CC-Link IE Field Network-AnyWireASLINK Bridge Module User`s
Contents
1. 9 TRANSMISSION TIME 9 1 CC Link IE Field Network Transmission Time Transmission delay time Transmission delay time is a value between one and two transmission cycle time Slave module input gt AnyWireASLINK The figure below shows the time between a signal input to the slave module and the bridge module device turning on off Slave module 1 Input response time of the slave module 2 Processing time of the slave module AnyWireASLINK 3 Transmission time Processing time of the bridge module Output to the CC Link side Calculation formula 1 Input response time of the slave module 2 Processing time of the slave module 3 Transmission time 4 Processing time of the bridge module 1 Input response time of the slave Refer to the manual for the slave module connected to the system or the device connected to the slave module module 2 Processing time of the slave 0 2ms common to the slave modules module 3 Transmission time Transmission cycle time x 2 The transmission cycle time differs depending on the transmission l O points setting Page 76 Transmission cycle time of the bridge module 4 Processing time of the bridge 1 5ms module 9 TRANSMISSION TIME 9 2 AnyWireASLINK Transmission Time TI AnyWireASLINK gt Slave module output The figure below shows the time between the CPU module device turning on off and a signal output of the bridge module turning on off2. p R A Address oa rk RES RXRXXEYTEXS 12 Address writer o uae 12 49 AnyWireASLINK 00000022 ee eee 12 AnyWireASLINK input signal 36 AnyWireASLINK output signal 38 ASLINKAMP elles 12 ASLINKER oe os rona dre a de id oc Bik ee ere we 12 Automatic address detection 51 Automatic address detection command 37 Automatic address detection flag 36 B Buffer memory llle llle 12 D ON G sa NG WD id ed aa a 23 Double check system 76 DA e SG 23 DP DN disconnection error 35 DP DN shorteror lll llle 35 E EEPROM sen 51 Error reset request flag 37 A a one RE 12 L RP 23 M Multidrop 1 23 24 2 2x ad rs m x Rey ee ew we 25 N Number of transmission points setting switch 33 Parameter access completion flag 36 Parameter access error 36 Parameter access request command for the slave module llle 37 Parameter batch read command for the slave module lees 37 Parameter batch write command for the slave module lees 37 Program example aaa 61 Remote I O signals o 34 Remote READY lees 35 Remote register areas 39 Slave module 00 cee ee eee 12 Slave module alarm signal 36 Station num
3. Slave module 4 Output response time of the slave module 3 Processing time of the slave module AnyWireASLINK 4 Processing time of the bridge module l l Input from the CC Link side Calculation formula 1 Processing time of the bridge module 2 Transmission time 3 Processing time of the slave module 4 Output response time of the slave module 1 Processing time of the bridge 1 5ms module 2 Transmission time Transmission cycle time x 2 The transmission cycle time differs depending on the transmission I O points setting E Page 76 Transmission cycle time of the bridge module 3 Processing time of the slave 0 2ms common to the slave modules module 4 Output response time on the slave Refer to the manual for the slave module connected to the system or the device connected to the slave module module 78 9 TRANSMISSION TIME 9 2 AnyWireASLINK Transmission Time 10 TROUBLESHOOTING 10 1 Before Troubleshooting Check that the POWER LED of the power supply module and the MODE LED of the CPU module are on If they are off perform the troubleshooting of the CPU module LA User s Manual Hardware Design Maintenance and Inspection for the CPU module used 10 2 Visual Inspection Check that the communication cables and wires are not disconnected and check the following items Checking the LED status of the bridge module Errors regarding the operating status and communications of the bridg
4. Slave module alarm signal RX n 1 0 and Parameter access error RX n 1 2 are maintained until Error reset request flag RYnO is turned on Errors are stored in the appropriate memory areas 7 SETTINGS BEFORE OPERATION 7 2 Automatic Address Detection 53 T 3 Sample Program System configuration The example of system configuration is shown below Master station station No 0 Local station station No 1 Power supply module Power supply module CPU module Master local module C Master local m module NZ2AW1GFAL station No 2 Output ASLINKER address 0 Input ASLINKER address 0 4 7 SETTINGS BEFORE OPERATION 5 7 3 Sample Program Operation setting Input output of AnyWireASLINK system can be set to any device in the network parameter setting of the master local module Example of setting Master module Set the master module 4 Project window gt Parameter gt PLC Parameter gt I O Assignment at POOLE ELLE PLC Name PLC System PLC File PLCRAS Program sFC Device 1 0 Assignment Multiple CPU Setting Serial Communication AA A Ka loo inteligent r 0000 ERN V6 h DPP O9h X Export to CSV File Import Multiple CPU Parameter Read PLC Data setting should be set as same when using multiple CPU Pint Window Print Window Preview Acknowledge XY Assignment Defaut check End ce 7 SETTINGS BEFORE OPER
5. The surge voltage withstand level for up to the rated voltage of 300V is 2500V 3 This index indicates the degree to which conductive material is generated in terms of the environment in which the equipment is used In pollution degree 2 only non conductive pollution occurs A temporary conductivity caused by an accidental condensation may also occur occasionally 4 The equipment can also be used outside the control panel provided that environmental conditions such as operating ambient temperature and operating ambient humidity are met 2 SPECIFICATIONS 2 1 General Specifications 2 2 Performance Specifications The following table lists the performance specifications CC Link IE Field Station type Network side Intelligent device station Remote input RX 2K points 2048 points 256 bytes Maximum number of link points 2K points 2048 points 256 bytes 1K points 1024 words 2K bytes 1K points 1024 words 2K bytes Ethernet cable category 5e or higher STP double shielded Overall cable distance Line topology 12000m when connecting 121 stations total cable length Star topology Undefined depends on the system configuration Station to station distance 100m max Network topology Line topology star topology Communication method Token passing AnyWireASLINK side Transmission clock 27 0kHz Maximum transmission 200m 2 distance total length Transmission system DC power supply transmission
