testing of the identified standards below and design analysis through the creation of a technical construction file to the European Directive for Electromagnetic Compatibility 2004 108 EC when used as directed by the appropriate documentation Attention2. 425004 The number of slave modules is stored Up to 8modiles R 7 3 12 BFM 9216 Number of IDs of connected modules Default decimal Description decimal The number of IDs of connected modules is stored in BFM 9216 by the automatic address detection Default decimal Description hexa decimal decimal 2400H The number of Ds of connected modules is stored Up to 128109 R 7 3 13 BFM 9217 to 9344 Connected module ID information storage areas Up to 128 IDs of connected slave modules are stored in ascending order in BFM 9217 to 9344 The ID information is updated after the 128ASL M is powered ON and the automatic address detection is executed BFM No Default E Description decimal nexa i decimal decimal Connected module ID information is stored Up to 128 IDs 9217 2401H IDs of all connected slave modules BFM 9216 are stored in ascending order to to The IDs to be stored are as follows 9344 2480H OOOOH to 007FH ID of output slave modules 0200H to 027FH ID of input slave modules or I O combined slave modules 7 3 14 BFM 9984 Number of the alarm IDs The number of IDs related to alarm occurrence is stored in BFM 9984 Default decimal hexa Description decimal 7 3 15 BFM 9985 to 10112 Alarm ID information storage areas decimal Up to 128 alarm IDs are stored in ascending order in BFM 9985 to 10112
3. If multiple errors occur simultaneously the error with the highest priority is displayed and stored 3 How to recover from the transmission cable voltage drop status How to recover from the transmission cable voltage drop status is as follows a oO Recover the AnyWireASLINK system from the voltage drop status Check the voltage of the 24 V DC external power supply and replace the power supply or check the wiring as necessary When the voltage is recovered to the normal status the following will occur The transmission is restarted by hardware processing The ALM LED keeps ON The transmission cable voltage drop error b3 of BFM 28 remains in the ON status The error code K200 remains stored in the latest error code storage area BFM 29 and the error code K4095 remains stored in the latest error ID storage area BFM 10257 If a new error occurs the old error is overwritten by the latest error in accordance with the priority If the status does not change the voltage drop has not been fixed Therefore check it again Power OFF the AnyWireASLINK system or turn ON and OFF error flag clear command BFM 27 bO The following will occur The ALM LED turns OFF Transmission cable voltage drop error BFM 28 b3 turns OFF The error code K200 stored in the latest error code storage area BFM 29 is cleared The error code K4095 stored in the latest error ID storage area BFM 10257 is cleared 4
4. 7 Buffer Memory 7 2 Buffer Memory List BFM No Sea efau Content Setting range Reference decimal Pa as decimal decimal The number of IDs related to alarm occurrence is Bue 9984 2700H Number of the alarm IDs stored 7 3 14 Up to 128 IDs 20 9985 2701H i IDs of all alarm slave modules BFM 9984 are Alarm ID information storage i Subsection to to PM stored in ascending order 7 3 15 10112 2780H Up to 128 IDs 2 10113 2781H to to Not used 10256 2810H 10257 2811H Latest error ID storage area The error ID corresponding to the latest error Subsection code is stored 7 3 16 10258 2812H to to Not used 10319 284FH 10320 2850H Parameter access method Specify the parameter access method R W Subsection setting 0 or 1 7 3 17 Specify parameter access target ID 10321 2851H Parameter access target 0000 to 007FH ID of output slave modules Subsection module ID specification 0200 to 027FH ID of input slave modules or I O 7 3 18 combined slave modules 10322 2852H to to Not used 10495 28FFH The start number of the buffer memories which m ipd Parameter storage location store the ASLINK parameters for each Subsection 410623 297FH memory number output connected ID 7 3 19 Up to 128 IDs 10624 2980H to to 11007 2AFFH The start number of the buffer memories which T Parameter storage location store the ASLINK parameters for each Subsection
5. FX3U 128ASL M User s Manual 7 3 Details of buffer memory 7 3 8 BFM 4096 to 4103 Output information area When the ON OFF data of the output signal of the slave module is written from the main unit the slave module automatically outputs the signal BFM No Bit No sedan 2285 b7 decimal Hos mum wp vq mpm mIepepepepspspepepp pep ps s mee FOS s ws s s s sps s sss eror p suos n e e a e REE RSS ES KIKKE eno pron sr pss sse pee 9 s ere SN o sos voe sor sos vos sor sos uz vor oo e se sr s rcs Pom ver as as a tas taz sai tz fs ve viz Tie HS i4 Tis 19 1 Ex Fora two point output slave module address 30 Two bits from b14 of BFM 4097 shown in the above table are occupied for the output signal because the setting address is 30 BFM 4097 b14 and BFM 4097 b15 a e 62 78 H 94 H 11 EN s m cs ur Dur Caution When it is necessary to handle two or more bit data as a series of data set the address of the slave module in such a way that they are assigned to the same buffer memory BFM 8192 Number of the error IDs Among the IDs of the connected modules the number of error IDs that send no response due to disconnection of the transmission cables or a failure in the slave module alone is stored in BFM 8192 The stored value is retained until the error flag clear command bO of BFM 27 is turned ON or the 128ASL M is powered OFF and ON Def
6. The ID information is updated after the 128ASL M is powered ON and the automatic address detection is executed BFM No Default x Description 3 decimal hexa i decimal decimal Alarm ID information is stored Up to 128 IDs 9985 2701H IDs of all alarm slave modules BFM 9984 are stored in ascending order to to The IDs to be stored are as follows 0 10112 2780H OOOOH to 007FH ID of output slave modules 0200H to 027FH ID of input slave modules or I O combined slave modules 61 UOnonpoJjU uoneoyioads INQ waisig QJ uoneinByuoy uonejejsu x Jewog uum QT urul 440 NO o E sa o 3 o 282 La 2 o gt welbolg OO Aow y yng so duJex4 6unoousejqnoi QO Uoneuuolu UOISJOA 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory 7 3 16 BFM 10257 Latest error ID storage area The error ID corresponding to the latest error code is stored in BFM 10257 Default decimal decimal hexa Description decimal 2811H The error ID corresponding to the latest error code is stored 10257 The table below shows the relationship between the error code and the error ID Error code i hexa Description of error Value of the error ID storage area decimal decimal 100 0064H to to 128ASL M hardware error Buffer memorys cannot be accessed 103 0067H 200 00C8H Transmission cable voltage drop error PER ADAE O0C
7. 2 4 4 Connection of slave modules 5 a Ss o e E Q o 128ASL M Terminating 7 7 Slave module uoneoyioedg Slave N module wajsis Q9 Slave module e The maximum transmission distance in the AnyWireASLINK stand alone system is 200m which is the total cable length including the main line and branch line branch It varies depending on the cross sectional area of the transmission cables or the transmission cable supply current Slave module uoneinByuoy uonejejsu x e branch multidrop and Tree branch connections are usable in the AnyWireASLINK system Connect one terminating unit for each system at the far end from the 128ASL M 1 About the maximum transmission distance oz v ag 128ASL M 3 6 mM UU UIT Terminatin C module 28 ave o Bt a 7 Slave module S Slave v module D The total length of the transmission distance for the AnyWireASLINK system shown above can be calculated from A B C 8 Note that the total length should not exceed the maximum transmission distance or the total length ER according to system restrictions 5g For a slave module in which the connection cable is integrated in the main body the length of the og connection cable is included in the total length gt 6unooysajgnos CO Uoneuuolu UOISJOA 23 3 System Configuration FX3U 128ASL M User s Manual 3 1 General Configuration 3 System Configuration 3 1 Gener
8. FNC 27 L mmspersr De M1 FNC 79 eit TO FNC 26 FNC 79 ell ae M2 The error clear execution condition is established and MO turns ON The value of BFM 27 is saved to DO bO corresponding to the error flag clear command of BFM 27 of DO is turned OFF The value of DO is input to BFM 27 b0 is turned OFF bO of DO is turned ON M1 is turned ON and error clear is executed MO is turned OFF M1 turns ON and the value of DO is input to BFM 27 b1 turns ON and error clear is executed The error clear execution time is secured by the timer TO The setting value of the timer should be 100 ms or more After the timer TO completes counting up bO of DO is turned OFF The error flag clear command is reset M2 is turned ON and reset of the error flag clear command is executed M1 is turned OFF M2 turns ON and the value of DO is input to BFM 27 b1 turns OFF and the error flag clear command is reset M2 is turned OFF 69 UOnonpoJjU uoneoyioads N9 wasis QJ uoneinByuoy uonejejsu x Jewog uum Qt urul 44O0 NO o suoroun J Jo uononpoau UJ c T D 3 o 2 s jdwex4 WweJboJgq gt Buyooyse gqnoy CO Uoneuuolu UOISJOA 8 Program Examples FX3U 128ASL M User s Manual 8 3 Automatic Address Detection Command Output Program Example 8 3 Automatic Address Detection Command Output Program Example Program explanation This is an
9. LED Name LED Status Description display color mS i ON 5 V DC is being supplied from the PLC 55 POWER Module operation Green g i pp i i l ag display OFF 5 V DC is not being supplied from the PLC or they are the units failure Sto i 9 SIS TIRAS 2 Shows the reference LINK display Green Flicker Operating normally OFF 5 V DC power off or the units failure 7 Automatic address ON Automatic address detection in progress w The gt mark indicates SET detection display Green Flicker Writing in the EEPROM F a reference destination In progress OFF Operating normally ON DPIDN disconnection E and reference manual T issi TE UG S DP DN short ALM ransmission Red 8 AAE FastnieKar 24 V DC is not being supplied or the voltage is low 0 2 second intervals 9 SUPP 9 i KS 39 23 Bujooysajqna CO uoneuuolu UOISISA I I I I OFF Operating normally I I The above is different from the actual page as it is provided for explanation only 11 1 Introduction FX3U 128ASL M User s Manual 1 1 Outline 1 Introduction 1 1 Outline The FX3U 128ASL M type AnyWireASLINK system master block hereinafter referred to as 128ASL M is a special function block for building an AnyWireASLINK system with FX3G FX3GC FX3U FX3Uc PLC The 128ASL M is jointly developed and manufactured by Mitsubishi and Anywire Corporation The AnyWireASLINK system
10. Manual ER I O wiring installation and maintenance Hardware Edition FX3U Series PLCs Main Unit Describes FX3U Series PLC specification for I O wiring and installation extracted from the FX3U User s pest Pao M JY997D50301 Manual Hardware Edition For details refer to FX3U Series User s Manual Hardware Edition FX3U Series VAS Additional saps Manual JY997D16501 Describes FX3U Series PLC specification details for 09R516 Manual ne I O wiring installation and maintenance Hardware Edition FX3UC Series PLCs Main Unit Describes FX3UC D DS DSS Series PLC specification for I O wiring and installation extracted praes EERE a Series JY997D50501 from the FX3UC User s Manual Hardware Edition ig T For details refer to FX3UC Series Users Manual Hardware Edition Describes FX3UC 32MT LT 2 specification for I O wiring and installation extracted from the FX3UC User s prado oils JY997D31601 Manual Hardware Edition x For details refer to FX3UC Series Users Manual Hardware Edition Describes FX3UC 32MT LT specification for I O wiring Supplied FX3UC 32MT LT and installation extracted from the FX3UC Users Manuel Hardware Manual JY997D12701 Manual Hardware Edition Only Japanese document For details refer to FX3UC Series User s Manual Hardware Edition ae FX3UC Series eae Additional Uzer S Marea JY997D28701 Describes FX3UC Series PLC specification details for 09R519 Manual I O wiri
11. applications in which the public could be affected such as in nuclear power plants and other power plants operated by respective power companies and applications in which a special quality assurance system is required such as for Railway companies or Public service purposes shall be excluded from the programmable logic controller applications In addition applications in which human life or property that could be greatly affected such as in aircraft medical applications incineration and fuel devices manned transportation equipment for recreation and amusement and safety devices shall also be excluded from the programmable logic controller range of applications However in certain cases some applications may be possible providing the user consults their local Mitsubishi representative outlining the special requirements of the project and providing that all parties concerned agree to the special circumstances solely at the users discretion 81 FX3U 128ASL M User s Manual Revised History Revised History Date 11 2013 3 2014 1 2015 4 2015 Description A First Edition BY UL cUL standards compliance is added G Partial correction A part of the cover design is changed FX3U 128ASL M USER S MANUAL MITSUBISHI ELECTRIC CORPORATION HEAD OFFICE TOKYO BUILDING 2 7 3 MARUNOUCHI CHIYODA KU TOKYO 100 8310 JAPAN FX3U128ASLM U E MODEL CODE 09R731 JY997D52101D Effective April 201
12. ol asm IBS S3 alarm ID information are stored o The number of error IDs and B 304 0130H Parameter access error access error b10 turns ON i No change 3z error ID information are stored zn 305 0131H it module status error 400 0190H Same ID used error ID used error b8 turns ON No change E NONIS Or AAMT Ie ane 0190H Same ID used error g alarm ID information are stored 401 0191H No ID setting error cea zS Error code Status of each part upon an error S 2 c decim hexa Latest error ID storage Parameter storage areas ERCCEODIDATSIMETES Cormnunication oc decimal area BFM 10257 BFM 12288 to BFM 18432 P S 300 012CH E Bcc rror ID is store 301 012DH 7 No effect 302 012EH K4095 OFFFH is stored w 303 012FH No change T Parameter access to error IDs is T 304 0130H automatically stopped until errors are S cleared Error ID is stored The details of the status error are 8 305 0131H indicated in the status details of each ID No effect in AnyWireASLINK parameters m 3 je 400 0190H Parameter access to error IDs is 25 No change automatically stopped until errors are 93 401 0191H cleared 6unoousejqnoi QO uoneuuolu UOISJOA 49 FX3U 128ASL M User s Manual 6 Introduction of Functions 6 2 Details of functions 3 Errors are cleared How to recover the AnyWireASLINK system from a parameter access error is as described below a Reset the parameter access error s
13. 2 e ao sete ee od Ded oe vede Raed tea UU eee ae besito logs Pea C i Uode 59 7 3 6 BFM 32 33 Number of I O points setting value eeeeseeeeeenm 59 7 3 7 BFM 34 35 Number of I O points whose use is allowed by main unit 59 7 3 8 BFM 4096 to 4103 Output information area sseeeseseeseeernnnmn 60 139 BEMEOT192 Number ofthe error DS i acct eba iue lees eo iu adea c or ai cusa Lasso A alm tern s usa tu eats 60 7 3 10 BFM 8193 to 8320 Error ID information storage areas eeeeeeee 60 7 3 11 BFM 8960 Number of the connected modules ccccccccceseceeceeeeeceeeeeeceeeeeseeeeeseeeeeesaeeeesenes 61 7 3 12 BFM 9216 Number of IDs of connected modules seeeeeeeseseeeeeeeee 61 7 3 13 BFM 9217 to 9344 Connected module ID information storage areas 61 7 3 14 BFM 9984 Number of the alarm IDS M sssss sneen ett k kt ERE ENE ERE E ERE nnne 61 7 3 15 BFM 9985 to 10112 Alarm ID information storage areas eeeeeeeeeeeee 61 7 3 16 BFM 10257 Latest error ID storage AF a ceeccccccccceeccccesceeceeeeceeeeeseueeeseuceeseaeesseeesaeeesaaes 62 7 3 17 BFM 10320 Parameter access method setting ccccccccccceeeceeeseeeseeeeeceeeeeseeeeeeseeeesseeeeeeaes 62 7 3 18 BFM 10321 Parameter access target module
14. FX Series terminal block The number of connectable units however depends on the type of main unit To check the number of connectable units refer to the User s Manual Hardware Edition of the main unit to be used for your system FX Series terminal block Slave module Generic name for AnyWireASLINK slave module Peripheral unit Peripheral unit Generic name for programming software handy programming panel and indicator Programming tool Programming tool Generic name for programming software and handy programming panel Programming software Generic name for programming software Abbreviation of programming software packages SWLIDNC GXW2 E Handy programming panel HPP Generic name for FX 30P and FX 20P E Indicators GOT1000 Series Generic name for GT16 GT15 GT14 GT11 and GT10 LIE UIVET FX3G Hardware Edition Abbreviation of FX3G Series User s Manual Hardware Edition FX3GC Hardware Edition Abbreviation of FX3GC Series User s Manual Hardware Edition FX3U Hardware Edition Abbreviation of FX3U Series User s Manual Hardware Edition FX3UC Hardware Edition Abbreviation of FX3UC Series User s Manual Hardware Edition Generic name for User s Manual Hardware Edition of each of the following Series FX3G FX3GC FX3U FX3UC Abbreviation of FX3S FX3G FX3GC FX3U FX3UC Series Programming Manual Basic and Applied Instructions Edition Hardware Edition manual Programming manual FX3U 128ASL M User s Manual Reading the Man
15. ID specification 62 7 3 19 BFM 10496 to 10623 11008 to 11135 Parameter storage location memory number 63 7 3 20 BFM 12288 to 18431 Parameter storage areas esseeeseeesseeeeeeeee 64 8 Program Examples 67 8 1 Basic Program Example iei en mo REED ELLE tse i up M eI tup xis HM EMI i S VEM PUEDES 67 8 2 Error Flag Clear Command Output Program Example eese 69 8 3 Automatic Address Detection Command Output Program Example seeessse 70 9 Troubleshooting 71 9d EED Diagnosis or 129ASLD3sIVI eie er EE E A A arr endeared tat 72 nadie deest a HE 74 FX3U 128ASL M User s Manual Table of Contents 9 9 Diagnostics on the PLC Main Unit eiiiioii i oaa Fact tea ted Eae ER deed Roe reti te actos 76 9 3 1 POWER POWY LED ON F lie ker O FF PE c eoo oae Oba re Ye meses oes pe pee se ees 76 S o 2 ALM LED BATT BAT LED ONJ OEE arrede serene a le tede aserne 76 953 ERRSORIAERR EEBJION FlCkerQORPI i ae En er en ek a fn rel bekendt en rg 77 9 4 Bee ied mco muli cmm 77 Appendix A Version Information 79 Appendix A 1 Version check Method cccccccseccececsceceeeceeeceeecaeeceeeseeeesaeesaeeseesaeeeseeeseeesaeees 19 Appendix A 2 Version upgrade history cccceccsscecececeueceeeceuceceeceueceueesaeesueeseeeeseeesaeeseeesaeees 79 EI rrr
16. LINK LED of the slave module does not flash check that there is no disconnection short circuit incorrect wiring or poor contact in the transmission cables DP DN around the module There may be a short in the transmission cables DP DN or the current supplied through the transmission cables DP DN is over the maximum allowable value Perform the following e Check that the transmission cables DP DN are not short circuited When crimping the link connector check that the pin assignment is Slow flicker correct one second DP DN short error e Check that the transmission cables DP DN are not in contact with intervals each other and that there is no incorrect wiring in the terminal block wiring of the 128ASL M and the slave module Correct the cables cross sectional area total length and modules type the number of connected modules so that the current consumption of all the slave modules does not exceed the transmission cable supply current of the 128ASL M 72 9 Troubleshooting FX3U 128ASL M User s Manual 9 1 LED Diagnosis of 128ASL M LED i 3 Description Corrective action S display 2 The voltage of the external power supply may be insufficient Perform the following e Adjust the power supply voltage of the external power supply within the rated value 21 6 V DC to 27 6 V DC Fast flicker SER e Check that the power cables 24 V 0 V are not disconnected or 2 Transmission cable volta
17. NENNEN NN NEN NNNM NN EN ee ee ee px poem INE SE REE NN When the larger one between the number of assigned input points and the number of assigned output points 3 5 ms 48 meets the following expression the transmission cycle time becomes the value shown on the left 3 9 o 9 4 32 Number of input or output points lt 64 0 p 9 64 64 24 64 32 FX3U 128ASL M User s Manual 2 Specification 2 4 Communication Specifications Transmission cycle time Rough value 3 5 ms 4 8 ms 5 9 ms Number of input Number of output E i s Condition remarks point settings point settings 64 64 48 When the larger one between the number of assigned 32 64 input points and the number of assigned output points meets the following expression the transmission cycle time becomes the value shown on the left 16 64 64 32 lt Number of input or output points lt 64 64 meets the following expression the transmission cycle time becomes the value shown on the left 64 lt Number of input or output points lt 96 When the larger one between the number of assigned input points and the number of assigned output points When the larger one between the number of assigned input points and the number of assigned output points 16 meets the following expression the transmission cycle 0 00 8 12 time becomes the value shown on the left 89 3 96 Number of input or output points lt 12