6. MITSUBISHI A NG ELECTRIC Mitsubishi Programmable Controller CC Link IE Field Network AnyWireASLINK Bridge Module User s Manual NZ2AW1GFAL COPYRIGHT This document is protected by the law of copyright whereby all rights established therein remain with the company Mitsubishi Electric Corporation Reproduction of this document or parts of this document is only permissible within the limits of the legal determination of Copyright Law Alteration or abridgement of the document is not permitted without the explicit written approval of the company Mitsubishi Electric Corporation PRECAUTIONS REGARDING WARRANTY AND SPECIFICATIONS The NZ2AW1GFAL was jointly developed and manufactured by Mitsubishi and Anywire Corporation Note that there are some precautions regarding warranty and specifications of this product Warranty Repair term after discontinuation of production 7 years Application of the EMC Directive EN61131 2 EN61131 2 Applicable EMC standard Application of the UL cUL standards UL508 CSA22 2 UL508 CSA22 2 Applicable UL standard cUL standard SAFETY PRECAUTIONS Read these precautions before using this product Before using this product please read this manual and the relevant manuals carefully and pay full attention to safety to handle the product correctly The precautions given in this manual are concerned with this product only For the safety precau
7. bit transmission is resumed automatically If the status does not change the short circuit has not been eliminated Therefore check the system again The following status is maintained ON state of DP DN short error RXn1 e Flashing of the ALM LED Latest error information 1 If multiple errors occur simultaneously the latest error is displayed 2 Resetthe bridge module or turn on and off Error reset request flag RYn0O The following status is resulted DP DN short error RXn1 turns off The ALM LED turns off The value of latest error information is cleared 68 8 FUNCTIONS 8 2 Function Details Disconnected transmission cable location detection function This function notifies the ID of the slave module that has been disconnected from the bridge module because of disconnection in the transmission cable DP DN between the bridge module and the slave module to locate the disconnection in the transmission cables DP DN Point To enable the disconnected transmission cable location detection function perform the automatic address detection when configuring modifying or adding the system lt Page 51 Automatic address detection operation After the system configuration the disconnection detection may work when the slave module is disconnected from the system Perform the automatic address detection after modifying the system Even if disconnection in the transmission cables DP DN is detected
8. disconnection short circuit or poor contact in the wiring on the load side When the I O data and parameter data of the slave module is unstable Check the connection of the terminating unit Pay attention to the polarities of the terminating unit BTO and connect it correctly Check the total length of the transmission cables Adjust the total length of the AnyWireASLINK system to be within the specification range Check the type of the transmission cables Check that the transmission cables have the specified type wire diameter and tightening torque to the terminal block Do not run multiple transmission cables DP DN using a multicore cable Check the power supply voltage of the 24VDC external power supply Adjust the power supply voltage of the 24VDC external power supply to be within the rated value 21 6 to 27 6VDC The recommended voltage is 26 4VDC Check that the slave module does not have the same address as the Set a unique address in the slave module addresses of other slave modules 10 TROUBLESHOOTING 10 5 Troubleshooting of Slave Module 85 86 10 6 List of Error Codes The latest error code is stored in Latest error code storage area RWrn 0 This section lists error descriptions causes and corrective actions Error code 0064H 0065H 0066H 0067H 00C8H 00C9H 00CAH 012CH 012DH 012EH 012FH 0130H Error description Bridge module hardware error Transmissi
9. if repairs are required onsite at domestic or overseas location expenses to send an engineer will be solely at the customer s discretion Mitsubishi shall not be held responsible for any re commissioning maintenance or testing on site that involves replacement of the failed module Gratis Warranty Term The gratis warranty term of the product shall be for one year after the date of purchase or delivery to a designated place Note that after manufacture and shipment from Mitsubishi the maximum distribution period shall be six 6 months and the longest gratis warranty term after manufacturing shall be eighteen 18 months The gratis warranty term of repair parts shall not exceed the gratis warranty term before repairs Gratis Warranty Range 1 The range shall be limited to normal use within the usage state usage methods and usage environment etc which follow the conditions and precautions etc given in the instruction manual user s manual and caution labels on the product 2 Even within the gratis warranty term repairs shall be charged for in the following cases 1 Failure occurring from inappropriate storage or handling carelessness or negligence by the user Failure caused by the user s hardware or software design 2 Failure caused by unapproved modifications etc to the product by the user 3 When the Mitsubishi product is assembled into a user s device Failure that could have been avoided if functions or structures
10. judged as necessary in the legal safety measures the user s device is subject to or as necessary by industry standards had been provided 4 Failure that could have been avoided if consumable parts battery backlight fuse etc designated in the instruction manual had been correctly serviced or replaced 5 Failure caused by external irresistible forces such as fires or abnormal voltages and Failure caused by force majeure such as earthquakes lightning wind and water damage 6 Failure caused by reasons unpredictable by scientific technology standards at time of shipment from Mitsubishi 7 Any other failure found not to be the responsibility of Mitsubishi or that admitted not to be so by the user 2 Onerous repair term after discontinuation of production 1 Mitsubishi shall accept onerous product repairs for one year after production of the product is discontinued Discontinuation of production shall be notified with Mitsubishi Technical Bulletins etc 2 Product supply including repair parts is not available after production is discontinued Overseas service Overseas repairs shall be accepted by Mitsubishi s local overseas FA Center Note that the repair conditions at each FA Center may differ 4 Exclusion of loss in opportunity and secondary loss from warranty liability Regardless of the gratis warranty term Mitsubishi shall not be liable for compensation of damages caused by any cause found not to be the responsibility
11. short circuit incorrect wiring or poor contact in the transmission cables around the module Check that the LINK LED and ALM LED of the slave ID is duplicated or not assigned module are flashing alternately Set the address correctly Check that the ALM LED of the slave module is flashing Signal level of transmission cables may be lacking at 1 2 second intervals 0 2 second on 1 0 second off Review the system configuration total length transmission cable wire diameter and transmission cable supply current of AnyWireASLINK Check that the ALM LED of the slave module is on Slave module status error has occurred Disconnection or short circuit of I O wiring lack of I O power supply or sensing level drop may occurs Check the wiring installation method and power supply voltage of the slave module For details refer to the manual for the slave module used 10 TROUBLESHOOTING 10 3 Checking with Remote l O Signals 81 10 4 Troubleshooting of Bridge Module This section describes the troubleshooting of the bridge module Check the power supply for correct wiring sa Check the power supply voltage Check the wiring of terminal blocks Check the power cables 24V OV Check the total internal current consumption of the entire system gt LINK LED does not turn on or flash after power on If the power supply is wired correctly hardware failure may be occurring Please consult your local Mitsubi
12. signal bit corresponding to the ID Ex The value in RWrn 933 is 0020H when an alarm occurs in only the input slave module with an ID of 5 among the modules with an ID of 0 to 15 a eee Pee ECE RWrn 385H 56024068000080105439210 31 29 20 19 18 17 16 mew sa n m m 18 M 13 m2 Ti To eo M er S S e 111 110 109 108 107 106 105 104 103 102 101 100 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 223 222 221 220 219 218 217 216 215 214 213 212 211 210 209 208 255 254 253 252 251 250 249 248 247 246 245 244 242 241 240 Lee hoeses E E Talelslalslsirie s els I21il3 RWrn 3A5H Lto 14 18 12 1 1o 8 87 6 pwe o 219 20 19 18 17 16 36 35 34 33 32 RWrn 3A8H 5352 51 50 49 48 An alarm occurs in the 68 67 66 65 64 input slave module with bus B4 83 82 B1 80 111 110 109 108 107 106 16 d1 99 98 97 96 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 207 206 205
13. 0 75 8 GY When processing a 0 75mm cable Phoenix Contact Co Ltd E 4 4 terminal Al 1 5 8 BK When processing a 1 25mm cable www phoenixcontact com AI TWIN 2x0 75 8 GY When processing two 0 75mm cables AI TWIN 2x1 5 8 BK When processing two 1 25mm cables 1 When connecting two cables to one terminal connect the two cables together to the TWIN bar terminal 2 When TWIN bar terminals are used the maximum diameter is 1 25mm Wiring precautions Precautions of wiring in the AnyWireASLINK system are as follows e In the AnyWireASLINK system signals and power are supplied to a slave module with two types of transmission cables DP and DN Therefore it is recommended to use a stranded wire of 1 25mm or larger for the main cable Wires such as general purpose wires cabtyre cables and flat cables can be used Do not run multiple transmission cables DP DN using a multicore cable DP DP DN DN DP DP DN DN e The voltage should not fall below the lower limit of the allowable voltage range due to the voltage drop caused by the cable If the voltage falls below the lower limit malfunctions may occur e Do not connect soldered cables directly to the terminals Doing so may loosen the screws resulting in a poor contact e The transmission cable terminal block needs to be removed from the bridge module when wiring to the block 4 CONNECTIONS 4 2 AnyWireASLINK Side Terminal Block 4 3 Connecting Slave Modules Connection ty
14. 179 178 177 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 223 222 221 220 219 218 217 216 215 214 213 212 211 210 209 208 255 254 253 252 251 250 249 248 247 246 245 244 243 242 241 240 Decimal Hexadecimal F E DJ C BJAjJ9 8 7 65 4 23 2 1 0 RWrn 365H Las 14 13 9 n wo ss 1 olgle 3 2 10 20 19 18 17 16 36 35 34 33 32 RWrn 368H 52 51 50 49 48 ERA woe ee es n d the ID of 5 84 83 82 81 80 T RMmsseeH 111 10 109 3108 10r 3108 o perc ros mz 100 99 98 97 9 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 223 222 221 220 219 218 217 216 215 214 213 212 211 210 209 208 RWrn 883 RWrn 373H 239 238 237 236 235 234 233 232 231 230 229 228 227 226 225 224 RWrn 884 RWrn 374H 255 254 253 252 251 250 249 248 247 246 245 244 243 242 241 240 44 6 MEMORY MAP 6 4 Details of Remote Register Areas Alarm ID information area The same information as the one stored in Alarm ID information storage area is stored in Alarm ID information area input O to 255 output O to 255 RWrn 901 to RWrn 964 When an alarm occurs the alarm ID information alarm 1 no alarm 0 of a slave module is stored in the remote register input
15. 204 203 202 201 200 199 198 197 196 195 194 193 223 222 221 220 219 218 217 216 215 214 213 212 211 210 209 208 RWrn 947 RWrn 3B3H 239 238 237 236 235 234 233 232 231 230 229 228 227 226 225 224 RWrn 948 RWrn 3B4H 255 254 253 252 251 250 249 248 247 246 245 244 243 242 241 240 6 MEMORY MAP 4 6 4 Details of Remote Register Areas 5 46 Parameter access setting Specify the method of parameter access with Parameter access setting RWwn 0 When any value other than the following is stored the parameter access method is set to reading e 0000H read slave module gt bridge module gt master local module gt CPU module 0001H write CPU module master local module bridge module slave module Parameter access target module ID specification Specify the ID targeted for parameter access with Parameter access target module ID specification RWwn 1 Write any of the following as the target ID e 0000H to OOFFH ID of the output slave module e 0200H to 02FFH ID of the input slave module or I O combined slave module 6 MEMORY MAP 6 4 Details of Remote Register Areas 6 5 Buffer Memory Data can be read written from to the buffer memory areas by the REMFR REMTO instruction in a sequence program The following table lists buffer memory address of the bridge module Requests the remote RESET to the bridge module 1 RESET command OH Remote RESET command one word For details on buffer m