18. a product equivalent to SNR 10 223 by COSEL CO LTD FX3U 128ASL M User s Manual Associated Manuals Associated Manuals Only the installation manual is packed together with the FX3U 128ASL M type AnyWireASLINK system master block For a detailed explanation of the FX3U 128ASL M type AnyWireASLINK system master block refer to this manual For the hardware information and instructions on the PLC main unit refer to the respective manuals Refer to these manuals Y Refer to the appropriate equipment manual Fora detailed explanation refer to an additional manual number Manual for the Main Module FX3G Series PLCs Main Unit Describes FX3G Series PLC specification for I O i wiring and installation extracted from the FX3G User s Fra Bopp M JY997D46001 Manual Hardware Edition For details refer to FX3G Series User s Manual Hardware Edition SE FX3G Series TOME Additional Users Manual JY997D31301 Describes FX3G Series PLC specification details for 09R521 Manual Fe I O wiring installation and maintenance Hardware Edition FX3GC Series PLCs Main Unit Describes FX3GC Series PLC specification for I O f wiring and installation extracted from the FX3GC User s Fede as JY997D45201 Manual Hardware Edition For details refer to FX3GC Series Users Manual Hardware Edition ER FX3GC Series i mae Additional Users Manual JY997D45401 Describes FX3GC Series PLC specification details for 09R533
19. his product is designed for use in industrial applications Note Authorized Representative in the European Community Mitsubishi Electric Europe B V Gothaer Str 8 40880 Ratingen Germany Type Programmable Controller Open Type Equipment Models MELSEC FX3U series manufactured from October 1st 2013 FX3U 128ASL M Standard Remark EN61131 2 2007 Compliance with all relevant aspects of the standard Programmable controllers EMI Equipment requirements and tests e Radiated Emission Conducted Emission EMS Radiated electromagnetic field Fast transient burst Electrostatic discharge High energy surge Voltage drops and interruptions Conducted RF Power frequency magnetic field o FX3U 128ASL M User s Manual Standards Caution to conform with EC Directives Installation in Enclosure Programmable logic controllers are open type devices that must be installed and used within conductive control cabinets Please use the programmable logic controller while installed within a conductive shielded control cabinet Please secure the cabinet door to the control cabinet for conduction Installation within a control cabinet greatly affects the safety of the system and aids in shielding noise from the programmable logic controller Control cabinet The control cabinet must be conductive Ground the control cabinet with the thickest possible grounding cable To ensure that there is electrical contact between the control cabin
20. is a sensor network system 1 1 1 Outline and features of AnyWireASLINK system AnyWireASLINK is a high speed and highly reliable system which relieves the work site from complicated and incorrect wiring In this network sensors at the end of a control system are connected to a programmable controller in the optimum form 1 Flexible wiring The AnyWireASLINK allows flexible connections if the overall cable distance of transmission cables is within 200m There is no restriction about for example the main line length station to station distance and number of branches 2 Single touch cable connection and disconnection Using a dedicated connector enables cables to be connected and disconnected with a single operation and eases module addition and replacement For writing with the dedicated connectors contact Anywire Corporation 3 Space saving The system needs much less space because of a wide selection of small type slave modules manufactured by Anywire Corporation 4 RAS improvement The system start up time can be reduced by checking whether a slave module is connected or by detecting an ID setting error 1 Introduction FX3U 128ASL M User s Manual 1 2 External Dimensions and Part Names 1 2 External Dimensions and Part Names Without top cover uononpoJu 2 4 5 mounting holes 2 5 8 NI J S A uoneoyioads INQ 0 3 15 mounting hole pitch 87 3 43 wasis OO Q 95 5 3
21. location detection function becomes effective approximately five seconds after the 128ASL M is powered ON and the POWER LED lights e The error status in the LED and buffer memory can be reset also by the automatic address detection However if there are slave modules which do not give response they are not detected automatically and not registered As a result they are not regarded as monitoring targets of the disconnected transmission cable location detection function Even if such slave modules are not regarded as monitoring targets their I O areas still function gt 6unooysajgnos CO uoneuuolu UOISJOA 47 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 6 2 7 Transmission cable voltage drop detection function 1 Outline This function detects voltage drop in the external input power supply 24 V DC Detection voltage Approximately 18 6 V After voltage drop is detected the transmission clock is forcibly stopped by hardware processing and error indication is provided 2 Description When voltage drop is detected the ALM LED flashes repeatedly at 0 2 second intervals 1 Transmission cable voltage drop error BFM 28 b3 turns ON The error code K200 is stored in the latest error code storage area BFM 29 4 The error code K4095 is stored in the latest error ID storage area BFM 10257 i The transmission is stopped by hardware processing s
22. memory number input connected ID 7 3 19 11135 2B7FH Up to 128 IDs 11136 2B80H to to Not used 12287 2FFFH alee The ASLINK parameter of each ID is stored Subsection D s PSIBIHOISESISIR d rese 48 words x 128 parameters maximum iii 7 3 20 18431 47FFH P B 18432 4800H Notused i or later or later 55 uononpou uoneoyioads INQ waisig QJ uoneinByuoy uonejejsu x Jewog uum QT urul 440 NO o E sa o 3 o 282 La 2 O gt welbolg OO Aow y yng so duJex4 6unoousejqnoi QO Uoneuuolu UOISJOA 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory 7 3 Details of buffer memory 7 3 1 BFM 0 to 7 Input information area The ON OFF status of the input signal of the slave module is stored as listed in the table below BFM No Bit No ecinal d b7 b0 decimal 0 0000H 0 5 sos or o p pps p m ES ER EJET pe s Rome s pape mesa te etre tele ae e were sre ERE s s s ss ss amon reef we me a ra r a we mM KRAT ST au sr or s se or ee sus oe es ez sr o s 101 roo s s sr 9s 1 Ex For a two point input slave module address 26 Two bits from b10 of BFM 1 shown in the above table are occupied for the input signal because the setting address is 26 BFM 1 b10 and BFM 1 b11 Caution When it is necessary to handle two or more bit data as a series of data set the address of the slave module in such
23. number of input points is 8 assigned first and then the number of output points is assigned to remaining available points MES Example When the input rotary switch is set to 7 the output rotary switch is set to 7 and only 48 8g points are assigned by the main unit EE Number of input points 64 Number of output points 64 128 points 2 48 points As a result 48 input points and O output point are assigned Caution Even if the slave module is connected and set to the area address beyond the number of input points set by the rotary switch input signals from the slave module are not reflected in the buffer memory In the same way even if values are written to the buffer memory area address beyond the number of output points set by the rotary switch they are not output as actual signals 6unoousejqnoi QO uoneuuolu UOISJOA 27 3 System Configuration FX3U 128ASL M User s Manual 3 6 Automatic address detection 3 6 Automatic address detection Automatic address detection is a function to store the IDs addresses of the connected slave modules in the EEPROM of the 128ASL M Parameters of connected devices are automatically updated after IDs are stored to EEPROM and after detection of unset IDs addresses and duplicate IDs addresses The ID address information stored in the EEPROM is held even when the power is turned OFF However information about unset IDs and duplicate IDs and the ASLINK paramete
24. of each company FX3U 128ASL M User s Manual Table of Contents Table of Contents SAFETY PRECAUTIONS sassaccisdacieviocaatvcedicnencteesancenis REESE SEEREN NERE EEN ERE CODE EDEN FER Nor RR ERE NE 1 VAMC ANOS aorin IL 6 Ceriicatonror UL cul StANC ands cicius best cdeadoumadindocacdindeunctemaintduainetede wince Denim achinnmaiawsoovenacantiede 6 Compliance with EC directive CE Marking c ccccccccseeceeeeeeeeeesaeeeeesseeeeesaeeseeeaeeeeeseeeeeesaeeeeesaeeeeneas 6 Associated INVANU AIS 222 ceases ened de 2000 Ecce eae ac deen E lied DA Dei al ee 8 Generic Names and Abbreviations Used in the Manual 10 Reading Bed nc 3 1 ULL 6 gt meme ge ar sna aero oi TE 11 1 Introduction 12 Me PILING T ER 12 1 1 1 Outline and features of AnyWireASLINK system ssesesseseeeeennnnem nens 12 1 2 External Dimensions and Part Names ccccccccsscccececeeeeceeeceueeceecececeeeeeaeesaueesaeessueeseeseseeesags 13 rs Indications OrEEDS p ER 13 T1945 Terminal Layout iiie reri A E A Ene pM cM ena 14 2 Specification 15 2 General SDeciicalloliS iei bes ERI LLM M I Pul DE d eus E MIEL I MU 16 VS P OWEr OUDDIV SPECI CANON ertt 16 2 9 PSHOTMANCESBECIFICAL ONS 25 ra pictus el ae ele ahi lanes ince e adat ate aaa dictu a sme nenstoidasn cue 17 24 COMMUNICATION SP CEINCAONS sorcisto iaee a E E E 18 2 4 1 Transmission cycle time utto asus tbisanhhdut euthuf Seeds f
25. ov OV pP DP DN DN i E Ls 2 Description 24 V terminal for sensor power and communication 0 V terminal for sensor power and communication Transmission signal terminal It connects with DP of the slave module and the Terminator Transmission signal terminal It connects with DN of the slave module and the Terminator Functional earth terminal The one point is grounded with the grounding terminal and functional earth terminal of the PLC FG terminal e AnyWireASLINK connection terminal block specifications Type MSTB2 5 5 STF 5 08AU Phoenix Contact Co Ltd Electric wire size 0 2 to 2 5 mm AWG24 to 12 Tightening torque 0 5 to 0 6 Nem For both connector fixing screw and transmission cable connection screw gt For transmission cable treatment refer to Section 5 2 Do not tighten terminal screws with a torque outside the above mentioned range Failure to do so may cause equipment failures or malfunctions 14 2 Specification FX3U 128ASL M User s Manual 5 a Ss o Q Q o 2 Specification DESIGN PRECAUTIONS NWARN ING An AnyWireASLINK system has no control function for ensuring safety e When a communication failure occurs in the network data in the master block are held Check the communication status information and configure an interlock circuit in the sequence program to ensure that the entire system will operate safely e Make sure to have the foll
26. power supply may be insufficient Perform the following e Adjust the power supply voltage of the external power supply within the rated value 21 6 V DC to 27 6 V DC Tranemiscionceable vekage Check that the power cables 24 V 0 V are not disconnected or 200 00C8H short circuited When crimping the link connector check that the pin 3 A data access error related to the main unit and 128ASL M has been detected 104 0068H Main unit error Check the status of the main unit and power it OFF and ON 2 Check that there is no influence from noise drop error assignment is correct Check that the external power supply is properly connected to the terminal blocks of the 128ASL M and the slave module Check that there is no short circuit or incorrect wiring and screws are tightened sufficiently There may be a short in the transmission cables DP DN or the current supplied through the transmission cables DP DN is over the maximum allowable value Perform the following Check that the transmission cables DP DN are not short circuited When crimping the link connector check that the pin assignment is correct 201 OOC9H DP DN short error Check that the transmission cables DP DN are not in contact with 4 each other and that there is no incorrect wiring in the terminal block wiring of the 128ASL M and the slave module Correct the cables cross sectional area total length and modules type the number of connected modules so that
27. rotary switches of the 128ASL M are stored These values may be different from the number of input points and number of output points whose use is allowed by the main unit BFM No Default Description t decimal nexa i decimal decimal 32 0020H Number OF INDE points The number of input points set by the rotary switch is stored setting value 33 0021H Number Ot ouput points The number of output points set by the rotary switch is stored setting value 7 3 7 BFM 34 35 Number of I O points whose use is allowed by main unit Different from the number of input points and number of output points set by the rotary switches of the 128ASL M the number of input points and number of output points allowed by the main unit are stored These values indicate the number of input points and number of output points which can be used by the AnyWireASLINK system BFM No Default Description decimal aeza z decimal decimal 34 0022H Number of ge pomis The number of input points allowed by the main unit is stored allowed by main unit 35 0023H Number Ot Sek der pon The number of output points allowed by the main unit is stored allowed by main unit 59 UOnonpoJjU uoneoyioads INQ waisig QJ uoneinByuoy uonejejsu x Jewog uum QT urul 440 NO o E sa o 3 o 282 La 2 o gt welbolg OO Aow y yng so duJex4 6unoousejqnoi QO Uoneuuolu UOISJOA 7 Buffer Memory
28. same time the number of remote I O points is assigned in turn from the network master located nearest to the main unit In the case of above figure the assignment sequence is 1 2 8 Network masters which occupy remote I O available at the same time e FX3U 128ASL M e FX3U 128BTY M e FX3U 16CCL M Excluding the case in which it is connected to the 1 or 2 side and CC Link parameters are set by the sequence program 2 1 If the required number of remote I O points cannot be occupied depending on the connected system input points are assigned first to remote I O points from the network master located nearest to the main unit and then output points are assigned to remaining available remote I O points from the network master located nearest to the main unit 2 When connecting the FX3U 16CCL M to a side 1 or 2 side nearer to the main unit than another network master which occupies remote I O the following restriction is imposed It is necessary to set CC Link parameters using network parameters of GX Works2 If CC Link parameters are set by the sequence program all remote I O are occupied As a result the FX3U 16CCL M cannot be used at the same time with other network masters 3 If the required number of remote I O points cannot be occupied depending on the connected system the number of input output points is assigned from the network master located nearest to the main unit Network masters which occu
29. signals turns ON and the parameter access completion flag b9 4 of BFM 28 automatically turns ON i e Slave module alarm signal BFM 28 b8 Parameter access error BFM 28 b10 5 Turning ON error flag clear command BFM 27 bO via program turns OFF parameter access error BFM 28 b10 6 Use the program to turn OFF the signal that turned ON in the step 1 1 Before the start of parameter access store the access method access target ID and parameter data to the corresponding memory area 2 The slave module alarm signal and parameter access error remain held until the error flag clear command output bO of BFM 27 is turned ON The contents of error are stored in the corresponding memory area 43 uononpou uoneoyioads INQ wasis GO uoneinByuoy uonejejsu x Jewog uum Qt O Z O Ti TI l 3 a suonoun Jo uoONpo u welbolg OO Aiowsyysoyng N so duJex4 6unoousejqnoi QO Uoneuuolu UOISJOA 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 6 2 3 Automatic address detection function Automatic address detection is a function to store the IDs addresses of the connected slave modules in the EEPROM of the 128ASL M Parameters of connected devices are automatically updated after IDs are stored to EEPROM and after detection of unset IDs addresses and duplicate IDs addresses The ID address information stored in the EEPROM is held eve
30. status 39 control to an operating PLC thoroughly read the manual and sufficiently confirm safety in advance 2 e Q o DISPOSAL PRECAUTIONS NC AUTION we ag Please contact a certified electronic waste disposal company for the environmentally safe recycling and disposal of your device S3 S O a TRANSPORTATION AND STORAGE PRECAUTIONS CAUTION T The PLC is a precision instrument During transportation avoid impacts larger than those specified in the general specifications of the PLC main unit manual by using dedicated packaging boxes and shock absorbing palettes e Failure to do so may cause failures in the PLC After transportation verify operation of the PLC and check for damage of the mounting part etc 2 UR 32 o v p3 n gt 6unooysajgnos CO uoneuuolu UOISJOA 15 2 Specification FX3U 128ASL M User s Manual 2 1 General Specifications 2 1 General Specifications 2 2 Items other than the following are equivalent to those of the PLC main unit For general specifications refer to the Hardware Edition manual of the connected PLC Item Specification Ambient temperature 0 to 55 C 32 to 131 F when operating and 25 to 75 C 13 to 167 F when stored Dielectric withstand voltage 500 V AC for one minute Between PLC all terminals and ground terminal Insulation resistance 5 MQ or more by 500 V DC Megger Pollution degree 2 or less Power Supply Specification Item Specification 1
31. the calculation formulas 1 to 3 1 I A Ihin A x m lt The maximum transmission cable supply current From conditions 1 and 2 the maximum transmission cable supply current is 0 96 A From conditions 3 and 4 the current consumption Ihin A x m of 10 non isolated slave modules is as follows 0 020 0 013 x 4 x 10 0 720 A I A 0 720 A lt 0 96 A Satisfied uoneinByuoy n m D e es O gt 2 Vm V AV V 20 V From conditions 1 and 2 the voltage drop AV V between lines is as follows 0 720 x 50 x 0 025 x 2 1 8V From condition 5 the power supply Vm V for the 128ASL M is 24 V Se 24V 1 8V 22 2V gt 20V Satisfied Og up 490 3 Vm V AV V The lowest allowable voltage of the connected load 21 6 V 28 22 2V gt 21 6V Satisfied Based on the calculation results 1 to 3 above this system can be constructed xU 38 9S 5 6 Power ON OFF timing DE Oo The AnyWireASLINK system external power supply should be turned ON simultaneously with or before the power supply of the PLC main unit it is connected to T The order is inverted when the system is powered OFF z 2 Caution 3 E E If the PLC main unit is powered ON before the 24 V DC external power supply in the AnyWireASLINK system a transmission cable voltage drop detection error may occur 8 If the error including transmission cable voltage drop detection error is detected the error can be cleared by me turni
32. the link connector check that the pin assignment is correct 201 OOC9H DP DN short error Check that the transmission cables DP DN are not in contact with 4 each other and that there is no incorrect wiring in the terminal block wiring of the 128ASL M and the slave module Correct the cables cross sectional area total length and modules type the number of connected modules so that the current consumption of all the slave modules does not exceed the transmission cable supply current of the 128ASL M block of the 128ASL M In addition check that there is no incorrect wiring and that screws are tightened sufficiently When creating a new system adding or removing a slave module or changing the address of the slave module perform the automatic address detection After the automatic address detection is performed check that the number of slave modules and the address are consistent with those of the actual system If the LINK LED of the slave module does not flash check that there is no disconnection short circuit incorrect wiring or poor contact in the The transmission cables DP DN may be disconnected or there may be no response from the slave module The slave module may have failed or the system configuration may have been changed after the automatic address detection Check error ID information in the buffer memory identify the disconnected area and perform the following Check that the transmission cables entire cabl
33. the slave module used c Maximum transmission cable supply current For the maximum transmission cable supply current refer to Section 2 2 Description of the conditions 2 and 3 a Vm Supply voltage for the 128ASL M Voltage 24 V DC 10 to 15 21 6 to 27 6 V DC ripple voltage 0 5 Vp p or lower Rated voltage 24 V DC b AV V Cable to cable voltage drop AV V Transmission cable supply current I A x Cable resistance R Q Cable resistance R Q Cable length m x Conductor resistance Q m x 2 Cross sectional area 1 25 mm Conductor resistance 0 015 Q m Cross sectional area 0 75 mm Conductor resistance 0 025 Q m 38 5 Wiring Power ON OFF Timing FX3U 128ASL M User s Manual 5 6 Power ON OFF timing 1 5 Example of power supply calculation 5 Calculation to check whether a system having the following conditions can be constructed E Condition 1 Cross sectional area of transmission cables 0 75 mm Conductor resistance 0 025 2 m S Condition 2 Total length 50 m Condition 3 Non isolated slave module Input ASLINKER Number of I O points 4 points 2 Module current consumption 20 mA EB Number of modules 10 units Condition 4 Connected load to the slave module three wire sensor si Three wire sensor currentconsumption 13 mA S Number of sensors 4 per module Power supply voltage 24 V DC 10 Condition 5 Power supply for the 128ASL M Power supply voltage 24 V DC wasis OO Checking