16. Aerospace Medical applications Train equipment transport equipment such as Elevator and Escalator Incineration and Fuel devices Vehicles Manned transportation Equipment for Recreation and Amusement and Safety devices handling of Nuclear or Hazardous Materials or Chemicals Mining and Drilling and or other applications where there is a significant risk of injury to the public or property Notwithstanding the above restrictions Mitsubishi may in its sole discretion authorize use of the PRODUCT in one or more of the Prohibited Applications provided that the usage of the PRODUCT is limited only for the specific applications agreed to by Mitsubishi and provided further that no special quality assurance or fail safe redundant or other safety features which exceed the general specifications of the PRODUCTS are required For details please contact the Mitsubishi representative in your region COMPLIANCE WITH EMC AND LOW VOLTAGE DIRECTIVES Method of ensuring compliance To ensure that Mitsubishi programmable controllers maintain EMC and Low Voltage Directives when incorporated into other machinery or equipment certain measures may be necessary Please refer to one of the following manuals User s manual for the CPU module or head module used e Safety Guidelines This manual is included with the CPU module base unit or head module The CE mark on the side of the programmable controller indicates compliance with EMC and Low Voltage Dire
17. CHAPTER5 SWITCH SETTING 33 5 1 CC Link IE Field Network Side oooooooooononr hh hn 33 5 2 AnyWireASLINK Side oo oooooocoon eese hh hh hh hn hn n n ntn 33 CHAPTER6 MEMORY MAP 34 6 1 Lists or Remote VO Signals s 4nd co Rura Ree seen PAKAKAK MAMA BAE Lie BA ewe ce DAANG 34 6 2 Details of Remote NO Signals cesi dark C cac RC dci a CC A VOR e Ea C de Rc a 35 lesus AAA AA AA AA AA AA 35 Output SignalS 1 ee hh hrs 37 6 3 Lists of Remote Register AreaS 2 0 c ce es 39 6 4 Details of Remote Register Areas 000 ees 40 6 5 Butler Memo cocine parias Sohn eae AGA eee ees ee oben ee aja 47 6 6 EITOFIS6SBDI 13 2 2 rete 2 8 51 KG a AW AA GREECE AS CD TE ml D S RR 48 CHAPTER 7 SETTINGS BEFORE OPERATION 49 T 1 SetingsoPslave Module ssa x ip arras co EORR die te KAL A Eee diae dr esa 49 7 2 Automatic Address Detection 0 0 0 ehh 51 Automatic address detection operation eres 51 Automatic address detection execution timing ee 53 7 3 Sampe Frog aM ee ee ec ee ee ee ieee eee ee 54 CHAPTER 8 FUNCTIONS 62 8 1 FUNCUON LISE radar a AR ai ef ce a a a eae a E 62 8 2 F nclion Delalls ix ads 1g dol oic dec de pd ge ol a e o nd a a Gr Ue BA AAA A aes dy a 63 CC Link IE Field Network diagnostics rn 63 A Inn 64 Bit transmission function someras en e e e e ew eee ew a Sw eee ee OH 65 Parameter reading writing function naaa eee eee eens 65 Transmission cable
18. F Parameter access request command for the slave module D2001 0 Parameter batch read command for the slave module D2001 1 Parameter batch write command for the slave module D2001 2 Use prohibited AnyWireASLINK output signal O to 15 AnyWireASLINK output signal 16 to 31 AnyWireASLINK output signal 224 to 239 AnyWireASLINK output signal 240 to 255 D1000 0 D1000 1 D1000 3 D1000 4 D1001 0 D1001 2 X100 to X10F Y100 to Y10F TO D1004 D2004 7 SETTINGS BEFORE OPERATION 60 7 3 Sample Program D2001 3 to D2003 F D2004 0 to D2004 F D2005 0 to D2005 F D2012 0 to D2012 F D2013 0 to D2013 F Remote READY DP DN short error Transmission cable voltage drop error DP DN disconnection error Slave module alarm signal Parameter access error Input data Output data Timer contact after Remote READY AnyWireASLINK input signal start address AnyWireASLINK output signal start address Program example The following program stores input data of 16 points in X100 to X10F from the input slave module whose address is O and outputs the data of 16 points stored in Y100 to Y10F from the output slave module whose address is 0 D1000 0 D1000 1 D1000 3 D1000 4 D1001 0 D1001 2 K10 L F F MT wr M 9 T0 Wait for a second after Remote READY turns on TO TO Ka NG BMOV K4Y100 D2004 K16 Output access 7 SETTINGS BEFORE OPERATION 1 7 3 Sample Program 6 62 FUNC
19. LED is off perform the following troubleshooting K Page 83 When the MODE LED of the bridge module is off If the MODE LED is flashing perform the following troubleshooting K Page 83 When the MODE LED of the bridge module is flashing 6 Checkthe D LINK LED of the bridge module If the D LINK LED is off perform the following troubleshooting K Page 83 When the D LINK LED of the bridge module is off If the D LINK LED is flashing perform the following troubleshooting KL Page 84 When the D LINK LED of the bridge module is flashing 7 Check the ERR LED of the bridge module If the ERR LED is on or flashing perform the following troubleshooting KL Page 84 When the ERR LED of the bridge module is on or flashing 10 TROUBLESHOOTING 10 1 Before Troubleshooting 79 8 Check the L ER LED of the bridge module If the L ER LED is on perform the following troubleshooting K Page 84 When the L ER LED of the bridge module is on 9 Check the LINK LED of the bridge module If the LINK LED is off perform the following troubleshooting K Page 84 When the LINK LED of the bridge module is off Checking the operating status of the slave module Check that there is no error in the slave module For the troubleshooting of the slave module refer to the following KL Page 85 Troubleshooting of Slave Module e When the data I O data and parameter data of the slave module cannot be checked e When the data I O data and paramete
20. The abbreviation for the NZ2AW1GFAL CC Link IE Field Network AnyWireASLINK bridge module A memory in a master local module where data such as setting values and monitoring values exchanged with a CPU module are stored A high speed and large capacity open field network that is based on Ethernet 1000BASE T An instruction that simplifies programming for using functions of intelligent function modules Information assigned to a module based on its address to identify whether it is an input module or output module Output module ID Address Input module ID Address 200H A station that controls the entire network This station can perform cyclic transmission and transient transmission with all stations Only one master station can be used in a network The abbreviation for the CC Link IE Field Network master local module A cable that connects a 24VDC external power supply to a bridge module Bit data input from a slave station to the master station For some areas in a local station data are input in the opposite direction Bit data output from the master station to a slave station For some areas in a local station data are output in the opposite direction Word data input from a slave station to the master station For some areas in a local station data are input in the opposite direction Word data output from the master station to a slave station For some areas in a local station data are output in the opposite direction A g
21. damage modules and external devices Adjust a cable length and a module position to prevent disconnection of a connector type terminal block or a cable Do not solder stranded wires of a cable when connecting them to the terminal block Doing so may cause poor contact The power supply voltage of remote slave modules may be insufficient due to a voltage drop in the power supply line Connect an external power supply so that the voltage of remote slave modules is ensured Do not apply the 24VDC power before wiring the entire AnyWireASLINK system Connect a 24VDC external power supply to the device in an AnyWireASLINK system Do not install the control lines or communication cables together with the main circuit lines or power cables Failure to do so may result in malfunction due to noise 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 Wiring Precautions NCAUTION O Use 1000BASE T compliant Ethernet cables for Ethernet connection For the maximum station to station distance and the overall cable distance follow the specifications in this manual U
22. influenced by externally generated electromagnetic interference This section describes the precautions for machinery constructed with this products to comply with the EMC Directive These precautions are based on the requirements of the EMC Directive and the harmonized standards However they do not guarantee that the entire machinery constructed according to the descriptions complies with the EMC Directive The manufacturer of the machinery must determine the testing method for compliance and declare conformity to the EMC Directive Installation in a control panel Programmable controller is an open type device intended to be placed in a conductive control panel or similar type of enclosure This ensures safety as well as effective shielding of programmable controller emitted electromagnetic noise 1 Remote modules on each network must be also installed inside the control panel Waterproof type remote modules can be installed outside the control panel EControl panel Use a conductive control panel Mask off an area used for grounding in advance To ensure electrical contact between inner plates and the control panel mask off the bolt installation areas of each inner plate so that conductivity can be ensured in the largest area Ground the control panel with a thick ground cable so that low impedance can be ensured even at high frequencies Keep the diameter of the holes on the control panel to 10cm or less Keep the diameter of
23. module for the CPU module Input signals Remote READY Remote READY RXn0 turns on when the bridge module is powered on and test mode is finished lITurning off Remote READY Remote READY RXn0 turns off when bridge module hardware failure occurs DP DN short error DP DN short error RXn1 turns on when a short circuit occurs in the transmission cables DP DN or the maximum supply current is exceeded lITurning off DP DN short error To turn off DP DN short error RXn1 after removing the short circuit in the transmission cables DP DN or adjusting the current to be within the specification range reset the bridge module or turn on and off Error reset request flag RYn0O Until then this signal remains on Transmission cable voltage drop error Transmission cable voltage drop error RXn3 turns on when the 24VDC external power supply voltage drops llTurning off Transmission cable voltage drop error To turn off Transmission cable voltage drop error RXn3 after removing the drop of the 24VDC external power supply voltage reset the bridge module or turn on and off Error reset request flag RYn0O Until then this signal remains on DP DN disconnection error DP DN disconnection error RXn4 turns on when disconnection occurs in the transmission cables DP DN or the slave module is disconnected llTurning off DP DN disconnection error To turn off DP DN disconnection error RXn4 after dealing with the disconnect
24. of the slave module and set a unique address in the slave module 3 Execute the automatic address detection function of the bridge module Poin tr The same ID number used status can be cleared by resetting the AnyWireASLINK system or turning on and off Error reset request flag RYnO but the IDs remain duplicated 8 FUNCTIONS 8 2 Function Details e If the AnyWireASLINK system is powered off after ID duplication is detected the ID duplication status is not 73 Module with no ID number setting detection function The factory default IDs input modules O2FFH output modules OOFFH are detected on slave modules whose ID is not set by executing the automatic address detection function Point e If the AnyWireASLINK system is powered off after the no ID number setting status is detected the no ID number setting status is not displayed until the automatic address detection function is executed again Only one ID is stored in the alarm information that is notified to the device of the CPU module because an ID is not set For example if OOFFH is set to multiple IDs the number of alarm IDs stored in the ID information is 1 and OOFFH is displayed as the alarm ID value ID number unset status When the system is in the following status a module with no ID setting has been detected e Slave module alarm signal RX n 1 0 is on 0191H is stored in Latest error code storage area RWrn 0 The unset ID input modules