34. to BFM 8320 Latest error code storage area BFM 29 The number of alarm IDs and alarm ID information are held The error code is held If a new error occurs the old error is overwritten by the latest error in accordance with the priority No change No change The number of alarm IDs and alarm ID information are held The number of error IDs and Wachana error ID information are held ge The number of alarm IDs and No change alarm ID information are held Status of each part upon an error Effect on parameter communication AnyWireASLINK system or turn ON and OFF the error flag clear command b0 of BFM 27 However when the same ID used error or no ID setting error has occurred it is necessary to set the address of the slave module again using the address writer and then perform the automatic address detection If only the power is reset without setting of the address again a parameter access error may occur 50 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 6 2 9 Same ID used detection function I O 1 Outline S This function allows the 128ASL M to check whether a duplicate ID is used for any slave module whose address has been automatically detected Point 2 2 IDs are detected with automatic address detection 9 When the AnyWireASLINK system is powered OFF after the ID detection the ID status is not displayed S O until the automatic address d
35. transmission speed is not reduced suoroun Jo uononpoJu e Parameter access parameter batch read or parameter batch write cannot be performed to a slave module not registered in the master module with automatic address detection Remove a no ID setting error or a same ID used error of the slave module and then perform parameter access parameter batch read or parameter batch write 7 e When the automatic address detection is executed the parameter batch read is executed simultaneously w When parameter reading or writing is in progress the parameter access completion flag b9 of BFM 28 3 turns OFF Refer to the section describing the parameter access timing and adjust the access timing gt e When parameter reading or writing is in progress do not execute re access to the parameters and 2 automatic address detection Doing so can cause a malfunction of the module 8 un 28 93 gt 6unooysajgnos CO Uoneuuolu UOISJOA 41 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 2 Parameter reading and writing methods Automatic update No special operation is required because data are automatically updated To check the parameter information refer to the corresponding buffer memory address Parameter access The procedure for parameter access is as follows a To read parameters 1 Set the access method Store OOOOH read parameter access method setting BFM 10320 2 S
36. 1 E uL c cus NoD Operating Manual SH 080921ENG p 9 Ong 43JU69 Manual programs and predefined protocol support function in Intelligent Function Module GX Works2 Manuals for FX3U 128ASL M type AnyWireASLINK system master block Describes FX3U 128ASL M type AnyWireASLINK Supplied FX3U 128ASL M system master block extracted from the FX3U 128ASL JY997D51901 Manual Installation Manual M User s Manual For details refer to FX3U 128ASL M User s Manual T FX3U 128ASL M Additional Users Manual JY997D52101 Describes FX3U 128ASL M type AnyWireASLINK 09R521 Manual system master block details This Manual FX3U 128ASL M User s Manual Generic Names and Abbreviations Used in the Manual Generic Names and Abbreviations Used in the Manual Generic name or abbreviation Description PLC FX3G series Generic name for FX3G Series PLC Generic name for FX3G Series PLC main unit FX3GC series Generic name for FX3GC Series PLC Generic name for FX3GC Series PLC main unit FX3U series Generic name for FX3U Series PLC Generic name for FX3U Series PLC main unit FX3UC series Generic name for FX3UC Series PLC FX3UC PLC or main unit Generic name for FX3UC Series PLC main unit Generic name for expansion board The number of connectable units however depends on the type of main unit To check the number of connectable units refer to the User s Manual Hardware Edition of the main unit to be used for your system Expansion board G
37. 30 mA 5 V DC 5 V DC power is supplied internally from the main unit Voltage 21 6 to 27 6 V DC 24 V DC 10 to 15 ripple voltage 0 5 Vp p or lower Rated voltage 24 V DC Please use a UL Class 2 power supply Module current consumption 0 1 A Transmission cable supply current Up to 2 A Driving power supply External power supply for ASLINK communication 1 The 128ASL M supplies the internal power supply of slave modules and the connection load power supply of non isolated slave modules from transmission signals The following expression shows the rough value of the transmission cable supply current A Transmission cable supply current Internal current consumption of slave modules Maximum current consumption of sensors and actuators connected to non isolated slave modules On some slave modules with cables the cross sectional area of the integrated transmission cables DP DN is 0 75mm or less However they can be used without any problem provided that the cross sectional area of normal transmission cables DP DN meets the following requirements For slave modules with integrated transmission cables DP DN the length of the transmission cables DP DN is included in the total length Relationship between the total length of the AnyWireASLINK system the cross sectional area of connection cables and transmission cable supply current Cross sectional area Transmission cable supply current of transmission cabl
38. 5 MEE Specifications are subject to change without notice
39. 76 3 e Unit mm inches S MASS Weight Approx 0 2 kg 0 44 Ibs ej 1 Extension cable 7 DIN rail mounting hook 2 Direct mounting hole 8 SET switch 4 2 holes of 4 5 0 18 Automatic address setting switch i 5 mounting screw M4 screw 9 Transmission points number setting switch Ar 3 PowerLED green Rotary switch m O 4 Status LEDs green red 10 Extension connector E gt Refer to Section 1 3 11 AnyWireASLINK connection terminal block 5 Nameplate Refer to Section 1 4 6 DIN rail mounting groove DIN rail DIN46277 9 35 mm 1 38 width O a 1 3 Indications of LEDs 38 o a 000 ON J5 V DC is being supplied from the PLC S3 POWER Module operation ea NENNEN g Supp 2 S display L9 5 V DC is not being supplied from the PLC or they are the units failure 96 7 LINK Mengen Green Operating normally 2 display BER ER 5 V DC power OFF or the units failure T Addriassietecion Automatic address detection in progress co SET in progress Green Writing in the EEPROM zi DP DN disconnection 8 Slow flicker DP DN short aM Transmission one second intervals 8 ii od Fast flleker 24 V DC is not being supplied or the voltage is low 0 2 second MESE 2 3 Q OFF Operating normally E o D gt 6unooysajgnos CO uoneuuolu UOISJOA 13 FX3U 128ASL M User s Manual 1 Introduction 1 4 Terminal Layout 1 4 Terminal Layout Terminal name C 24v 24V L3
40. 8 128 Zo a Caution on the transmission cycle time e The transmission delay time is a value between one and two transmission cycle times due to the double check described later e To ensure the response provide an input signal that is longer than two transmission cycle times 19 5 a Ss o Q E Q z o uoneoyinads wasis OO uoneinByuoy uonejejsu x Jewog uum QT urul 440 NO o suoroun J Jo uononpoau weboq OO amp ouejjeung N so duJex4 6unoousejqnoi QO Uoneuuolu UOISJOA 2 Specification FX3U 128ASL M User s Manual 2 4 Communication Specifications 2 4 2 Double check The 128ASL M performs double check as the error control method By double check the 128ASL M does not update the data in the input area until it receives the same input data twice consecutively so that noise errors and other transmission errors can be avoided Accordingly data is updated as described below 1 Input In the best case one transmission cycle time and in the worst case two transmission cycle times are required as the input data response time to sample once Thus signals of two transmission cycle times or less may not be sampled twice depending on the timing Therefore to ensure response provide an input signal that is longer than two transmission cycle times Sampling timing Sampling timing Ma sample E Minimum one transmission EN est case lt cycle time Ed
41. 8 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 6 2 8 Parameter access error detection function i 1 Outline S This function allows the following parameter access errors to be detected and stores the error code in the latest error code storage area BFM 29 Slave module hardware error error code K300 K301 2 Parameter access target module ID error error code K302 eo Parameter value error error code K303 Parameter access error error code K304 S Same ID used error error code K400 No ID setting error error code K401 Even if above errors occur they do not affect the LED indication or I O communication For details on countermeasures refer to Subsection 7 3 4 and Section 9 2 wasis QJ 2 Parameter access error status The parameter access error status and check method are listed below Error code Status of each part upon an error Number of the error IDs Number of the alarm IDs Status BFM 8192 BFM 9984 hexa 2 decimal information Error ID information storage Alarm ID information storage decimal BFM 28 areas areas BFM 8193 to BFM 8320 BFM 9985 to BFM 10112 uoneinByuoy uonejejsu x 300 012CH Slave module hardware The number of alarm IDs and 301 012DH error alarm ID information are stored 302 012EH E access target pa turns ON No change Na change 5 module ID error 303 012FH Parameter value error Hie name
42. 8H Transmission cable voltage drop error Error contents without regard to the ID 201 OOC9H DP DN short error 202 OOCAH DP DN disconnection error o oe Slave module hardware error eee 301 012DH neg eed K4095 OFFFH 302 012EH Parameter access target module ID error Error contents wilheubreaard to the lD 305 0131H Slave module status error Error ID 400 0190H Same ID used error 401 0191H No ID setting error 7 3 17 BFM 10320 Parameter access method setting Specify in BFM 10320 the access method data direction for access to ASLINK parameters of an individual ID BFM No Default 7 Description decimal mere i decimal decimal Specify the parameter access method data direction 10320 2850H Reading direction Slave Master 0 0000H 0 Writing direction Master Slave 1 0001H 7 3 18 BFM 10321 Parameter access target module ID specification Specify in BFM 10321 the access target ID for access to ASLINK parameters of an individual ID BFM No h Description Deltage decimal X4 decimal decimal Specify parameter access target ID Write one of the following to specify the ID ELSEN RESDA 0000H to 007FH ID of output slave modules 0200H to 027FH ID of input slave modules or I O combined slave modules 62 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory 7 3 19 BFM 10496 to 10623 11008 to 11135 Parameter storage location memory 5 nu
43. D o 77 FX3U 128ASL M User s Manual 9 Troubleshooting 9 4 Diagnostics by GX Works2 MEMO 78 Appendix A Version Information FX3U 128ASL M User s Manual Appendix A 1 Version check method Appendix A Version Information Appendix A 1 Version check method The version of 128ASL M can be checked by the following method 1 Checking the nameplate The version of the 128ASL M is shown as S N indicated on the label adhered to the right side of the product Right side wopEL FXsu 128ASL M S N 13X0001 V4 00 Actual product nameplate differs from the example shown above LolLL L LQ2 2 00 klLLLBLLL LLQL Q llIL 2 2 2 2 L Version Appendix A 2 Version upgrade history The table below lists the version upgrade history of the 128ASL M Version Contents of version upgrade Ver 1 00 First product 79 UOnonpoJjU uoneoyioads N9 uoneinByuoy waisig QJ uonejejsu x urul 440 NO Jewog uum QT o suoroun J Jo uononpoau so duex3 uejug OO Aow n yng N O c c D 62 F O O 2 Q Uoneuuolu UOISJOA FX3U 128ASL M User s Manual Appendix A Version Information Appendix A 2 Version upgrade history MEMO 80 FX3U 128ASL M User s Manual Warranty Warranty 1 Please confirm the following product warranty details before using this product Gratis Warranty Term and Gratis Warranty
44. Failure to do so may cause electric shock or damage to the product Connect the DC power supply wiring to the dedicated terminals described in this manual If an AC power supply is connected to a DC input output terminal or DC power supply terminal the PLC will burn out e Make sure to attach the top cover offered as an accessory before turning on the power or initiating operation after installation or wiring work Failure to do so may cause electric shock When drilling screw holes or wiring make sure that cutting and wiring debris do not enter the ventilation slits Failure to do so may cause fire equipment failures or malfunctions e Make sure to properly wire to the terminal block European type in accordance with the following precautions Failure to do so may cause electric shock equipment failures a short circuit wire breakage malfunctions or damage to the product The disposal size of the cable end should follow the dimensions described in the manual Tightening torque should follow the specifications in the manual Twist the end of strand wire and make sure that there are no loose wires Do not solder plate the electric wire ends Do not connect more than the specified number of wires or electric wires of unspecified size Affix the electric wires so that neither the terminal block nor the connected parts are directly stressed Do not apply the 24 V DC power before wiring the entire AnyWireASLINK system C
45. LINK parameter 12328 3028H Sensing level Data direction Slave Master 12329 to to 12335 302FH Device parameter 10 Device parameter 13 Device parameter 15 Device parameter 16 welbolg OO Aow y yng Device parameter 17 so duJex4 Device parameter 18 Q O N co I Not used gt 6unooysajgnos CO Uoneuuolu UOISJOA 65 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory 2 AnyWireASLINK parameters These parameters are common to all slave modules connected to AnyWireASLINK and the description and storage areas are common to all models 12288 nx 48 Indicates the slave module ID Module ID n O to 127 e QOOOH to 007FH ID of output slave modules 1st of 48 words e 0200H to 027FH ID of input slave modules or I O combined slave modules Name Description Indicates the status of the slave module The status 1 to 6 of the slave module are indicated depending on the ON or OFF of each bit as below b15 sas dos b6 b5 b3 b2 b1 b0 j f f t ft f 6 5 4 3 2 1 1 Module power supply status bO ON Slave module voltage drop OFF No fault 2 Sensing level status b1 ON Sensing level drop OFF No fault 3 1 0 disconnection ASLINKER b2 ON 1 0 disconnection OFF No fault 4 1 0 short circuit ASLINKER b3 ON 1 0 short circuit OFF No fault 5 I O power supply voltage drop isolated slave module b5 ON No ID setting OFF No faul
46. MITSUBISHI ELECTRIC PROGRAMMABLE CONTROLLERS MEL SET This product was jointly developed and manufactured by Mitsubishi and Anywire Corporation Note that the warranty on this product differs from that on other Anywire programmable controller products Refer to WARRANTY in this manual Any WireASLINK GHEE Safety Precautions ED Read these precautions before use PRECAUTIONS REGARDING WARRANTY AND SPECIFICATIONS The FX3U 128ASL M are jointly developed and manufactured by Mitsubishi and Anywire Corporation Note that there are some precautions regarding warranty and specifications of this product lt Warranty gt Other programmable controller FX3u 128ASL M products e g MELSEC F series Repair term after discontinuation of production MEME MEME Application of the EMC Directive Other programmable controller FX3u 128ASL M products e g MELSEC F series Applicable EMC standard EN61131 2 Zone A EN61131 2 Application of the UL cUL standards Other programmable controller FX3u 128ASL M products e g MELSEC F series Applicable UL standard cUL standard UL508 UL508 Ed December 2014 and later The UL cUL mark is indicated on the nameplate of the applicable product 1 GHEE Safety Precautions ED Read these precautions before use Before installation operation maintenance or inspection of this product thoroughly read through and understand
47. N rail Inthe case of the FX3G FX3U PLC 1 to 2mm 0 04 to 0 08 FX3U Series main unit NSSNSNSSNSSS F o oo L o 0 0 oo o VO il 0 0 o y A KO 0 ry lt SU 4 U SSSSSSSSSS 1 to 2 mm 0 04 to 0 08 Other extension equipment DIN rail n the case of the FX3GC FX3UC PLC 1 to 2mm 0 04 to 0 08 FX3UC Series main unit DIN rail FX2NC CNV IF or FX3UC 1PS 5V 1 to 2 mm 0 04 to 0 08 Other extension equipment 31 UOHnonpoJjU uoneoyioads N9 wasis OO O O 5 zh E ab z o uonejeisu Jewog uum Qt urul 44O0 NO o suoroun J Jo uononpoau uejug OO Aiowayjseyng N so duJex4 6unoousejqnoi QO Uoneuuolu UOISJOA 4 Installation FX3U 128ASL M User s Manual 4 2 Direct mounting 4 2 Direct mounting The product can be installed directly with screws An interval space of 1 to 2 mm 0 04 to 0 08 between each unit is necessary For installation details refer to the Hardware Edition manual of the connected PLC For mounting hole pitches refer to Section 1 2 Create mounting holes in the mounting surface according to the external dimensions diagram Fit the 128ASL M A in the figure to the right to the mounting holes and tighten with M4 screws B in the figure to the right For the screw position and quantity refer to the dimensioned drawing specified below gt For dimension
48. ONS dc 34 5 4 Power supply and grounding wiring seu e dbaquba ect edu Imber in Remb cnr bacio etd eset ee ee eet i tenu 35 5 4 1 Power supply and grounding WIMING cccccccseccceeececsesecccesecccseseeseaseceeseeeseseeeeeseeeeseaeeessaetesensags 35 942 v SrOBIndiriojioeeede actes arEiu land c Ex RI Ii DM LL Mul M UI MAPS MEL 35 5 5 Power supply details to the AnyWireASLINK system seessseseeeeen nn 36 FX3U 128ASL M User s Manual Table of Contents 9 o OWE l ON Or TMIN Seances sees 3 Seas unde E ieeaseavedeaadengdecideuedaanaencgauiaen ad searchers 39 6 Introduction of Functions 40 GF FUNCIONS VS ecc 40 62 Details of Pa cl Ps uisa coins os tad oo Fon oci pato racks ifa dia an eee Darm und eel cra Fanta ca 40 62271 BIEIFansmisstOb TUNOM oe oet 04 edet opened tcc c eatem ar hose a ade saei uln c uid edlen se meeen cole a ceu 40 6 2 2 Parameter reading writing function seeeesssseseeeesesee eene nnne nnn nnne nnn nnne nnn nns 41 6 2 3 Automatic address detection function seesssssssssssssssseseeee nennen nennen nnn nenas 44 6 2 4 Automatic Reading of the System Configuration ccccccccecsseeeeeeeeeeeeeeeeeeeeesaeeeeeesaaeeeeeeaeeeeeeeas 45 6 2 5 Transmission cable short detection function cccccccccsececceeceeseeececeeececeeeceseeecesseeeesseueessaeeeesaaes 46 6 2 6 Disconnected transmission cable location detection function
49. PLC Status Error corrective action ON The battery voltage is low Immediately replace the battery The battery voltage is higher than the value OFF with D8006 Normal The table below describes details for the BATT BAT LED statuses of the FX3u FX3uc PLC LED Status PLC Status Error corrective action ON The battery voltage is low Immediately replace the battery The battery voltage is higher than the value OFF with D8006 Normal 9 Troubleshooting FX3U 128ASL M User s Manual 9 4 Diagnostics by GX Works2 9 3 3 ERROR ERR LED ON Flicker OFF z 3 The table below describes details for the LED statuses LED Status PLC Status Error corrective action 1 Stop the PLC and turn the power ON again If the ERROR ERR LED goes out a watchdog timer error may have 2 occurred Adopt any of the following measures on Review the program E Set the maximum value D8012 lower than the watchdog timer value Check that the input used for input interrupt or pulse catch is not being 2 abnormally turned ON and OFF in one scan Check that the frequency of the pulse duty 5096 input to the high speed counter is not exceeding the specified range Add WDT instructions A watchdog timer error may have occurred Add some WDT instructions to the program and reset the watchdog ON or the hardware of the PLC may be timer several times in one scan damaged Change the watchdog timer value Change the watchdog timer se
50. Range If any faults or defects hereinafter Failure found to be the responsibility of Mitsubishi occurs during use of the product within the gratis warranty term the product shall be repaired at no cost via the sales representative or Mitsubishi Service Company 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 a Failure occurring from inappropriate storage or handling carelessness or negligence b
51. a way that they are assigned to the same buffer memory 7 3 2 BFM 27 Data access command Various data access commands from the main unit to the 128ASL M are stored as shown below BFM No Bit No decimal 27 001BH BH Refer to the following table Bit status Bit No Description 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory 7 3 3 BFM 28 Status information The status information of the 128ASL M is stored as shown below BFM No Bit No iens aa P8 S a rz wnt ero o s or we os p ne pt t 28 001CH CH Refer to the following table 7 3 4 BFM 29 Error code The error code is stored when an error occurs hexa Description decimal 4001DH The error code of the 128ASL M is stored For details refer to the following table Error code List Default decimal decimal Error code I hexa Description of error Cause and corrective action Priority decimal decimal A malfunction has been detected in the 128ASL M hardware 100 0064H i i Check the status of the main unit and power it OFF and ON to to 128ASL M hardware error j 1 high If the error occurs again the 128ASL M may have failed Please consult 103 0067H ipe your local Mitsubishi representative If the error occurs again the 128ASL M may have failed Please consult your local Mitsubishi representative The voltage of the external power supply may be insuffi