25. protected from dedicated power distribution by AC DC converter and insulation transformer rated voltage 120V or less Measures to comply with the Low Voltage Directive This product is not subject to the Low Voltage Directive as it operates on 24VDC power supply For making the programmable controller system used comply with the Low Voltage Directive refer to the section about EMC and Low Voltage Directives in the user s manual for the CPU module used APPENDICES Appendix 2 EMC and Low Voltage Directives Appendix 3 Functions Added and Modified with Version Upgrade The bridge module has some new functions added and specifications modified as a result of a version upgrade Available functions and specifications vary depending on the function version and the serial number Parameter reading writing function gt Page 65 Parameter reading writing function A A serial number where the first six digits are 160722 or later iQ Sensor Solution functions 3 Page 75 iQ Sensor Solution functions A Refer to the following iQ Sensor Solution Reference Manual APPENDICES 91 Appendix 3 Functions Added and Modified with Version Upgrade Appendix 4 External Dimensions qoe 044 ov nas 8 7 STATION NO ON lt sw1 sw2 1 0 AnyWireASLINK CC L nk IE Bela NZ2AW1GFAL Unit mm 92 APPENDICES Appendix 4 External Dimensions MEMO APPENDICES 93 Appendix 4 External Dimensions INDEX
26. short detection function eee ee eee 68 Disconnected transmission cable location detection function lille 69 Transmission cable voltage drop detection function liliis 70 Parameter access error detection function o o oooooo eee ee eee ees 71 Same ID number used detection function ne eee ee eens 73 Module with no ID number setting detection function 0 0 0 ees 74 iQ Sensor Solution TUnGllofiS aurons REG REEGG EDAS 44450598 R ph os oR SSH GN XP dep Qao Rr x eens i 75 CHAPTER9 TRANSMISSION TIME 76 9 1 CC Link IE Field Network Transmission Time eee 76 9 2 AnyWireASLINK Transmission TiMe oooooococc hh hun 76 Transmission dela megan a BASI BIAG 10 daa Ea bn as 77 CHAPTER 10 TROUBLESHOOTING 79 18 1 Before Iroubleshoollhng vs ui uer nG dale cras do hee GG Gc c mn 79 10 2 Visual INSPECCI N ic a a e ri A RR ARA SE de AAA e ARA AA 79 10 3 Checking with Remote I O Signals oooooooonrrnrnrr ehh hn 81 10 4 Troubleshooting of Bridge Module ooooooonorrn hh hn 82 10 5 Troubleshooting of Slave Module 0 0 cece es 85 10 6 Eistor Error Codes NPPTCTMPPTTTTTr 86 APPENDICES 88 Appendix 1 Checking Serial Number and Function Version 0 0 0 eee 88 Appendix 2 EMC and Low Voltage Directives 0 0 ees 89 Measures to comply with the EMC Directive ce rre 89 Measures to comply with the L
27. specification RWrn 2 RWrn 2H Number of the IDs of the RWwn 2 to connected modules RWwn 1023 RWrn 3 to RWrn 130 RWrn 3H to Connected module ID RWrn 82H information storage area RWrn 131 RWrn 83H Number of the error IDs RWrn 132 to RWrn 84H to Error ID information storage RWrn 259 RWrn 103H area RWrn 260 RWrn 104H Number of the alarm IDs RWwn 2H to Use prohibited RWwn 3FFH RWrn 261 to RWrn 388 RWrn 389 to RWrn 185H to Parameter area 1 module RWrn 391 RWrn 187H ID status details sensing level RWrn 392 to RWrn 188H to Parameter area 2 module RWrn 394 RWrn 18AH ID status details sensing level RWrn 767 to RWrn 2FFH to Parameter area 127 RWrn 769 RWrn 301H module ID status details sensing level RWrn 770 to RWrn 302H to Parameter area 128 RWrn 772 RWrn 304H module ID status details sensing level RWrn 773 to RWrn 305H to Connected module ID RWrn 804 RWrn 324H information area output O to 255 315H to 324H use prohibited RWrn 805 to RWrn 325H to Connected module ID RWrn 836 RWrn 344H information area input O to 255 335H to 344H use prohibited RWrn 837 to RWrn 345H to Error ID information area RWrn 868 RWrn 364H output 0 to 255 355H to 364H use prohibited RWrn 869 to RWrn 365H to Error ID information area RWrn 900 RWrn 384H input O to 255 375H to 384H use prohibited RWrn 901 to RWrn 385H to Alarm ID information area RWrn 932 RWrn 3A4H output O to 255 395H to 3A4H use prohibited RWr
28. the bit transmission is not stopped Transmission cable disconnection status When the system is in the following status the transmission cables DP DN or a slave module have been disconnected e The ALM LED turns on DP DN disconnection error RXn4 turns on e The number of error IDs is stored in Number of the error IDs RWrn 131 e The ID of the disconnected slave module is stored in Error ID information storage area RWrn 132 to RWrn 259 DOCAH is stored in Latest error code storage area RWrn 0 The ID of the disconnected slave module is stored in Latest error ID storage area RWrn 1 E 1 If multiple errors occur simultaneously the latest error is displayed How to recover from the transmission cable disconnection status How to recover from the transmission cable disconnection status is as follows 1 Eliminate the disconnection in the AnyWireASLINK system When the disconnection is eliminated bit transmission is resumed automatically If the status does not change the disconnection has not been eliminated Therefore check the system again The following status is maintained ON state of DP DN disconnection error RXn4 e Flashing of the ALM LED Latest error information 1 If multiple errors occur simultaneously the latest error is displayed 2 Resetthe bridge module or turn on and off Error reset request flag RYn0O The following status is resulted DP DN disconnection error RXn4 turns o
29. the holes on the control panel to 10cm or less In addition because electromagnetic wave leaks through a clearance between the control panel and its door reduce the clearance as much as possible Use of EMI gaskets sealing the clearance can suppress undesired radiated emissions The tests were conducted by Mitsubishi Electric Corporation using a control panel having damping characteristics of 37dB maximum and 30dB average measured at 3m distance 30 to 300MHz EPower cable and ground cable Provide a ground point to the control panel near the power supply module Ground the LG terminal of this products to the ground point with the thickest and shortest ground cable possible 30cm or shorter APPENDICES Appendix 2 EMC and Low Voltage Directives 89 90 Cables When a cable connected to a module is extended out of the control panel use a shielded cable If a shielded cable is not used or not grounded properly the noise immunity will not meet the requirement BCC Link IE Field Network cable CC Link IE Field Network cable is a shielded cable Strip a part of the jacket of the shielded twisted pair cable as shown below and ground the exposed shield to the largest area CC Link Ver 1 10 compatible cable Shield External power supply e Use a CE marked external power supply and ground the FG terminal External power supply used for the tests conducted by Mitsubishi DLP 120 24 1 manufactured by TDK Lambda Corporation PS5R SF
30. there is no incorrect wiring in the terminal block wiring of the bridge module and the slave module Correct the cables wire diameter total length and modules type the number of connected modules so that the total current consumption of all the slave modules does not exceed the transmission cable supply current of the bridge module Disconnection may be occurring in the signal cables DP DN or there may be no response from the slave module The slave module may be malfunctioning or the system configuration may have been changed after the automatic address detection function is executed Locate the disconnection by checking error ID information or other appropriate information and perform the following actions Check that the transmission cables entire cables are free from disconnection Check that the cables have been crimped with proper pin assignment using link connectors appropriate to the wire diameter Check that the signal cables are properly connected to the terminal block of the bridge module Check that there is no incorrect wiring and screws are tightened within the specified torque range When creating a new system adding or removing a slave module or changing the address of the slave module perform the automatic address detection function After executing the automatic address detection function check that the number of slave modules and the address are consistent with those of the actual system If the LINK
31. 02FFH output modules OOFFH is stored in Latest error ID storage area RWrn 1 7 The bit transmission is in progress 1 If multiple errors occur simultaneously the latest error is displayed How to recover from ID number unset status 1 Setan address of the slave module 2 Check that 255 is not set to the address of the slave module 3 After setting the address of the slave module execute the automatic address detection function Poin tp The ID number unset status can be cleared by resetting the AnyWireASLINK system or turning on and off Error reset request flag RYn0 but the address of the slave module remains unset 74 8 FUNCTIONS 8 2 Function Details iQ Sensor Solution functions iQ Sensor Solution functions establish data communication with AnyWireASLINK compatible slave modules via CC Link IE Field Network and AnyWireASLINK The following iQ Sensor Solution functions can be used e Automatic detection of connected devices e Sensor device monitor e Sensor parameter read write e Data backup restoration For details on each function refer to the following LA iQ Sensor Solution Reference Manual 8 FUNCTIONS 8 2 Function Details 75 76 9 TRANSMISSION TIME 91 CC Link IE Field Network Transmission Time For transmission time of the CC Link IE Field Network side refer to the user s manual for the master local module used 9 2 AnyWireASLINK Transmission Time Transmission cycle time of the br
32. 152 151 150 149 148 147 146 145 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 223 222 221 220 219 218 217 216 215 214 213 212 211 210 209 208 RWrn 819 RWrn 333H 239 238 237 236 235 234 233 232 231 230 229 228 227 226 225 224 RWrn 820 RWrn 334H 255 254 253 252 251 250 249 248 247 246 245 244 243 242 241 240 6 MEMORY MAP 43 6 4 Details of Remote Register Areas Error ID information area The same information as the one stored in Error ID information storage area is stored in Error ID information area input O to 255 output O to 255 RWrn 837 to RWrn 900 When an error occurs the error ID information error 1 no error 0 of a slave module is stored in the remote register input signal bit corresponding to the ID Ex The value in RWrn 869 is 0020H when an error occurs in only the input slave module with an ID of 5 among the modules with an ID of O to 15 Cu A ee AA E E E sims Rums 18 te to 2 on oo e e 7 e s s 9 2 1 31 29 20 19 18 17 16 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 191 190 189 188 187 186 185 184 183 182 181 180
33. 24 and PS5R F24 manufactured by IDEC Corporation Keep the length of the power cables connected to the external power supply to 30m or less Others llFerrite core A ferrite core is effective for reducing radiated noise in the 30MHz to 100MHz frequency band It is recommended to install a ferrite core if a shield cable extended out of the control panel does not provide sufficient shielding effects Install a ferrite core to the cable in the position just before the cable is extended out of the control panel If the installation position is not appropriate the ferrite core will not produce any effect For the external power supply and CC Link IE Field Network cable install the ferrite core 4cm away from the module For the AnyWireASLINK cable install a ferrite core at a point as close to the AnyWireASLINK side terminal block of this product as possible Wrap the cable around the ferrite core by one as shown below Ferrite core used for the tests conducted by Mitsubishi ESD SR 250 manufactured by NEC TOKIN Corporation ZCAT3035 1330 manufactured by TDK Corporation Installation environment Use the module under the installation environment of Zone B 1 Zone is determined according to industrial environment specified in EN61131 2 Zone C Factory mains isolated from public mains by dedicated transformer Zone B Dedicated power distribution secondary surge protection rated voltage 300V or less Zone A Local power distribution