52. ailures or malfunctions Make sure to properly wire to the terminal block European type in accordance with the following precautions Failure to do so may cause electric shock equipment failures a short circuit wire breakage malfunctions or damage to the product The disposal size of the cable end should follow the dimensions described in the manual Tightening torque should follow the specifications in the manual Twist the end of strand wire and make sure that there are no loose wires Do not solder plate the electric wire ends Do not connect more than the specified number of wires or electric wires of unspecified size waisig QJ uoneinByuoy n m D e es O gt Affix the electric wires so that neither the terminal block nor the connected parts are directly stressed DE Do not apply the 24 V DC power before wiring the entire AnyWireASLINK system ue Connect a 24 V DC external power supply to FX3U 128ASL M for the AnyWireASLINK system E Make sure to observe the following precautions in order to prevent any damage to the machinery or accidents due to abnormal data 38 Q written to the PLC under the influence of noise 1 Do not bundle the main circuit line together with or lay it close to the main circuit high voltage line or load line Otherwise noise disturbance and or surge induction are likely to take place As a guideline lay the control line at least 100mm o 3 94 or more away from the main circ
53. al Configuration 3 PC software 4 Personal computer APLC FROM TO 1 AnyWireASLINK FXsc FXacc Instructions system master block FXsu FXauc etc PLC FX3u 128ASL M EET 7 Terminating unit 5 Connection B Cable TEE cable erminating i Slave module module Slave 6 Slave module module Part name Model name Remarks 1 un ends system master I 2BASL M 7 2 FX3G FX3GC FX3U FX3UC PLC 3 PC software GX Works2 PLC programming software FX USB AW For the FX3U FX3UC PLC F2 232CAB 1 5 Connection cable FX 232AWC H Personal computer FX 422CAB0 MR J3USBCBL3M GT09 C30USB 5P Slave module Slave For the FX3G FX3GC PLC 6 Slave module a For the AnyWireASLINK system master block 7 Terminating unit Be For the AnyWireASLINK system master block 8 General purpose wire VCTF cable and flat cable etc can be used For transmission cables refer to the Section 2 3 24 3 System Configuration FX3U 128ASL M User s Manual 3 2 Applicable PLC 3 2 Applicable PLC 2 S E Model name Applicability Maximum number of connectable units FX3G Series PLC Ver 1 00 and later 1 unit 2 FX3GC Series PLC 4 Ver 1 40 and later 1 unit FX3U Series PLC Ver 2 20 and later 1 unit FX3UC Series PLC Ver 2 20 and later 1 unit S o The version number can be checked by reading the last three digits of device D8001 D8101 1 An FX2NC CNV IF or FX3UC 1PS 5V is nec
54. ameter 1 to 19 5 12297 3009H Device parameter 9 These parameters are unique to each slave module The contents of the parameters 12298 300AH Device parameter 10 vary depending on the type of slave 12299 300BH Device parameter 11 module 12300 300CH Device parameter 12 Data direction Master Slave 12301 300DH 12302 300EH 12303 300FH 12304 3010H Device parameter 16 12305 3011H Device parameter 17 12306 3012H Device parameter 18 12307 3013H 12308 3014H 12309 3015H 12310 3016H 12311 3017H Device parameter 4 12312 3018H Device parameter 5 12313 3019H Device parameter 6 12314 301AH Device parameter 7 12315 301BH uonejejsu x Device parameter 13 Device parameter 14 Device parameter 15 Device parameter 19 Jewog uum QT urul 440 NO Device parameter 1 Device parameter 2 Device parameter 3 suonoun4 Jo uoONpo u Device parameter 8 Device parameter 1 to 19 12316 301CH Device parameter 9 These parameters are unique to each slave module The contents of the parameters 12317 301DH vary depending on the type of slave 12318 301EH Device parameter 11 module 12319 301FH Device parameter 12 Data direction Slave Master 12320 3020H 12321 3021H Device parameter 14 12322 3022H 12323 3023H 12324 3024H 12325 3025H 12326 3026H Device parameter 19 12327 3027H Status details AnyWireAS
55. ansmission with the slave module which has been disconnected so far is recovered to the uonejejsu x normal status 5 The ALM LED keeps ON oz The DP DN disconnection error b1 of BFM 28 remains in the ON status S3 The error code K202 remains stored in the latest error code storage area BFM 29 ub If a new error occurs the old error is overwritten by the latest error in accordance with the priority 38 The number of error IDs remains stored in the number of error IDs BFM 8192 The ID address of disconnected slave modules remains stored in the error ID information storage areas BFM 8193 to BFM 8320 The disconnected ID address remains stored in the latest error ID storage area BFM 10257 If the status does not change the connection has not been repaired Therefore check it again b Power OFF the AnyWireASLINK system or turn ON and OFF error flag clear command BFM 27 b0 The following will occur The ALM LED turns OFF T DP DN disconnection error BFM 28 b4 turns OFF w The error code K202 stored in the latest error code storage area BFM 29 is cleared 3 The number of error IDs is cleared in the number of error IDs BFM 8192 3 The ID address of disconnected slave modules is cleared in the error ID information storage areas BFM 8193 to BFM 8320 The disconnected ID address is cleared in the latest error ID storage area BFM 10257 8 Caution FE e The disconnected transmission cable
56. ault decimal i Description decimal hexa decimal 2000H The number of error IDs that send no response is stored 0 to 128 i Re 7 3 10 BFM 8193 to 8320 Error ID information storage areas When the transmission cables are disconnected or a slave module response error error code K202 occurs up to 128 error IDs are stored in ascending order in BFM 8193 to 8320 After the automatic address detection the data are updated as soon as a response error is detected The stored value is retained until the error flag clear command bO of BFM 27 is turned ON or the 128ASL M is powered OFF and ON BFM No Default 3 Description decimal nena j decimal decimal Error ID information is stored Up to 128 IDs The error IDs are stored for the number of error IDs BFM 8192 in ascending order 8193 2001H The IDs to be stored are as follows to to 0000H to 007FH ID of output slave modules 0 8320 2080H 0200H to 027FH ID of input slave modules or I O combined slave modules The stored error IDs are cleared when the 128ASL M is powered OFF and ON or the error flag clear command b0 of BFM 27 is turned ON via program after the error is cleared 60 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory 7 3 11 BFM 8960 Number of the connected modules The number of slave modules detected by the automatic address detection is stored in BFM 8960 BFM No hexa decimal
57. bes details for the LED statuses LED Status PLC Status Error corrective action Power of the specified voltage is being m supplied to the power supply terminal The power supply 1s norma One of the following causes may have occurred Power and current of the specified Flicker voltage is not being supplied to the power supply terminal Incorrect external wiring Internal errors in the PLC Check the supply voltage e After disconnecting cables other than the power cable turn the power ON again and check for changes in the state If no improvement is obtained consult your local Mitsubishi Electric representative One of the following causes may have occurred If the power is not OFF check the power supply and the power supply The power supply is OFF route If power is being supplied correctly consult your local Mitsubishi Incorrect external wiring Electric representative Power of the specified voltage is not After disconnecting cables other than the power cable turn the power ON being supplied to the power supply again and check for changes in the state If no improvement is obtained terminal consult your local Mitsubishi Electric representative The power cable is broken 9 3 2 ALM LED BATT BAT LED ON OFF The table below describes details for the ALM LED statuses of the FX3G FX3Gc PLC This LED is valid when the optional battery is installed and the battery mode is selected using a parameter LED Status
58. by the rotary 7 3 6 0021H MM setting em switch is stored Number of input points The number of input points allowed by the main 0022H n allowed by main unit unit is stored Subsection Number of output points The number of output points allowed by the main 7 3 7 0023H it allowed by main unit unit is stored 0024H to Not used OFFFH 1000H The ON OFF status of the output signal of the i i Subsection Output information area slave module is stored 738 Address 0 to 127 16bit x 8 128bit to 1007H 1008H to Not used 1FFFH 2000H Number of the error IDs The number of error IDs that send no response is Subsection stored 7 3 9 2001H i The error IDs are stored for the number of error Error ID information storage Subsection to Areas IDs BFM 8192 in ascending order 7310 2080H Up to 128 IDs a0 H2081H to Not used 22FFH 9300 Number of the connected The number of slave modules detected by mus o ee modules automatic address detection is stored 7 3 11 2301H to Not used 23FFH The number of IDs of connected modules is Number of IDs of connected Subsection 2400H stored by the automatic address detection modules 7 3 12 Up to 128 IDs 2401H IDs of all the connected slave modules Connected module ID Subsection to j BFM 9216 are stored in ascending order information storage areas 7 3 13 2480H Up to 128 IDs 2481H to Not used 26FFH 54 FX3U 128ASL M User s Manual
59. cccccceecceceeeceeeeeeeeeeeeeeeaeeesaaes 47 6 2 7 Transmission cable voltage drop detection fUNCTION cccceeececeeseeeeeeeeeeeeeeesaeeeeeeseaaeeeseaeeeeeeas 48 6 2 8 Parameter access error detection FUNCTION ccccccccccseececee cece seeeeceeeeeceeeeceeecessaueeseeaeessaaeessaaes 49 6 2 9 Same ID used detection function llseesssesssssesssssssssseee eese nnne ns 51 6 2 10 Module with no ID setting detection function sssssssseeeeeeek ekst t kk kk E REE n 52 7 Buffer Memory 53 7 1 How to Read Write from to Buffer Memory ssssssssssssseseneeeeen nennen nnne 53 7 1 1 Direct specification of buffer memory cccccsecccccseeceeeceesececceeseceeceeueeesceueeesseeseesssasesesssageenenias 53 FA BRONMPBO IDSIUCHIODS ic rena ente auae a deste qu ait leads ssi osea tenendi tt eis AR nest due po sinite 53 PZ Buller Memory PIS Ure T SRRDEERE 54 1 3 Details of Buffer MEMO EE ET m LL Mm 56 7 3 1 BFM 0 to 7 Inp tintormation area coupe eret i deu Sided ee cU age vue Palau i vest eee 56 7 3 2 BFM 27 Data access command usus qose eni usce debat curio popa aio See Cue tuivub oett uae e Decosve toe Ned deus ee be dusud cogo 56 71 9 3 BEME29 Status InformallOD s isa ii o e apte ec pcc eee meet e teo bte ee inesse tie aco esie un 57 1 34 BEMAZ9 Eror code creed e o e etm he pex a tandrem AR eden bie Eee Cue ud 57 15 0 BEMA 30 Model Code
60. cient Perform the following e Adjust the power supply voltage of the external power supply within the rated value 21 6 V DC to 27 6 V DC Transmission able viar Check that the power cables 24 V 0 V are not disconnected or 200 00C8H short circuited When crimping the link connector check that the pin 3 A data access error related to the main unit and 128ASL M has been detected 104 0068H Main unit error Check the status of the main unit and power it OFF and ON 2 Check that there is no influence from noise drop error assignment is correct Check that the external power supply is properly connected to the terminal blocks of the 128ASL M and the slave module Check that there is no short circuit or incorrect wiring and screws are tightened sufficiently 57 uononpou uoneoyioads INQ wasis OO uoneinByuoy uonejejsu x Jewog uum QT urul 440 NO o E sa o Sg o 282 La 2 O 9 weboq OO Aow y yng so duJex4 6unoousejqnoi QO uoneuuolu UOISJOA 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory Error code hexa Description of error Cause and corrective action Priority decimal There may be a short in the transmission cables DP DN or the current supplied through the transmission cables DP DN is over the maximum allowable value Perform the following Check that the transmission cables DP DN are not short circuited When crimping
61. ck the status of the main unit or slave module and power it OFF and 300 012CH Slave module hardware ON 301 012DH error Check that there is no influence from noise If the error occurs again the 128ASL M may have failed Please consult your local Mitsubishi representative 74 9 Troubleshooting FX3U 128ASL M User s Manual 9 2 Error Codes 1 Error code Description of error Cause and corrective action Priority a decimal decimal The 128ASL M accessed the parameter of an ID where the automatic address detection has not been performed Perform the following 2 Check that the slave module ID for parameter access in the actual Parameter access target system matches that of the program Especially note that the input D 302 012EH slave module ID is the input slave module address 200H 6 e module ID error When creating a new system adding or removing a slave module or Q changing the address of the slave module perform the automatic ej address detection After the automatic address detection is performed check that the number of slave modules and the addresses are consistent with those of the actual system wasis OO areas BFM 9985 to BFM 10112 to identify the error ID Then check uoneJn6iuo that the slave module parameter setting value is within the allowable setting range 12FH Parameter value error 304 Ds parameter deres eito An ASLINK parameter access signal error has been detected 6 Check
62. code K201 is stored in the latest error code storage area BFM 29 The error code K4095 is stored in the latest error ID storage area BFM 10257 i The transmission clock stops for two seconds The system checks for short at two second intervals 4 1 If multiple errors occur simultaneously the error with the highest priority is displayed and stored 3 How to recover from the transmission cable short status How to recover from the transmission cable short status is as follows a Eliminate the short in the AnyWireASLINK system When the short is removed the following will occur Bit transmission is resumed automatically The ALM LED keeps flashing The DP DN short error b1 of BFM 28 remains in the ON status The error code K201 remains stored in the latest error code storage area BFM 29 and the error code K4095 remains stored in the latest error ID storage area BFM 10257 If a new error occurs the old error is overwritten by the latest error in accordance with the priority If the status does not change the short has not been eliminated Therefore check it again b Power OFF the AnyWireASLINK system or turn ON and OFF error flag clear command BFM 27 b0 The following will occur The ALM LED turns OFF DP DN short error BFM 28 b1 turns OFF The error code K201 stored in the latest error code storage area BFM 29 is cleared The error code K4095 stored in the latest error ID sto
63. command is reset RST M2 is turned OFF A o j 70 9 Troubleshooting FX3U 128ASL M User s Manual 9 Troubleshooting 3 2 STARTUP AND MAINTENANCE Co PRECAUTIONS NWARN ING l Do not touch any terminal while the PLC s power is on S Doing so may cause electric shock or malfunctions Before cleaning or retightening terminals cut off all phases of the power supply externally Failure to do so may cause electric shock Before modifying or disrupting the program in operation or running the PLC carefully read through this manual and the associated manuals and ensure the safety of the operation An operation error may damage the machinery or cause accidents wasis OO uoneinByuoy STARTUP AND MAINTENANCE PRECAUTIONS CAUTION Do not disassemble or modify the PLC Doing so may cause fire equipment failures or malfunctions For repair contact your local Mitsubishi Electric representative Turn off the power to the PLC before connecting or disconnecting any extension cable Failure to do so may cause equipment failures or malfunctions Turn off the power to the PLC before attaching or detaching the following devices Failure to do so may cause equipment failures or malfunctions uonejejsu x Peripheral devices display module expansion boards and special adapters 5 Input output extension units blocks FX Series terminal blocks and the special function units blocks oz Battery and mem
64. cted load Cable resistance R Q Cable length m x Conductor resistance Q m x 2 Lowest allowable voltage of the external Cross sectional area 1 25 mm Conductor resistance 0 015 Q m e Cross sectional area 0 75 mm Conductor resistance 0 025 Q m power supply for communication 21 6 V 1 For transmission cable supply current details refer to the Section 2 2 3 Description of the condition 1 Transmission cable supply current I A A Ihin x m Iho x n Izdin x p Izdo x q m Number of connected non isolated input modules n Number of non isolated output modules p Number of connected isolated input modules q Number of isolated output modules 36 5 Wiring Power ON OFF Timing FX3U 128ASL M User s Manual 5 5 Power supply details to the AnyWireASLINK system 1 a Constants related to the non isolated slave module Ihin Iho 5 In the non isolated slave module the current required for the internal control circuit and the connected E load is supplied by transmission cables DP DN Ihin A Current consumption of the non isolated input module z Internal current consumption of the non isolated input module Current consumption of connected load three wire sensor x Number of points 2 Iho A Current consumption of the non isolated output module F Internal current consumption of the non isolated output module Current consumption of E connected load x Number of points 2 O Non isolated sla
65. ction check that there is no inconsistency between the actual system configuration and the IDs registered in the 128ASL M referring to the value stored in Number of 7 IDs of connected modules BFM 9216 and values stored in connected module ID information storage areas BFM 9217 to BFM 9344 e f an error such as DP DN short error and DP DN disconnection error occurs during the automatic address detection perform the automatic address detection again from the beginning 3 3 6 2 4 Automatic Reading of the System Configuration 8 On the AnyWireASLINK configuration window GX Works2 automatically reads the information on slave 53 modules connected in the AnyWireASLINK system so that man hours for setting parameters can be reduced zs For the AnyWireASLINK configuration window details refer to the following manual GX Works2 Version 1 Operating Manual Intelligent Function Module 6unoousejqnoi QO Uoneuuolu UOISJOA 45 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 6 2 5 Transmission cable short detection function 1 Outline The transmission cable short detection function detects DP DN short in the AnyWireASLINK system and stops transmission to prevent breakage of the modules and to protect the system 2 Description When transmission cable short is detected the ALM LED flashes repeatedly at one second intervals DP DN short error BFM 28 b1 turns ON The error
66. d points for the AnyWireASLINK system through the rotary switches QY The correspondence between the rotary switch setting value and the number of input output points is as EE follows s Input rotary switch Number of input Output rotary switch Number of output 3 Input No setting value points Output No setting value points 0 128 0 128 4 1 0 1 0 2 8 2 8 3 3 16 3 16 9 4 24 4 24 5 32 5 32 6 48 6 48 5 7 64 7 64 93 8 80 8 80 Og 9 96 9 96 B A 112 A 112 3a B 128 B 128 C to F 0 C to F 0 6 The 128ASL M requests the main unit for the number of input points and number of output points set by the S rotary switches SE The following restriction is imposed on the number of transmission points actually assigned by the main unit S Number of input points Number of output points lt 128 points Inthe case of Number of input points Number of output points 2 128 points the number of input points T is assigned first and then the number of output points is assigned to remaining available points Example When the input rotary switch is set to 9 and the output rotary switch is set to 7 Number of input points 96 Number of output points 64 160 points 128 points E As a result 96 input points and 32 7 128 96 output points are assigned 3 When the number of transmission points assigned by the main unit is less than 128 points and Input rotary B switch setting value Output rotary switch setting value exceeds that the
67. decimal 12288 e 12335 12336 12383 18384 18431 hexa decimal Parameter storage areas 1 48 words Parameter storage areas 2 48 words Parameter storage areas 128 48 words ASLINK parameters of each ID are stored in BFM 12288 to 184371 Default decimal The parameter storage area of each ID has 48 words Information of up to 128 parameters can be stored The ID is displayed at the start address of each parameter area R W A single storage area has 48 words and the data are sorted in ascending order of ID When adding a slave module or changing the ID of a slave module perform the automatic address detection again Description 64 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory 1 Details on the parameter storage area 48 word structure 5 The parameter storage area 1 12288 to 12335 is given as an example of the 48 word structure for E parameters listed in the table below 2 BFM No hexa Description decimal d decimal 2 AnyWireASLINK parameter 05 122 H M BIRGER ene Peon Data direction Slave Master 412289 3001H Device parameter 1 8 o 12290 3002H Device parameter 2 12291 3003H Device parameter 3 12292 3004H Device parameter 4 wasis OO 12293 3005H Device parameter 5 O 12294 3006H Device parameter 6 12295 3007H Device parameter 7 si 12296 3008H Device parameter 8 Device par
68. details to the AnyWireASLINK system 1 Method of supplying power to the AnyWireASLINK slave module Connect a commercial 24 V DC stabilized power supply to the 128ASL M The power consumed in the internal control circuits of all AnyWireASLINK slave modules and the external load power connected to non isolated slave modules are supplied collectively from the 24 V DC external power supply connected to the 128ASL M 2 Scope of the power supply with transmission cables When constructing the AnyWireASLINK system the current consumption of the system must satisfy conditions specified by the following calculation formulas 1 to 3 for the 128ASL M Number Calculation formula Remarks Ihin Current consumption of the non isolated input module Iho Current consumption of the non isolated output module Izdin Current consumption of the isolated input module Izdo Current consumption of the isolated output module 4 m Number of connected non isolated input modules cable supply current n Number of non isolated output modules p Number of connected isolated input modules q Number of isolated output modules I A Ihin x m Iho x n Izdin x p Izdo 1 x q lt The maximum value of transmission 2 Vm V AV V 20 V Vm Supply voltage for the 128ASL M AV Cable to cable voltage drop Vm V AV V gt The lowest allowable voltage AV V Transmission cable supply current A x Cable resistance R Q 3 of the conne
69. dition Never use the product in areas with excessive dust oily smoke conductive dusts corrosive gas salt air Cl2 H2S SO2 or NO2 flammable gas vibration or impacts or expose it to high temperature condensation or rain and wind If the product is used in such conditions electric shock fire malfunctions deterioration or damage may occur Do not touch the conductive parts of the product directly Doing so may cause device failures or malfunctions Install the product securely using a DIN rail or mounting screws Install the product on a flat surface If the mounting surface is rough undue force will be applied to the PC board thereby causing nonconformities When drilling screw holes or wiring make sure that cutting and wiring debris do not enter the ventilation slits Failure to do so may cause fire equipment failures or malfunctions Be sure to remove the dust proof sheet from the PLC s ventilation slits when installation work is completed Failure to do so may cause fire equipment failures or malfunctions e Make sure to attach the top cover offered as an accessory before turning on the power or initiating operation after installation or wiring work Failure to do so may cause electric shock Connect extension cables securely to their designated connectors Loose connections may cause malfunctions 3 WIRING PRECAUTIONS Make sure to cut off all phases of the power supply externally before attempting wiring work 33
70. e assignment of remote I O points in the whole system refer to Section 3 4 3 Cables FK4 UL 125 1 00 FK4 UL075 100 17 5 a Ss o Q Q z o uoneoyinoads waisks GO uoneinByuoy uonejejsu x Jewog uum QT urul 440 NO o suoroun J Jo uononpoau weboq OO amp ouejjeung N so duJex4 6unoousejqnoi QO uoneuuolu UOISJOA 2 Specification FX3U 128ASL M User s Manual 2 4 Communication Specifications 2 4 Communication Specifications 2 4 1 Transmission cycle time The transmission cycle time is the time required for the 128ASL M and all the slave modules to update I O data The transmission cycle time of the 128ASL M is listed in the table below However Number of input point settings and Number of output point settings shown in the table below indicate the number of input points and number of output points assigned to 128ASL M by the main unit so not set by the rotary switches of the 128ASL M Transmission cycle time Number of input Number of output m E Condition remarks Rough value point settings point settings 16 16 16 16 16 16 24 NEN NES ae NER When the larger one between the number of assigned input points and the number of assigned output points meets the following expression the transmission cycle 2 3 ms time becomes the value shown on the left 89 1 4 Number of input or output points x 32 EE EN NN NES WEM
71. e modules remain the same UJ a D 3 O 2 e o Q S 3 so duJex4 6unoousejqnoi QO uoneuuolu UOISJOA 51 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 6 2 10 Module with no ID setting detection function 1 Outline A module with no ID set is detected as having a factory default ID for input modules 767 for output modules 255 when automatic address detection is executed Point e No ID set detection is performed with automatic address detection When the AnyWireASLINK system is powered OFF after the No ID set detection the No ID set status is not displayed until the automatic address detection is performed again Only a single ID is stored in Number of alarm IDs BFM 9984 and alarm ID information storage area BFM 9985 to BFM 10112 when no ID setting is the cause For example when multiple IDs are ID255 1 is shown as the value stored in Number of alarm IDs BFM 9984 and 255 is shown as a value stored in alarm ID information storage area BFM 9985 to BFM 10112 2 No ID set status When the AnyWireASLINK system is in the following status a module with no ID setting has been detected e Slave module alarm signal BFM 28 b8 turns ON e No ID set error error code K401 is stored in latest error code storage area BFM 29 and unset IDs are stored in latest error ID storage area BFM 10257 e Unset IDs are stored in alarm ID information storage area
72. eneric name for high speed input output special adapter communication special adapter analog special adapter and CF card special adapter Special adapter The number of connectable units however depends on the type of main unit To check the number of connectable units refer to the User s Manual Hardware Edition of the main unit to be used for your system Generic name for input output powered extension unit and input output extension block The number of connectable units however depends on the type of main unit To check the number of connectable units refer to the User s Manual Hardware Edition of the main unit to be used for your system I O extension unit block Generic name for special function unit and special function block Special function unit block or The number of connectable units however depends on the type of main unit Special extension unit To check the number of connectable units refer to the User s Manual Hardware Edition of the main unit to be used for your system Special function unit Generic name for special function unit Special function block Generic name for special function block 128ASL M Abbreviated name for FX3U 128ASL M Generic name for Memory cassette The number of connectable units however depends on the type of main unit To check the number of connectable units refer to the User s Manual Hardware Edition of the main unit to be used for your system Memory cassette Generic name for
73. ent and received between the master module and a slave module Parameters are classified into two types specific setting information equipment parameters of slave 2 modules and common network information AnyWireASLINK parameters on There are four methods as follows to read or write parameters E Name Description 2 The self monitoring status of all slave modules and the current values except the setting i Auiomatie update values of the sensors are read at regular intervals By specifying the data access direction and target slave module parameter values of any slave Parameter access pup module can be read or written individually All parameter values of all slave modules can be read out into the buffer memory of the 128ASL M All parameter values of all slave modules can be written as specified by the buffer memory of the 128ASL M Parameter batch read wasis OO uoneJn6iuo Parameter batch write The parameters which can be set by the parameter reading writing methods are listed below Parameter reading and writing methods Parameter name Read write Automatic Parameter Parameter update Read Write batch read batch Write uonejejsu x percer RENE i v v x parameter 1 The device parameter name differs depending on the slave module to be used i x Bull 44O NO somoq uum Qn Point Even when parameter access parameter batch read or parameter batch write is executed the bit
74. equest command for the slave module b8 of BFM 27 5 Read parameters to check that the settings have been reflected on the slave module c Parameter batch read 1 Turn ON parameter batch read command for the slave module BFM 27 b9 At this time the parameter access completion flag b9 of BFM 28 turns OFF The parameter access completion flag b9 of BFM 28 turning ON completes the access and turns OFF the parameter batch read command for the slave module b9 of BFMZ27 2 he read parameters are stored in parameter storage areas corresponding locations of BFM 12288 or later d Parameter batch write 1 The written parameters are stored in parameter storage areas corresponding locations of BFM 12288 or later 2 Turn ON parameter batch write command for the slave module BFM 27 b10 At this time the parameter access completion flag b9 of BFM 28 turns OFF The parameter access completion flag b9 of BFM 28 turning ON completes the access and turns OFF the parameter batch write command for the slave module b9 of BFMZ27 3 Read parameters to check that the settings have been reflected on the slave module 42 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions Point During the parameter access parameter batch read and parameter batch write parameter access completion flag BFM 28 b9 is OFF e While the parameter access completion flag b9 of BFM 28 is OFF the parameter acces
75. es are free from disconnection Also check that the cables have been crimped with proper pin assignment using link connectors appropriate for the cross sectional area 202 00CAH DP DN disconnection error Check that the signal cables are properly connected to the terminal 5 transmission cables DP DN around the module If the error occurs again the 128ASL M may have failed Please consult your local Mitsubishi representative The 128ASL M accessed the parameter of an ID where the automatic address detection has not been performed Perform the following Check that the slave module ID for parameter access in the actual Parameter access target system matches that of the program Especially note that the input 302 012EH module dDJSNm E slave module ID is the input slave module address 200H 6 A malfunction has been detected in the slave module hardware Check the status of the main unit or slave module and power it OFF and 300 012CH Slave module hardware ON 6 301 012DH error Check that there is no influence from noise When creating a new system adding or removing a slave module or changing the address of the slave module perform the automatic address detection After the automatic address detection is performed check that the number of slave modules and the addresses are consistent with those of the actual system areas BFM 9985 to BFM 10112 to identify the error ID Then check that the slave module parameter setting va
76. es Total length of 50 m or less Total length of 50 m to 100 m Total length of 100 m to 200 m 1 25 mm Up to 2A Up to 1 A Up to 0 5 A 0 75 mm Up to 1 2A Up to 0 6 A Up to 0 3 A Quick reference chart of total length m and transmission cable supply current A 1 25 mm 2 1 0 Transmission cable supply current A 0 10 50 60 100 170 200 Total length m 16 FX3U 128ASL M User s Manual 2 Specification 2 3 Performance Specifications Quick reference chart of total length m and transmission cable supply current A 0 75 mm 2 s N 0 96 Transmission cable supply current A 0 40 50 80 100 160 200 Total length m 2 9 Performance Specifications Item Transmission clock Maximum transmission distance total length Transmission system Connection type Transmission protocol Error control Number of connected I O points Number of connectable modules Maximum number of I O points per system RAS function AnyWireASLINK transmission cable Power cable Communication with PLC Number of I O occupied points Number of connectable units to the main unit Specification 27 0 kHz 200 m DC power supply transmission total frame cyclic system Bus topology multidrop system T branch system tree branch system Dedicated protocol AnyWireASLINK Double check system checksum Up to 128 points Up to 128 varies depending on the curre
77. essary to connect the 128ASL M with the FX3GC FX3UC PLC Wa s S 3 3 Connection with PLC uoneinByuoy The 128ASL M connects to a PLC via an extension cable The 128ASL M is handled as a special extension block of the PLC The unit number of the 128ASL M is automatically assigned No 0 to No 7 Unit No 1 to No 7 is assigned when the main unit is an FX3UC 32MT LT 2 starting from the special function unit block closest to the PLC main unit This unit number is used in FROM TO instructions For details on the assignment of the I O number and unit number of the PLC refer to the Hardware Edition manual corresponding to the connected PLC uonejejsu x Other 5 FX3U PLC 128ASL M extension o units blocks zZ Qa lg TO EE de qe o E ze 95 Do ec Other FX3UCPLC extension 128ASL M T units blocks CU o C D 3 O gt BE as Sa FX2NC CNV IF 23 e An FX2NC CNV IF or FX3uc 1PS 5V is necessary to connect the 128ASL M with the FX3Gc FX3uc PLC e For extension the separately available FXoN 65EC FXoN 30EC extension cable and FX2N CNV BC are used One extension cable can be used per system e he number of I O points occupied by the 128ASL M is eight Make sure that the total number of I O points occupied I O points of the main unit extension unit s extension block s and the n
78. et and its door connect the cabinet and its doors with thick wires n order to suppress the leakage of radio waves the control cabinet structure must have minimal openings Also wrap the cable holes with a shielding cover or other shielding devices The gap between the control cabinet and its door must be as small as possible by attaching EMI gaskets between them Shielding cover Shielded cable 1 These wires are used to improve the conductivity between the door and control cabinet Use the FX3U 128ASL M in Zone A as defined in EN61131 2 2 Zone defined in EN61131 2 Separation defined in EN61131 2 for EMC LVD regulation decided depending on condition in industrial setting Zone C Factory mains which is isolated from public mains by dedicated transformers Zone B Dedicated power distribution which is protected by secondary surge protection 300 V or less in the rated voltage is assumed Zone A Local power distribution which is isolated from dedicated power distribution by AC DC converters isolation transformers etc 120 V or less in the rated voltage is assumed Please attach a ferrite core less than 200 mm from the FX3u 128ASL M side terminal block to the DP and DN signal wires The wire should be wound twice around the ferrite core The ferrite core should be a product equivalent to ZCAT3035 1330 by TDK Corporation Please attach a noise filter to the 0 V and 24 V power cables The noise filter should be
79. et the access target module ID Store the access target module ID in parameter access target module ID specification BFM 103271 ID Description 0000H to 007FH ID of output slave modules 0200H to 027FH ID of input slave modules or I O combined slave modules 3 Turn ON parameter access request command for the slave module BFM 27 b8 At this time the parameter access completion flag b9 of BFM 28 turns OFF The parameter access completion flag b9 of BFM 28 turning ON completes the access and turns OFF the parameter access request command for the slave module b8 of BFM 27 4 The read parameters are stored in parameter storage areas corresponding locations of BFM 12288 and later b To write parameters 1 Set the access method Store 0001H write parameter access method setting BFM 10320 2 Set the access target module ID Store the access target module ID in parameter access target module ID specification BFM 103271 ID Description 0000H to 007FH ID of output slave modules 0200H to 027FH ID of input slave modules or I O combined slave modules 3 The written parameters are stored in parameter storage areas corresponding locations of BFM 12288 and later 4 Turn ON parameter access request command for the slave module BFM 27 b8 At this time the parameter access completion flag b9 of BFM 28 turns OFF The parameter access completion flag b9 of BFM 28 turning ON completes the access and turns OFF the parameter access r
80. etection is performed again e Only a single ID is stored in Number of alarm IDs BFM 9984 and alarm ID information storage area BFM 9985 to BFM 10112 when a duplicate ID is the cause For example when ID10 is used for multiple modules 1 is shown as the value stored in Number of alarm IDs BFM 9984 and 10 is shown as a value stored in alarm ID information storage area BFM 9985 to BFM 10112 2 Same ID used status When the AnyWireASLINK system is in the following status the same ID is used for multiple modules e Slave module alarm signal BFM 28 b8 turns ON e Same ID used error error code K400 is stored in latest error code storage area BFM 29 and the same ID is stored in latest error ID storage area BFM 10257 e The relevant ID is stored in alarm ID information storage area BFM 9985 to BFM 10112 1 If multiple errors occur simultaneously the latest error is displayed waisig QJ uoneJn6iuo uonejejsu x 3 How to recover from same ID used status 9 Check Number of alarm IDs BFM 9984 and alarm ID information storage area BFM 9985 to 9z BFM G10112 Then set a unique ID address in all the slave modules Og Error status is reset by executing automatic address detection in the 128ASL M after setting the IDs E addresses in the slave modules 38 Point Error status is reset by powering OFF the AnyWireASLINK system or by turning ON error flag clear command BFM 27 b0 However the IDs addresses of the slav
81. example of the sample program for executing the automatic address detection using the automatic address detection command b1 of BFMZ27 Devices used by users Device Description MO Automatic address detection command execution condition M1 Automatic address detection command execution M2 Automatic address detection reset DO Data access command BFMZ27 save area D1 Error flag clear execution waiting time 100 ms Program example MO FNC 78 The automatic address detection execution FROM oko kar Do e condition is established and MO turns ON The value of BFM 27 is saved to DO b1 corresponding to the automatic address ENG 26 ES HFFFD ES detection command of BFMZ27 of DO is OAND turned OFF FNC 79 The value of DO is input to BFM 27 FNC 27 PE H0002 ES b1 of DO is turned ON M1 is turned ON and automatic address MEM uM RST MO is turned OFF M1 turns ON and the value of DO is input to M1 FNC 79 y os K BFM 27 TO b1 turns ON and automatic address detection is executed FNC 78 The value of BFM 28 status information is FNC 26 WAND H0800 All bits except b11 of D1 are turned OFF The value of D1 is judged FNC232 When it is 0 b11 of D1 is OFF SEN The automatic address detection state flag is reset M2 is turned ON M2 FNC 26 i i WAND EN HFFFD EN M2 is turned ON and b1 of DO is turned OFF ENC 79 The value of DO is input to BFMZ27 KO K27 K1 b1 turns OFF and the automatic address TO i detection
82. ge drop eae NUM 0 2 second short circuited When crimping the link connector check that the pin 25 ALM error E intervals assignment is correct D e Check that the external power supply is properly connected to the terminal blocks of the 128ASL M and the slave module Check that there is no short circuit or incorrect wiring and screws are tightened sufficiently OFF Operating normally The system is operating normally wasis OO uoneinByuoy uonejejsu x Jewog uum QT urul 440 NO o suoroun J Jo uononpoau welbolg OO amp ouejjeung N mi gt lt amp 3 Ier D n 73 9 Troubleshooting FX3U 128ASL M User s Manual 9 2 Error Codes 9 2 Error Codes When an error occurs the error contents can be checked by the error code BFM 29 After removing the error cause clear the error code by turning OFF the power supply or by error flag clear command BFM 27 b0 Error code hexa Description of error Cause and corrective action Priority decimal decimal 0064H A malfunction has been detected in the 128ASL M hardware 100 to io 128ASL M hardware error Check the status of the main unit and power it OFF and ON 1 high 103 If the error occurs again the 128ASL M may have failed Please consult g 0067H i ae your local Mitsubishi representative If the error occurs again the 128ASL M may have failed Please consult your local Mitsubishi representative The voltage of the external
83. he 128ASL M 3 Transmission cycle time x 2 4 Processing time on the slave module 5 Output response time on the slave module 1 Processing time on the PLC Sequence scan time 2 Processing time on the 128ASL M 0 6 ms Transmission cycle time x 2 3 Transmission time Maximum delay time The transmission cycle time differs depending on the transmission I O points setting 4 Processing time on the slave module 1 ms maximum common to the AnyWireASLINK slave modules Refer to the manual for the slave module connected to the system or the 5 Output response time on the slave module device connected to the slave module Parameter access response time The parameters of the AnyWireASLINK provide the monitoring information of the slave module or the entire system and the setting information of the slave module Parameter data are synchronized between the buffer memory of the 128ASL M and the slave module at a cycle different from that of the I O data Use the following calculation formulas to obtain the parameter access response time Update interval time of an automatically updated ASLINK parameter Number of connection IDs x transmission cycle time x 3 Time required for reading a parameter Number of target IDs x transmission cycle time x 27 Time required for writing a parameter Number of target IDs x transmission cycle time x 39 22 2 Specification FX3U 128ASL M User s Manual 2 4 Communication Specifications
84. lue is within the allowable setting range 304 osoh Bats re An ASLINK parameter access signal error has been detected 6 Check that there is no influence from noise The slave module has notified of error status 295 O TAE i cave MOSES ASE MOE Check the target module s status details and solve the problem The same address ID has been set to some of the connected slave modules 400 0190H Same ID used error Use Number of alarm IDs BFM 9984 and alarm ID information storage 6 The slave module has detected a parameter write value that cannot be set to the slave module itself 303 012FH Parameter value error Use Number of alarm IDs BFM 9984 and alarm ID information storage 6 areas BFM 9985 to BFM 10112 to identify the error ID Check the address ID of the slave module then set a unique number There is a slave module with no address setting Perform the following 401 0191H No ID setting error Set the address of the slave module 6 e Set the address of the slave module to a value other than 255 58 7 Buffer Memory FX3U 128ASL M User s Manual 7 3 Details of buffer memory 7 3 5 BFM 30 Model code The model code of the 128ASL M is stored BFM No hexa decimal OOTEH Stores the model code ofthe T2BASL MKTEBO RR 7 3 0 BFM 32 33 Number of I O points setting value Default decimal Description decimal The number of input points and number of output points set by the
85. mber o After the automatic address detection the start number of the buffer memory which stores ASLINK parameters saved in each connected ID is stored The ASLINK parameter storage area for each ID is 48 words including both the write area and the read 2 area 0n BFM No 8 h Description Default s decimal decimal Oo decimal 5 Buffer memory start address for ASLINK parameters of the output slave module at the address 0 ID 0000H Buffer memory start address for ASLINK parameters of the output slave module at the address 1 ID 0001H 10496 2900H 10497 2901H e Parameter storage location memory e number output 10622 297EH 10623 297FH 10624 2980H to to 11007 2AFFH 11008 2BO0H 11009 2B01H Parameter storage location memory number input input and output 11134 2B7EH wasis OO Buffer memory start address for ASLINK parameters of the output slave module at the address 126 ID 007EH Buffer memory start address for ASLINK parameters of the output slave module at the address 127 ID 007FH uonejejsu x Not used uoneJn6iuo Buffer memory start address for ASLINK parameters of the input slave module at the address 0 ID 0200H Buffer memory start address for ASLINK parameters of the input slave module at the address 1 ID 0201H Jewog uum QT urul 440 NO Buffer memory start address for ASLINK parameters of the input slave module at the addres
86. n when the power is turned OFF However information about unset IDs address and duplicate IDs address and the ASLINK parameter information of each slave module are not held For the address setting for slave modules refer to the manual for the slave module used Whenever starting the system or changing the system configuration as follows set the correct address to all the slave modules and perform the automatic address detection When starting the system operation When adding a slave module after starting the system operation When removing a slave module after starting the system operation When changing the address of a slave module after starting the system operation The automatic address detection can be performed using two means the SET switch and automatic address detection command output Using the SET switch Step 1 Check that all of the slave modules are operating normally 2 Remove the top cover and keep pressing the SET switch until the SET LED green turns ON 3 When the SET LED stays on for a while and then flickers and turns OFF the ID address has been stored 4 When automatic address detection flag BFM 28 b11 turns OFF automatic address detection is completed Using Automatic address detection command Step 1 Check that all of the slave modules are operating normally 2 Turn on automatic address detection command BFMZ27 b1 3 When the SET LED stays ON for a while and then flickers and t
87. nals cut off all phases of the power supply externally Failure to do so may cause electric shock 71 Before modifying or disrupting the program in operation or running the PLC carefully read through this manual and the associated manuals and ensure the safety of the operation An operation error may damage the machinery or cause accidents NCAUTION Do not disassemble or modify the PLC Doing so may cause fire equipment failures or malfunctions For repair contact your local Mitsubishi Electric representative Turn off the power to the PLC before connecting or disconnecting any extension cable Failure to do so may cause equipment failures or malfunctions 71 Turn off the power to the PLC before attaching or detaching the following devices Failure to do so may cause equipment failures or malfunctions Peripheral devices display module expansion boards and special adapters Input output extension units blocks FX Series terminal blocks and the special function units blocks Battery and memory cassette 5 DISPOSAL PRECAUTIONS your device Please contact a certified electronic waste disposal company for the environmentally safe recycling and disposal of 6 TRANSPORTATION AND STORAGE PRECAUTIONS NCAUTION FEE The PLC is a precision instrument During transportation avoid impacts larger than those specified in the general specifications of the PLC main unit manual by using dedicated packaging boxes and shock abs
88. ng installation and maintenance Hardware Edition FX3U 128ASL M User s Manual Associated Manuals Title of manual Document Description Moce number code Programming FX3S FX3G FX3GC FX3U Additional FX3UC Series Describes FX3S FX3G FX3GC FX3U FX3UC Series Programming Manual JY997D16601 PLC programming for basic applied instructions and O9R517 Manual i Basic amp Applied devices Instruction Edition Additional ees lapel Programming methods specifications functions etc Structured Programming SH 080782 g g diy S1C 43JWO06 Manual required to create structured programs Manual Fundamentals Additional FA OPY eee Devices parameters etc provided in structured Manu Programming Manual JY997D26001 projects of GX Works2 09R925 Device amp Common FX CPU Structured Additional Programming Manual Sequence instructions provided in structured projects Manual Basic amp Applied JY997D34701 of GX Works2 09R926 Instruction P FX CPU Structured fe ie Additional Programming Manual JY997D34801 Application functions provided in structured projects of 09R927 Manual eet GX Works2 Application Functions Explains the system configuration of GX Works2 and Additional NOT KS I the functions common to Simple project and Structured Operating Manual SH 080779ENG M C 13JU63 Manual project such as parameter setting operation method Common for the online function Additional OX Works Version
89. ng and the external power supply for communication are all right the hardware may have failed For repair contact your local Mitsubishi Electric representative OFF ON Automatic address detection in The automatic address detection is in progress progress PET Flicker Writing in the EEPROM Data is being written to the EEPROM i OFF Operating normally The system is operating normally The transmission cables DP DN may be disconnected or there may be no response from the slave module The slave module may have failed or the system configuration may have been changed after the automatic address detection Check error ID information in the buffer memory identify the disconnected area and perform the following Check that the transmission cables entire cables are free from disconnection Also check that the cables have been crimped with proper pin assignment using link connectors appropriate for the cross sectional area Check that the signal cables are properly connected to the terminal Qd block of the 128ASL M In addition check that there is no incorrect wiring and that screws are tightened sufficiently When creating a new system adding or removing a slave module or changing the address of the slave module perform the automatic address detection After the automatic address detection is performed check that the number of slave modules and the address ALM are consistent with those of the actual system Ifthe
90. ng the error flag clear command BFM 27 b0 from OFF to ON 8g 3 6unoousejqnoi QO Uoneuuolu UOISJOA 39 6 Introduction of Functions FX3U 128ASL M User s Manual 6 1 Functions List 6 Introduction of Functions 6 1 Functions List Name Description Reference Performs input and output of up to 128 points between the master module and the Subsection Bit transmission function slave modde 6 2 1 Reads the setting values from the slave module connected to the AnyWireASLINK Subsection Parameter reading function without delaying the bit transmission 6 2 2 Writes the setting values of the slave modules to all the slave modules connected to Subsection Parameter mung tneton the AnyWireASLINK without delaying the bit transmission 6 2 2 The 128ASL M detects and stores the ID number address of connected slave Ai agdicee deles hon modules when the SET switch on the front of the 128ASL M is pressed or when the or automatic address detection command output b1 of BFM 27 is set to ON Pod peaang Bre SEI GX Works2 automatically reads the information on slave modules PH oH Configuration 6 2 4 Transmission cable short Detects a short in DP DN cables Subsection detection function 6 2 5 PISCO EIG ee CIE Detects the location of DP DN cable disconnection SEBSECUOR location detection function 6 2 6 Transmission cable voltage drop Subsection dersctoniunsisn Monitors a voltage drop in the 24 V DC external
91. ngth of the AnyWireASLINK system meets the specification Refer fo UPSEERIN za Sa Check whether the power supply of the AnyWireASLINK system meets the specification Chapter 4 and Section 5 5 Ty 38 de T o Turn ON the power of the external power supply for the AnyWireASLINK system and ENS Refer to Section 5 6 the power of the main unit in this order cea ag EN BS Slave module address setting For a slave module that relies on the address writer o For a slave module equipped with DIP switch the address can be set even Refer to product guide before the power is turned ON However for a slave module that relies on the address for the slave module T writer the address can be set only after the power is turned ON manufactured by Anywire Turn OFF the power and turn it ON again so that the address setting for the slave Corporation module is reflected D 3 S Checking the operation based on LEDs Refer to Section 1 3 and Check whether the LEDs on the 128ASL M are as follows Section 9 1 8 POWER LED ON Refer to product guide ula e LINK LED Flicker for the slave module 39 Check whether the LEDs in the slave module are as follows manufactured by Anywire o 3 LINK LED Flicker Corporation Perform automatic address detection Refer to Subsection 6 2 3 Write the control program to the main unit Refer to Chapter 8 Operate the system 6unoousejqnoi QO UOISJOA End Uoneuuolu 29 4 Ins
92. nt consumption of each slave module Number of input points of the slave module number of output points of the slave module x 128 points e Disconnected transmission cable location detection function Transmission cable short detection function e Transmission cable voltage drop detection function UL isted general purpose 2 wire cable VCTF VCT 1 25 mm 0 75 mm rated temperature 70 C or higher e UL listed general purpose wire 1 25 mm 0 75 mm rated temperature 70 C or higher Dedicated flat cable 1 25 mm 0 75 mm rated temperature 90 es s UL listed general purpose 2 wire cable VCTF VCT 0 75 mm to 2 0 mm rated temperature 70 C or higher UL listed general purpose wire 0 75 mm to 2 0 mm rated temperature 70 C or higher Dedicated flat cable 1 25 mm 0 75 mm rated temperature 90 26 By FROM and TO instructions or direct specification of buffer memory FX3U FX3UC via the buffer memory 8 points taken from either the input or output points of the PLC One unit 1 Fordetails on the transmission distance refer to Section 2 2 2 Input points and output points are occupied from the number of remote I O points available in the system If the number of input points and output points surpasses the number of remote I O points available in the system input points are assigned first to remote I O points and then the output points are assigned to the remaining available remote I O points For th
93. onnect a 24 V DC external power supply to FX3U 128ASL M for the AnyWireASLINK system Make sure to observe the following precautions in order to prevent any damage to the machinery or accidents due to abnormal data written to the PLC under the influence of noise 1 Do not bundle the main circuit line together with or lay it close to the main circuit high voltage line or load line Otherwise noise disturbance and or surge induction are likely to take place As a guideline lay the control line at least 100mm 3 94 or more away from the main circuit or high voltage lines 2 Ground the shield wire or shield of the shielded cable at one point on the PLC However do not use common grounding with heavy electrical systems Place the cables in a duct or clamp them If not dangling cable may swing or inadvertently be pulled resulting in damage to the module or cables or malfunction due to poor contact When disconnecting the cable from the module do not pull the cable by the cable part For the cable connected to the terminal block loosen the terminal screw Pulling the cable connected to the module may result in malfunction or damage to the module or cable GHEE Safety Precautions EDS Read these precautions before use 4 STARTUP AND MAINTENANCE PRECAUTIONS NWARNING e Do not touch any terminal while the PLC s power is on Doing so may cause electric shock or malfunctions Before cleaning or retightening termi
94. ontact after module READY 3 BFM 0 Start number of input information area 3 E BFM 4096 Start number of output information area DES 6unoousejqno CO uoneuuolu UOISJOA 67 8 Program Examples FX3U 128ASL M User s Manual 8 1 Basic Program Example Program example M8000 FNC 78 Module C70 READY Timer contact after module MO M1 M3 M4 Module DP DN Transmission DP DN READY short cable voltage disconnection error drop error error READY TO SET M100 Timer contact after module Program READY starting contact M1 RST M100 DP DN short error Program M3 starting contact Transmission cable voltage drop error M4 DP DN disconnection error M100 Program FROM starting contact Input data Enter the user program here ic K4096 Ka Output access Program starting contact Output data 68 8 Program Examples FX3U 128ASL M User s Manual 8 2 Error Flag Clear Command Output Program Example 8 2 Error Flag Clear Command Output Program Example Program explanation This is an example of the sample program for clearing errors using the error flag clear command bO of BFM 27 Devices used by users Device Description MO Error clear execution condition M1 Error clear execution M2 Error flag clear reset DO Data access command BFM 27 save area TO Error flag clear execution waiting time 100 ms Program example MO FNC 78 FROM eje moe FNC 26 wae FNC 79 pete leet
95. orbing palettes Failure to do so may cause failures in the PLC After transportation verify operation of the PLC and check for damage of the mounting part etc 15 FX3U 128ASL M User s Manual FX3U 128ASL M User s Manual Manual revision DO 4 2015 Foreword This manual describes the FX3u 128ASL M AnyWireASLINK system master block and should be read and understood before attempting to install or operate the hardware Store this manual in a safe place so that you can take it out and read it whenever necessary Always forward it to the end user 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 2013 MITSUBISHI ELECTRIC CORPORATION FX3U 128ASL M User s Manual Outline Precautions This manual provides information for the use of the FX3U 128ASL M type AnyWireASLINK system master block The manual has been written to be used by trained and competent personnel The definition of such a person or persons is as follows Any engineer who is responsible for the planning design and construction of automatic equipment using the product associated with this manual should be of a competent nature trained and qualified to the local and national standards re
96. orce ami en adude le conan eeu LE DEERE EEN 18 ZA 2 Double Che eem T EE e E 20 2 4 3 Response delay TITIB o dion Faitbawsru ba chet n veer ds E ELLE LEE det quc sai ELLE EL rM au o acai anette ee aaaenuile 21 2 4 4 Connection of slave modules eei te ever ces eode SELER SELER eu usd sean fossa sated 23 3 System Configuration 24 9 1 General CornfigufatiOrnud oai Que iot eee abun dete ere oe aor iie Feet meter a ufi e alien ee Deep actu dont tsua E fais ME 24 ona AN 0 8 1 872 0 al dB PDC 25 3 9 Se ala 16 e RR da l PEC RE Ue 25 3 4 About allocation of system wide remote l O sesssssssssesseeeeenn nennen 26 3 5 Number of transmission points setting c ce eccecseeeeeeeeeeeeeeeeeeeeeeeeeeseeeesaeeeeeeeeeeesaeneeesaaneeesasaees 27 3 6 Automatic address Cetection ccccccccccscccseeccececeueeceeecueeceueecsueeceeeeeaeecaeesseeseueeseeesueessneseseeesses 28 3 7 Start up procedure of the system sssssssssnuuenuee stk tt kk E ERE nennen nnn nn REE inn sn nnns nass nna nnn 29 4 Installation 30 AT DIN All PMOUMAUIIA Oh o corned sedet aat oct ctsnenef aa toadidcutds ees tontos ein tid ts A A 31 2 Hy aah B11 18 81a 1610 nuin s RENE REOR CREME 32 5 Wiring Power ON OFF Timing 33 5 1 AnyWireASLINK connection terminal block cccccccccseeeeeceeeeeeeeeeeeesaeeeeesaeeeeesaaeeeesaeeeeesaaeeeesaaes 34 S2 MAID LOUIS TN ewm TNR 34 S3 VVINING pre CAUll
97. ory cassette lt OG T alag TO 38 5 Q o suoroun J Jo uononpoau weibolg OO Aow n yng N mi gt lt amp 3 Ier D n 71 9 Troubleshooting FX3U 128ASL M User s Manual 9 1 LED Diagnosis of 128ASL M 9 1 LED Diagnosis of 128ASL M ARE is being supplied from the Ths powerauppbzisiormat e Correctly connect the extension cable Check that there is no disconnection or poor contact in the extension cable POWER Unit error or 5 V DC is not being dide SUPPY ine power oPvie cus When the service power supply of the PLC main units used make supplied from the PLC ups sure that the supply capacity is not exceeded LED display When both the connection status and the PLC main unit are all right the hardware may have failed For repair contact your local Mitsubishi Electric representative Check the wiring in the AnyWireASLINK system e Properly supply the external power for communication Unit error When both the wiring and the external power supply for communication are all right the hardware may have failed For repair contact your local Mitsubishi Electric representative Flicker Operating normally Communication is normal Check the wiring in the AnyWireASLINK system ON OFF ON LINK e Properly supply the external power for communication e Correctly connect the extension cable OFF Unit error or 5 V DC power OFF e Properly supply the power of the PLC When both the wiri
98. owing safety circuits outside of the PLC to ensure safe system operation even during external power supply problems or PLC failure Otherwise malfunctions may cause serious accidents 1 Most importantly have the following an emergency stop circuit a protection circuit an interlock circuit for opposite movements such as normal vs reverse rotation and an interlock circuit to prevent damage to the equipment at the upper and lower positioning limits 2 Note that when the PLC CPU detects an error such as a watchdog timer error during self diagnosis all outputs are turned off Also when an error that cannot be detected by the PLC CPU occurs in an input output control block output control may be disabled External circuits and mechanisms should be designed to ensure safe machinery operation in such a case DESIGN PRECAUTIONS NC AUTION uoneoyioedg waisig QJ uoneJn6iuo uonejejsu x Configure safety circuits such as an emergency stop circuit and interlock circuit external to the AnyWireASLINK system 5 Install module so that excessive force will not be applied to the terminal blocks oz Failure to do so may result in wire damage breakage or PLC failure lt When executing control data changes to an operating PLC construct an interlock circuit in the sequence program so that the entire me system operates conservatively Additionally when executing control such as program changes and operation status changes
99. power supply 627 pometer access erencetecton The 128ASL M detects parameter access errors Sara function 6 2 8 i Checks whether the same ID is used for multiple slave modules The LEDs of the Subsection Same ID used detection function relevant slave modules are forcibly turned ON 6 2 9 Module with no ID setting i Subsection detection tanetion Detects modules with no ID assigned default ID 6 2 10 6 2 Details of functions 6 2 1 Bit transmission function Performs input and output of up to 128 points between the master module and the slave module The power supply for load corresponding to 24 V DC 2 A maximum is superimposed on the transmission signal so that the signal is transferred to the slave module and rectified by the slave module and powers the slave module circuit and the load connected to the slave module The 128ASL M performs double check and check sum as the error control method By double check the 128ASL M does not update the data in the input area until it receives same input data twice consecutively so that noise errors and other transmission errors can be avoided For the output data the output slave module performs double check and check sum in the same way 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 6 2 2 Parameter reading writing function 5 o 1 Summary of functions S In the AnyWireASLINK system parameters in addition to I O information are s
100. pply is superimposed on the signal wire in the AnyWireASLINK system General purpose wire VCTF cable and flat cable etc can be used Use stranded wires instead of single core wires 34 5 Wiring Power ON OFF Timing FX3U 128ASL M User s Manual 5 4 Power supply and grounding wiring 5 4 Power supply and grounding wiring 3 5 4 1 Power supply and grounding wiring Stabilized Stabilized 2 power supp E power supply 2 24 V DC y a IF 24 V DC 4 FX3uc 1PS 5V E g Grounding Grounding Grou nding sod FX3G FX3U PLC ue a Manun Main unit T uoneinByuoy 5 4 2 Grounding 3 ee m D o z Ground the PLC as stated below Perform class D grounding Grounding resistance 100 or less e Ground the PLC independently if possible If it cannot be grounded independently ground it jointly as shown below 2z For details refer to the Hardware Edition manual of the connected PLC QE U TO ERST Other O O Independent grounding Shared grounding Common grounding Best condition Good condition Not allowed o suoroun J Jo uononpoau Position the grounding point as close to the PLC 128ASL M as possible to decrease the length of the ground wire uejug OO Aiowayjseyng N so duex3 6unoousejqnoi QO Uoneuuolu UOISJOA 35 5 Wiring Power ON OFF Timing FX3U 128ASL M User s Manual 5 5 Power supply details to the AnyWireASLINK system 5 5 Power supply
101. product where major accidents or losses could occur if the product fails install appropriate backup or failsafe functions into the system When combining this product with other products please confirm the standards and codes of regulation to which the user should follow Moreover please confirm the compatibility of this product with the system machines and apparatuses to be used If there is doubt at any stage during installation of the product always consult a professional electrical engineer who is qualified and trained in the local and national standards If there is doubt about the operation or use please consult your local Mitsubishi Electric representative Since the examples within this manual technical bulletin catalog etc are used as reference please use it after confirming the function and safety of the equipment and system Mitsubishi Electric will not accept responsibility for actual use of the product based on these illustrative examples The content specification etc of this manual may be changed for improvement without notice The information in this manual has been carefully checked and is believed to be accurate however if you notice any doubtful point error etc please contact your local Mitsubishi Electric representative Registration Anywire and ANYWIREASLINK is a trademark of Anywire Corporation The company name and the product name to be described in this manual are the registered trademarks or trademarks
102. py remote I O not available at the same time e FX2N 16CCL M e FX2N 32ASI M Example of calculating I O when the FX3u 128ASL M and FX3u 16CCL M are used at the same time When the main unit is FX3U the FX3U 16CCL M is connected to the near 1 side and the FX3u 128ASL M is connected to the far 2 side If the number of I O occupied points on the main unit side is 160 points including 8 input output points occupied by the FX3U 16CCL M FX3u 128ASL M and the number of remote I O points on the FX3u 16CCL M is 128 points 384 160 128 96 points Remote I O slave module corresponding to 96 points can be connected to the FX3u 128ASL M 26 3 System Configuration FX3U 128ASL M User s Manual 3 5 Number of transmission points setting 1 e When the main unit is FX3G the FX3u 128ASL M is connected to the near 1 side and the FX3u 16CCL 5 M is connected to the far 2 side E If the number of I O occupied points on the main unit side is 112 points including 8 input output points occupied by the FX3u 16CCL M FX3U 128ASL M and the number of remote I O points slave module on J the FX3U 128ASL M is 80 points 128 80 48 points 2 Remote I O corresponding to 48 points can be assigned in the FX3U 16CCL M a Actually 32 points for 1 station can be assigned E 3 5 Number of transmission points setting The 128ASL M requests the main unit for the number of transmission points number of I O occupie
103. quired 0 6 mm 3 5 mm Before removing the AnyWireASLINK connection terminal block check that the fixing screws on both sides are completely loosened removed from the socket Pulling with excessive force while the fixing screws of both ends are still tightened may damage the device Before tightening check that there are no short circuits due to disconnected or frayed wires Then tighten the screws at both sides securely Tightening torque 0 5 Nem to 0 6 Nem 5 2 Cable treatment Bare cables can be connected to the AnyWireASLINK connection terminal block however for safety reasons it is recommended to connect the crimped bar terminals Use UL listed solderless terminals and for processing use a tool recommended by their manufacturer Recommended bar terminals Phoenix Contact Co Ltd Electric wire size EIC IG Wire recommended bar terminals model name Phoenix Contact Co Ltd connected number 1 25 mm 5 3 Wiring precautions e Do not run multiple transmission cables DP DN using a multicore cable gt 4 DN DP DN The voltage should not fall below the lower limit of the allowable voltage range due to voltage drop caused by the cable If the voltage falls below the lower limit malfunctions may occur Do not connect soldered cables directly to the terminals Doing so may loosen the screws resulting in a poor contact tis recommended to use a 1 25 mm lead wire for the main line because the power su
104. quired to fulfill that role These engineers should be fully aware of all aspects of safety with aspects regarding to automated equipment Any commissioning or maintenance engineer must be of a competent nature trained and qualified to the local and national standards required to fulfill the job These engineers should also be trained in the use and maintenance of the completed product This includes being familiar with all associated manuals and documentation for the product All maintenance should be carried out in accordance with established safety practices All operators of the completed equipment should be trained to use that product in a safe and coordinated manner in compliance with established safety practices The operators should also be familiar with documentation that is connected with the actual operation of the completed equipment Note the term completed equipment refers to a third party constructed device that contains or uses the product associated with this manual This product has been manufactured as a general purpose part for general industries and has not been designed or manufactured to be incorporated in a device or system used in purposes related to human life Before using the product for special purposes such as nuclear power electric power aerospace medicine or passenger movement vehicles consult with Mitsubishi Electric This product has been manufactured under strict quality control However when installing the
105. r information of each slave module are not held For details on the automatic address detection refer to the Subsection 6 2 3 28 3 System Configuration FX3U 128ASL M User s Manual 3 7 Start up procedure of the system 3 Start up procedure of the system zi Start up the AnyWireASLINK system using the following procedure o Attach the 128ASL M slave modules and others to the control panel or machine Refer to Chapter 4 a Q 2 ej Wire the 128ASL M slave modules and power supply and connect the terminating unit at the end farthest from the 128ASL M Refer to Chapter 5 On oOx Set Ne number of transmission points ok the 128 ASESM using the rotary switches Refer to Section 3 5 2 in accordance with the number of input output points of slave modules a Slave module address setting For a slave module equipped with DIP switch Refer to product guide For a slave module equipped with DIP switch the address can be set even for the slave module before the power is turned ON However for a slave module that relies on the manufactured by Anywire address writer the address can be set only after the power is turned ON Corporation uogejjgsu xm Check before turning ON the power Check the attachment status of the 128ASL M slave modules and power supply REISTIO INE HATENA Fation 5 Check whether the RUN STOP switch of the main unit is set to STOP MANNA OLEAN en urn og Check whether the total le
106. r points Uoneuuolu i E Transfer source 53 7 Buffer Memory FX3U 128ASL M User s Manual 7 2 Buffer Memory List 7 2 Buffer Memory List The table below provides a brief description and reference information for the 128ASL M buffer memory BFM No For details on the buffer memory refer to the Section 7 3 or later Default z Content Setting range 3 Reference decimal nere gt g decimal decimal 0 to 7 8 to 26 27 28 29 30 31 32 33 34 35 36 to 4095 4096 to 4103 4104 to 8191 8192 8193 to 8320 8321 to 8959 8960 8961 to 9215 9216 9217 to 9344 9345 to 9983 0000H The ON OFF status of the input signal of the Subsection to Input information area slave module is stored 734 0007H Address 0 to 127 16bit x 8 128bit 0008H to Not used 001AH sao4BH Data dccasseommand Various data access commands prre oer the me nw EG unit to prre oer 128ASL M are stored T 3 2 001CH Status information The status information of the 128ASL M EN stored 7 3 3 001DH The error code of the 128ASL M is stored ho m 001EH Model code The model code of the 128ASL M is stored ee 7550 E 001FH FH Notused used Sel eie scs MERE input points setting The number as ee input points set by the ux 0020H value switch is stored Subsection Number output points The number of output points set
107. rage area BFM 10257 is cleared 46 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions 6 2 6 Disconnected transmission cable location detection function 3 O 1 Outline S This function makes the 128ASL M send a response request to the ID address registered by the automatic address detection during bit transmission and judges that the transmission cable is disconnected if the slave module does not respond to the response request 2 2 Description a When transmission cable disconnection is detected the ALM LED turns ON 1 DP DN disconnection error BFM 28 b4 turns ON 9 The error code K202 is stored in the latest error code storage area BFM 29 E The number of error IDs is stored in the number of error IDs BFM 8192 The disconnected ID address of the slave module is stored in error ID information storage area BFM 8193 to BFM 8320 The disconnected ID address is stored in the latest error ID storage area BFM 10257 The bit transmission is not stopped wasis OO 1 uoneJn6iuo 1 If multiple errors occur simultaneously the error with the highest priority is displayed and stored 3 How to recover from the transmission cable disconnection status How to recover from the transmission cable disconnection status is as follows a Clear the disconnection status in the AnyWireASLINK system When the connection is repaired the following will occur The bit tr
108. rcuit to prevent damage to the equipment at the upper and lower positioning limits 2 Note that when the PLC CPU detects an error such as a watchdog timer error during self diagnosis all outputs are turned off Also when an error that cannot be detected by the PLC CPU occurs in an input output control block output control may be disabled External circuits and mechanisms should be designed to ensure safe machinery operation in such a case Configure safety circuits such as an emergency stop circuit and interlock circuit external to the AnyWireASLINK system e Install module so that excessive force will not be applied to the terminal blocks Failure to do so may result in wire damage breakage or PLC failure 15 When executing control data changes to an operating PLC construct an interlock circuit in the sequence program so that the entire system operates conservatively Additionally when executing control such as program changes and operation status changes status control to an operating PLC thoroughly read the manual and sufficiently confirm safety in advance 2 INSTALLATION PRECAUTIONS Make sure to cut off all phases of the power supply externally before attempting installation work 30 Failure to do so may cause electric shock GHEE Safety Precautions ED Read these precautions before use Use the product within the generic environment specifications described in PLC main unit manual Hardware E
109. response time Input data change Input data update Sampling timing Sampling timing Sampling timing Single sample Maxi E EF aximum two transmission mee V IE em Sam response time Input data change Input data update Output As double check is performed on the output slave module side the time required to sample once is the same as that for input namely one transmission cycle time in the best case and two transmission cycle times in the worst case Thus signals of two transmission cycle times or less may not be sampled twice depending on the timing Therefore to ensure response provide an input signal that is longer than two transmission cycle times 20 2 Specification FX3U 128ASL M User s Manual 2 4 Communication Specifications 2 4 3 Response delay time The following shows the response delay time of input and output 5 a Ss o Q Q z o 1 Input response delay time The figure below shows the time between a signal input to the slave module and the main unit device turning ON OFF Input Slave module i 1 Input response time on the slave module 2 Processing time on the slave module uoneoyinoads wasis OO C o AnyWireASLINK 3 Transmission time E system Transmission cycle time x 2 4 Processing time on the 128ASL M PLC 5 Processing time on the PLC Sequence scan time uonejejsu x Calculation formula Inpu
110. s BFM 9985 to BFM 10112 1 If multiple errors occur simultaneously the latest error is displayed 3 How to recover from the No ID set status Check Number of alarm IDs BFM 9984 and alarm ID information storage area BFM 9985 to BFM 10112 Then set a unique ID address in all the slave modules Error status is reset by executing automatic address detection in the 128ASL M after setting the IDs addresses in the slave modules Point Error status is reset by powering OFF the AnyWireASLINK system or by turning ON error flag clear command BFM 27 b0 However the slave module addresses remain unset 52 7 Buffer Memory FX3U 128ASL M User s Manual 7 1 How to Read Write from to Buffer Memory T Buffer Memory j The 128ASL M I O information various set data and error information are read written from to the PLC via 2 the buffer memory BFM When the 128ASL M power supply is OFF the buffer memory data is cleared and initial values are written when the power supply is turned ON g 7 1 How to Read Write from to Buffer Memory To read write from to buffer memory in the 128ASL M use the FROM TO instructions or applied instructions 3 that directly specify the buffer memory For details on the other methods refer to the Programming manual SP 7 4 1 Direct specification of buffer memory 23 When directly specifying the buffer memory specify the following device in the source or destination area of i the applied ins
111. s refer to Section 1 2 Connect the extension cable Connect the extension cable to the main unit I O extension unit block or special function unit block on the left side of the product Refer to Step 3 in Section 4 1 For information on the extension cable connection procedure refer to the Hardware Edition manual of the connected PLC e Example of direct installation 1 to 2 mm 1 to 2mm 0 04 to 0 08 0 04 to 0 08 IK mee Other extension equipment L shows the M4 screw FX3U Series main unit 32 5 Wiring Power ON OFF Timing FX3U 128ASL M User s Manual 5 Wiring Power ON OFF Timing j 2 WIRING PRECAUTIONS N WARN ING E Make sure to cut off all phases of the power supply externally before attempting wiring work S Failure to do so may cause electric shock or damage to the product WIRING PRECAUTIONS NC AUTION Connect the DC power supply wiring to the dedicated terminals described in this manual If an AC power supply is connected to a DC input output terminal or DC power supply terminal the PLC will burn out Make sure to attach the top cover offered as an accessory before turning on the power or initiating operation after installation or wiring work Failure to do so may cause electric shock When drilling screw holes or wiring make sure that cutting and wiring debris do not enter the ventilation slits Failure to do so may cause fire equipment f
112. s 126 ID 027EH o Buffer memory start address for ASLINK parameters of the input a prin ee BCE slave module at the address 127 ID 027FH 56 Se e Example 2 When the automatic address detection detects an input slave module at address 0 an output slave module at address 10 and an output slave module at address 100 the start number of the buffer memory area for parameters of each slave module is set as listed in the table below W BFM No T i hexa Stores data Description decimal r decimal 3 lt Buffer memory start address for ASLINK parameters of the output 1 M Rad 12288 slave module at the address 10 ID 000AH 8 Buffer memory start address for ASLINK parameters of the output fone Ji REIGAN 1090 slave module at the address 100 ID 0064H m 3 je Buffer memory start address for ASLINK parameters of the input 25 iiL M E 12989 slave module at the address 0 ID 0200H p3 1 When 12288 has been stored at the buffer memory address 10506 it can be known that parameters of the output slave module at the address 10 have been stored at the buffer memory addresses 12288 to 12335 3000H to 302FH Point For the parameter storage location memory number of a non existing ID 0 is stored gt 6unooysajgnos CO Uoneuuolu UOISJOA 63 FX3U 128ASL M User s Manual 7 Buffer Memory 7 3 Details of buffer memory 7 3 20 BFM 12288 to 18431 Parameter storage areas BFM No
113. s command parameter batch read command parameter batch write command and automatic address detection cannot be executed Upon parameter batch read or parameter batch write the values stored in parameter access method setting BFM 10320 and parameter access target module ID specification BFM 10321 are ignored 3 Parameter access timing The parameter access timing is as follows Executed by the 128ASL M XL Eee gt Executed in the program Parameter access request command for the slave module 1 6 BFM 27 b8 ON Parameter batch read command for the slave module BFM 27 b9 OFF Parameter batch write command for the slave module Fe BFM 27 b10 ON 2 3 Parameter access completion flag BFM 28 b9 Parameter access in progress OFF po 4 Slave module alarm signal BFM 28 b8 ON Parameter access error BFM 28 b10 OFF ON Error flag clear command BFM 27 bO 5 OFF No Description Turn ON any of the signals below via program to start parameter access 1 e Parameter access request command for the slave module BFM 27 b8 Parameter batch read command for the slave module BFM 27 b9 e Parameter batch write command for the slave module BFM 27 b10 2 The operation in 1 turns OFF parameter access completion flag BFM 28 b9 3 When parameter access read write is completed parameter access completion flag BFM 28 b9 automatically turns ON If parameter access has an error either of the following
114. s discontinued 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 Exclusion of loss in opportunity 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 or third person 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 Changes in product specifications The specifications given in the catalogs manuals or technical documents are subject to change without prior notice Product application 1 In using the Mitsubishi MELSEC programmable logic controller the usage conditions shall be that the application will not lead to a major accident even if any problem or fault should occur in the programmable logic controller device and that backup and fail safe functions are systematically provided outside of the device for any problem or fault 2 The Mitsubishi programmable logic controller has been designed and manufactured for applications in general industries etc Thus
115. t 6 Not used b4 b6 to 15 12327 n x 48 Status details n O to 127 40th of 48 words 12328 n x 48 Sensing level n O to 127 41th of 48 words The analog value of the connected ON OFF sensor is displayed from O to 100 decimal 66 8 Program Examples FX3U 128ASL M User s Manual 8 1 Basic Program Example 1 8 Program Examples S 2 8 1 Basic Program Example g System configuration wasis OO I Tel AnyWireASLINK terminating unit uoneinByuoy O LED1 O LED2 Output ASLINKER address 0 amp Sensor switch 1 Sensor switch 2 uonejejsu x Input ASLINKER address 0 9 Program explanation oz The input signals of the input ASLINKER stored in input information area BFM O0 to 3 of the 128ASL M are S3 batch transferred to the device data of the main unit Ty Moreover the device data of the main unit is batch transferred to output information area BFM 4096 to 32 4099 of the 128ASL M and the output signals of the output ASLINKER are transmitted o Set the number of transmission points Input rotary switch 7 64 points 15 Output rotary switch 7 64 points 22 as Devices used by users a Device Description MO Module READY T M1 DP DN short error w M3 Transmission cable voltage drop error d M4 DP DN disconnection error 3 M2000 to M2127 Input data E M3000 to M3127 Output data M100 Program starting contact TO Timer c
116. t response delay time 1 Input response time on the slave module 2 Processing time on the slave module 5 3 Transmission cycle time x 2 4 Processing time on the 128ASL M oz 5 Sequence scan time lt 2 TO Refer to the manual for the slave module connected to the system or the device connected to the slave module 2 Processing time on the slave module 1 ms maximum common to all AnyWireASLINK slave modules 1 Input response time on the slave module o as Transmission cycle time x 2 3 S 3 Transmission time Maximum delay time The transmission cycle time differs depending on the transmission I O points ej setting i o 4 Processing time on the 128ASL M 0 6 ms 9 5 Processing time on the PLC Sequence scan time 7 CU c s D 3 o lt un E 3 o 6unoousejqnoi QO uoneuuolu UOISJOA 21 2 Specification FX3U 128ASL M User s Manual 2 4 Communication Specifications 2 3 Output response delay time The figure below shows the time between the PLC main unit device turning ON OFF and a signal output from the slave module turning ON OFF Slave module i 5 Output response time on the slave module 4 Processing time on the slave module AnyWireASLINK system 2 Processing time on the 128ASL M 1 Processing time on the PLC Sequence scan time Calculation formula Output response delay time 1 Sequence scan time 2 Processing time on t
117. tallation FX3U 128ASL M User s Manual 4 Installation INSTALLATION PRECAUTIONS NWARNING Make sure to cut off all phases of the power supply externally before attempting installation work Failure to do so may cause electric shock INSTALLATION PRECAUTIONS NC AUTION Use the product within the generic environment specifications described in PLC main unit manual Hardware Edition Never use the product in areas with excessive dust oily smoke conductive dusts corrosive gas salt air CI2 H2S SO2 or NO2 flammable gas vibration or impacts or expose it to high temperature condensation or rain and wind If the product is used in such conditions electric shock fire malfunctions deterioration or damage may occur Do not touch the conductive parts of the product directly Doing so may cause device failures or malfunctions e Install the product securely using a DIN rail or mounting screws Install the product on a flat surface If the mounting surface is rough undue force will be applied to the PC board thereby causing nonconformities When drilling screw holes or wiring make sure that cutting and wiring debris do not enter the ventilation slits Failure to do so may cause fire equipment failures or malfunctions Besure to remove the dust proof sheet from the PLC s ventilation slits when installation work is completed Failure to do so may cause fire equipment failures or malfunctions Make sure to attach the
118. tatus b When the error status is reset the following automatically occurs Error code Status hexa i decimal decimal information BFM 28 300 012CH Slave module hardware 301 012DH error 302 012EH Parameter access target module ID error The ON or b10 is 304 0130H Parameter access error held 305 0131H Slave module status error 400 0190H Same ID used error 401 0191H No ID setting error Error code decimal hexa Latest error ID storage area Parameter storage areas decimal BFM 10257 BFM 12288 to BFM 18432 No change No effect The error indication is not held The indication and various error flags are cleared by the error flag clear command output but the parameter No change communication is not recovered The parameter communication to error IDs is stopped until the power is reset or until the automatic address detection is performed remove factors causing errors and then power OFF the 300 301 302 303 304 305 400 401 012CH 012DH 012EH nee The error ID or K4095 is 0130H held If a new error occurs the old 0131H error is overwritten by the 0190H latest error in accordance with the priority 0191H c For resetting the error status Status of each part upon an error Number of the alarm IDs BFM 9984 Alarm ID information storage areas BFM 9985 to BFM 10112 Number of the error IDs BFM 8192 Error ID information storage areas BFM 8193
119. that there is no influence from noise The slave module has notified of error status s Pd Slave MOdUS SaS Bmpr Check the target module s status details and solve the problem The same address ID has been set to some of the connected slave modules 400 0190H Same ID used error Use Number of alarm IDs BFM 9984 and alarm ID information storage 6 The slave module has detected a parameter write value that cannot be set to the slave module itself 303 0 Use Number of alarm IDs BFM 9984 and alarm ID information storage 6 uonejejsu x areas BFM 9985 to BFM 10112 to identify the error ID Check the address ID of the slave module then set a unique number 5 There is a slave module with no address setting Perform the following oz 401 0191H No ID setting error Setthe address of the slave module 6 Sa e Set the address of the slave module to a value other than 255 Hy TO 38 2 o suoroun J Jo uononpoau welbolg OO amp ouejjeung N ITI Pel Co ES el D o 75 9 Troubleshooting FX3U 128ASL M User s Manual 9 3 Diagnostics on the PLC Main Unit 9 3 Diagnostics on the PLC Main Unit The following describes some of the PLC errors from the LED lights ON the PLC For details related to the PLC main unit wiring special auxiliary relays and special data registers refer to the Hardware Edition manual of the connected PLC 9 3 1 POWER POW LED ON Flicker OFF The table below descri
120. the current consumption of all the slave modules does not exceed the transmission cable supply current of the 128ASL M The transmission cables DP DN may be disconnected or there may be no response from the slave module The slave module may have failed or the system configuration may have been changed after the automatic address detection Check error ID information in the buffer memory identify the disconnected area and perform the following Check that the transmission cables entire cables are free from disconnection Also check that the cables have been crimped with proper pin assignment using link connectors appropriate for the cross sectional area Check that the signal cables are properly connected to the terminal block of the 128ASL M In addition check that there is no incorrect wiring and that screws are tightened sufficiently When creating a new system adding or removing a slave module or changing the address of the slave module perform the automatic address detection After the automatic address detection is performed check that the number of slave modules and the address are consistent with those of the actual system If the LINK LED of the slave module does not flash check that there is no disconnection short circuit incorrect wiring or poor contact in the transmission cables DP DN around the module 202 OOCAH DP DN disconnection error A malfunction has been detected in the slave module hardware Che
121. this manual and all of the associated manuals Also take care to handle the module properly and safely This manual classifies the safety precautions into two categories and A CAUTION NWARN NG Indicates that incorrect handling may cause hazardous conditions resulting in death or severe injury Indicates that incorrect handling may cause hazardous conditions resulting in medium or slight CAU T O N personal injury or physical damage Depending on the circumstances procedures indicated by may also cause severe injury It is important to follow all precautions for personal safety Store this manual in a safe place so that it can be taken out and read whenever necessary Always forward it to the end user 1 DESIGN PRECAUTIONS An AnyWireASLINK system has no control function for ensuring safety When a communication failure occurs in the network data in the master block are held Check the communication status information and configure an interlock circuit in the sequence program to ensure that the entire system will operate safely Make sure to have the following safety circuits outside of the PLC to ensure safe system operation even during external power supply problems or PLC failure Otherwise malfunctions may cause serious accidents 15 1 Most importantly have the following an emergency stop circuit a protection circuit an interlock circuit for opposite movements such as normal vs reverse rotation and an interlock ci
122. top cover offered as an accessory before turning on the power or initiating operation after installation or wiring work Failure to do so may cause electric shock Connect extension cables securely to their designated connectors Loose connections may cause malfunctions Only one 128ASL M can be connected to the right side of the main unit extension unit or extension block To connect to an FX3cc FX3uc PLC or FX2Nc PLC extension block the FX2NC CNV IF or FX3uc 1PS 5V is necessary For installation method to PLCs refer to the Hardware Edition manual of the connected PLC The 128ASL M may be installed in a control cabinet with a 35 mm wide DIN46277 DIN rail mounting or M4 screw direct mounting 30 FX3U 128ASL M User s Manual 4 Installation 4 1 DIN rail mounting 4 1 DIN rail mounting The product may be mounted on a 35 mm wide DIN46277 DIN rail Fit the upper edge A in the figure to the right of the DIN rail mounting groove onto the DIN rail Push the product onto the DIN rail An interval space of 1 to 2 mm 0 04 to 0 08 between each unit is necessary Connect the extension cable Connect the extension cable B in the figure to the right to the main unit I O extension unit block or special function unit block on the left side of the product For information on the extension cable connection procedure refer to the Hardware Edition manual of the connected PLC e Example of installation on DI
123. truction as follows 4 U L C Ll is substituted with a number 3i Unit No 0 to 7 el La Buffer memory No 0 to 32766 x 1 Reading out BFM data to PLC MOV instruction i If the following program is created 1 point of data will be read out from the buffer memory BFM 30 of unit No 1 to data register D10 5 Read command oz FNC 12 Z3 mee rS fees oe H Ag Unit No e 1 38 Buffer memory No Transfer result 2 Writing PLC data into BFM MOV instruction 6 If the following program is created 1 point of data K4000 will be written to buffer memory BFM 0 of unit No 1 S Write command E FNC 12 Be mem EE eem us H Lo Buffer memory No Transfer source Unit No D k 7 1 2 FROM TO instructions 3 1 FROM instruction Reading out BFM data to PLC Use the FROM instruction to read the data from the buffer memory 8 If the following program is created 1 point of data will be read out from the buffer memory BFM 30 of unit No 1 to data register D10 Dy 343 FE Read command FNC 78 E FROM Unit No Number of transfer points Buffer memory No Transfer destination 2 TO instruction Writing PLC data into BFM Use the TO instruction to write data to the buffer memory If the following program is created 1 point of data K4000 will be written to buffer memory BFM 0 of unit No 1 rite command FNC 79 Se em e Unit No Buffer memory No i I gt 6unooysajgnos CO UOISJOA Number of transfe
124. tting D8000 in the program so that the setting is larger than the maximum value of the scan time D8012 2 Remove the PLC and supply the power to it from another power source If the ERROR ERR LED goes out noise may have affected the PLC Adopt the following measures Check the ground wiring and re examine the wiring route and installation location Fit a noise filter onto the power supply line 3 Ifthe ERROR ERR LED does not go out even after measures in 1 and 2 are adopted consult your local Mitsubishi Electric representative wasis QJ uoneJn6iuo uonejejsu x One of the following errors has occurred on the PLC 5 Flicker e Parameter error Perform PLC diagnosis and program check with the programming tool Syntax error Se Ladder error Og If the operations of the PLC are abnormal perform PLC diagnosis and ig 3 OFF No errors to stop the PLC have occurred plod ain cies Wiis programming tooi 2 n An I O error parallel link communication error or operation error may have occurred o 9 4 Diagnostics by GX Works2 suoroun J Jo uononpoau Some functions of GX Works2 are available to check the status of the 128ASL M status of slave modules and others For details of GX Works2 operation refer to the following manual GX Works2 Version 1 Operating Manual Common GX Works2 Version 1 Operating Manual Intelligent Function Module welbolg OO amp ouejjeung N ITI Pel Co ES el
125. ual Reading the Manual Shows the manual title Shows the title of the chapter and the title Indexes the chapter number Til areashows ihe of the section The right side of each page manual title for the current This area shows the title of the chapter and the indexes the chapter number page title of the section for the current page for the page currently opened mei 56 S SS gt emo A A A A A A I l 1 Introduction L FX3U 128ASL M User s Manual J 1 2 External Dimensions and Part Names J 1 2 External Dimensions and Part Names uononpoau Without top cover EXs 128ASL M 80 3 15 mounting hole pitch uopeogoedg N9 95 5 3 76 wasis OO Unit mm inches MASS Weight Approx 0 2 kg 0 44 Ibs uonesnbyuo 1 Extension cable 7 DIN rail mounting hook 2 Direct mounting hole 8 SET switch 4 2 holes of 4 5 0 18 Automatic address setting switch xm mounting screw M4 screw 9 Transmission points number setting switch B 3 Power LED green Rotary switch m o 4 Status LEDs green red 10 Extension connector gt Refer to Section 1 3 44 AnyWireASLINK cganestionienainakblosk 5 Nameplate L gt Refer to Section 1 4 6 DIN rail mounting groove DIN rai DINA6277 1 1 9 ee ee ee e nm 5 35 mm 1 38 width oz oz e 2 LI m 2 1 3 Indications of LEDs as
126. uit or high voltage lines mi 2 Ground the shield wire or shield of the shielded cable at one point on the PLC However do not use common grounding with a S heavy electrical systems o S Place the cables in a duct or clamp them c If not dangling cable may swing or inadvertently be pulled resulting in damage to the module or cables or malfunction due to poor 9 contact When disconnecting the cable from the module do not pull the cable by the cable part 7 For the cable connected to the terminal block loosen the terminal screw Pulling the cable connected to the module may result in malfunction or damage to the module or cable w T S For the wiring of the AnyWireASLINK system refer to the AnyWireASLINK Series Technical Manual 3 prepared by AnyWire g3 D 3 gt 6unooysajgnos CO Uoneuuolu UOISJOA 33 5 Wiring Power ON OFF Timing FX3U 128ASL M User s Manual 5 1 AnyWireASLINK connection terminal block 5 1 AnyWireASLINK connection terminal block For details on the terminal block layout refer to Section 1 4 Item Description Model name MSTB2 5 5 STF 5 08AU Phoenix Contact Co Ltd Electric wire size 0 2 to 2 5 mm AWG 24 to 12 0 5 to 0 6 Nem It is common also on the connector fixing screw Tightening torque sai g SV and the transmission cable connection screw To tighten the terminal block a flathead screwdriver having a tip size of 0 6 x 3 5 mm as shown in the figure below is re
127. umber of points occupied by special function blocks does not exceed the maximum number of I O points of the PLC For information on the maximum number of I O points of the PLC refer to the Hardware Edition manual e The 128ASL M cannot be used at the same time with the FX2N 16CCL M and or FX2N 32ASI M The FX3U 16CCL M can be used at the same time when CC Link parameters are set using network parameters of GX Works2 For details refer to the Section 3 4 6unoousejqnoi QO uoneuuolu UOISJOA 25 3 System Configuration FX3U 128ASL M User s Manual 3 4 About allocation of system wide remote I O 3 4 About allocation of system wide remote I O Number of input output points on PXSu FXsuc PEGE Up to 384 points a i a ae aa m e ro im whole system FX3G FX3Gc PLC Up to 256 points 1 1 Number of input output points FX3U FX3uc PLC Up to 256 points including input output occupied points FX3G FX3G6c PLC Up to 128 points The network master which The network master which The network master which occupies remote I O occupies remote I O occupies remote I O CC Link LT FX3U 16CCL M FX3U 16CCL M FX3u 16CCL M master FX3U 128BTY M FX3U 128BTY M FX3U 128BTY M Expansion board Input output Special Special Main unit extension function adapter unit block block FX3U 128ASL M FX3U 128ASL M FX3U 128ASL M CC Link LT l NENNEN H When using two or more network masters which occupy remote I O available at the
128. urns OFF the ID address has been stored 4 When automatic address detection flag BFM 28 b11 turns OFF automatic address detection is completed 44 6 Introduction of Functions FX3U 128ASL M User s Manual 6 2 Details of functions Automatic address detection timing 5 o gt Executed by the 128ASL M LL gt Executed in the program S Turn on automatic address detection command ON Turns OFF by the user BFM 27 b1 or press and hold the SET switch 2 oF ON A 3 Automatic address detection flag BFM 28 b11 W oU quce deci uu cu Uu gt OFF LEDon LED flashing 3 ON On SET LED S OFF OP T e3 The address being recorded No ID setting or ID in use detected sense RR Stand by Image of 4 execution ee gt ON Batch read D Parameter access completion flag BFM 28 b9 executed amp S OFF Slave module alarm signal BFM 28 b8 error has occurred M oz Parameter access error BFM 28 b10 lt OFF Og Ty Caution on the automatic address detection operation 3 ds T The automatic address detection is disabled when an error such as short in the AnyWireASLINK system and voltage drop in the external power supply occurs or within approximately five seconds after the AnyWireASLINK system is powered ON Check that all of the slave modules are connected and operating normally and then perform the automatic address detection e After performing the automatic address dete
129. ve module Control circuit Power supply 4 wajs s QJ uoneinByuoy n m D e es O gt Jewog HUM power supply Bull 440 NO Caution o The 24VL and OVL terminals of a slave module are used to supply power to the connected load suoroun J Jo uononpoau For the current consumption of a non isolated slave module refer to the manual for each slave module weboq OO amp ouejjeung N so duJex4 6unoousejqnoi QO uoneuuolu UOISJOA 37 5 Wiring Power ON OFF Timing FX3U 128ASL M User s Manual 5 5 Power supply details to the AnyWireASLINK system b Constants related to the isolated slave module Izdin Izdo In the isolated slave module only the current required for the internal control circuit is supplied with the transmission cables DP DN whereas that for the connected load is supplied from the 24 V DC external power supply Izdin A Internal current consumption of the isolated input module Izdo A Internal current consumption of the isolated output module Isolated slave module Control circuit Load driving circuit photocoupler OCS Connected load power supply power supply Caution n isolated type slave modules the current consumption of the connected load is not subject to the current restriction condition for the AnyWireASLINK system For the current consumption of isolated slave modules refer to the manual for
130. y the user Failure caused by the user s hardware or software design b Failure caused by unapproved modifications etc to the product by the user c 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 d Failure that could have been avoided if consumable parts battery backlight fuse etc designated in the instruction manual had been correctly serviced or replaced e Relay failure or output contact failure caused by usage beyond the specified Life of contact cycles f 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 g Failure caused by reasons unpredictable by scientific technology standards at time of shipment from Mitsubishi h 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 one 1 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 i
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