34. ATION 7 3 Sample Program 55 96 X Project window gt Parameter gt Network Parameter gt Ethernet CC IE MELSECNET M Set network configuration setting in CC IE Field configuration window FU O Module A KA CE CA Ma sato 7 CC IE Field Master Station Total number of slave stations and station No are set automatically in the CC IE Field configuration window Necessary Setting No Setting Already Set Setifitis needed Mo Setting Already Set ERU Start I O No Valid Module During Other Station Access E intrnk Transmission Parameters k Transmission Paramete l ipase aR pR RD EU Geka TID innich mahi i mael rong Routing parameters assnment maoe Group Setting Check End Cancel Print Window rl meray 4 7 SETTINGS BEFORE OPERATION 7 3 Sample Program Click CC IE Field Configuration Setting Set the bridge module in the following window Es i CCIE Field Configuration Edit View Close with Discarding the Setting Close with Reflecting the Setting Mode Setting Online Standard Mode y Assignment Method Start End y Link Scan Time Approx 71 37 RX RY Setting Points Start End E Host Station 1 Gen Intelligent Device Station 2 Inteligent Device Station 320 0000 013F 1024 0000 03FF D1000 20 points D2000 20 points W1000 1024 points WO 1024 points Wi 2 General Local Station 256 0200 02FF 1024 0400 o7F Refresh devices that are assigned
35. C AND LOW VOLTAGE DIRECTIVES 022222 aa 6 INTRODUCTION etat montar dh E parra a eens tues a dr daa tss dad iris ad T7 RELEVANT MANUALS 22 8 PERA AA a 12 xwieduc SIPA AA 13 CHAPTER 1 OVERVIEW 14 1 1 RI ll occ A AA AAA AAA A A A 15 1 2 System Configuration of AnyWireASLINK oo oocoocco hn nnn 15 CHAPTER 2 SPECIFICATIONS 16 2 1 General Specifications 522223 rre ae 16 2 2 Performance Specifications 3293s arvum abrir ddr aa aaa e a 17 2 3 Applicable Systems s eu 6654 sen et bb parados DAAN KA KABA NT ALAN RUE KAHA quara Ses d RUE iaa 18 Applicable master local modules lille han 18 Dedicated instructions n a rezaba veran e Redon aus Fa drca ode Rede m EL RR Go e pe au Badius 18 2 4 Parn IL 245286 ce TITOLI DOLI AA ive 1T 19 CHAPTER3 MOUNTING MODULE 21 CHAPTER4 CONNECTIONS 23 4 1 CC Link IE Field Network Side Connector 00 0c cece hn 23 4 2 AnyWireASLINK Side Terminal Block o oooooooooronr eer nn 23 Transmission cable terminal block ee ete eens 23 Cable processida ehh ahhh 24 Wiring PrecallON m ECPMPIPTT r 24 4 3 Connecting Slave ModulesS ooooooooor eee hh hn 25 4 4 Supplying Power to a Bridge Module 0 cece eee hn 26 4 5 Checking System Before POWer 0D o o ooococooo ehh hh hn 30 4 6 Powering on the Systel s suco rara a US doe dac ena dO Odds oc at ds d UR ca e ete 31 4 7 Terminating iP PPP 32
36. D used error For details refer to the following KL Page 73 Same ID number used detection function llHow to recover from no ID setting error For details refer to the following K Page 74 Module with no ID number setting detection function 8 FUNCTIONS 8 2 Function Details Same ID number used detection function ID duplication in all the connected slave modules is detected by executing the automatic address detection function Point displayed until the automatic address detection function is executed again Only one ID is stored in the alarm information that is notified to the device of the CPU module due to ID duplication For example if OOOAH is set to multiple IDs the number of alarm IDs stored in the ID information is 1 and 000AH is displayed as the alarm ID Same ID number used status When the system is in the following status the same ID is used for multiple modules e Slave module alarm signal RX n 1 0 is on 0190H is stored in Latest error code storage area RWrn 0 e The duplicated ID is stored in Latest error ID storage area RWrn 1 7 The bit transmission is in progress 1 If multiple errors occur simultaneously the latest error is displayed How to recover from same ID number used status How to recover from same ID number used status is as follows 1 Locate the error ID by checking the alarm ID information that was notified to the device of the CPU module 2 Check the ID address setting
37. ED green 1 LED indicator CC Link IE Field Network side ERR LED red LED indicator AnyWireASLINK side LINK LED green SET LED green ALM LED red 2 SET switch Automatic address setting switch 3 CC Link IE Field Network station number setting switch 4 Number of transmission points setting switch 5 CC Link IE Field Network side RJ45 connector L ER LED red LINK LED green Indicates the operating status of the bridge module On Normal operation Off A hardware failure or a watchdog timer error Indicates the module mode On Online mode Flashing Unit test mode Off Unit test mode end Indicates the status of the data link On Data link cyclic transmission being performed Flashing Data link cyclic transmission stopped Off Data link not in operation disconnected Indicates the error status of the CC Link IE Field Network of the bridge module On Any of the following errors has occurred in the module e Modules with same station number exist on CC Link IE Field Network e A network parameter on CC Link IE Field Network is corrupted or inconsistent has occurred Off Normal operation Indicates whether data link can be performed in the bridge module On During initializing the module or a hardware error Data link cannot be performed Off 24VDC power supply is disconnected Data link cannot be performed Flashing Operating normally Data link can
38. FH ID of the output slave module e 0200H to 02FFH ID of the input slave module or I O combined slave module The stored value is maintained until the bridge module is reset or Error reset request flag RYnO is turned on after the error is cleared Number of the alarm IDs Among the IDs of the slave modules connected the number of IDs on which an alarm is raised is stored in Number of the alarm IDs RWrn 260 at power on or after the automatic address detection function is executed Up to 128 The stored value is maintained until the bridge module is reset or Error reset request flag RYnO is turned on after the error is cleared Alarm ID information storage area The ID information of all the slave modules in which an alarm is raised is stored in Alarm ID information storage area RWrn 261 to RWrn 388 in ascending order Any of the following is stored e 0000H to OOFFH ID of the output slave module e 0200H to 02FFH ID of the input slave module or I O combined slave module The stored value is maintained until the bridge module is reset or Error reset request flag RYnO is turned on after the error is cleared Parameter module ID Parameter module ID RWrn 389 RWrn 392 RWrn 767 RWrn 770 indicates the ID of the slave module Any of the following is stored e 0000H to OOFFH ID of the output slave module e 0200H to 02FFH ID of the input slave module or I O combined slave module 6 MEMORY MAP 41 6 4 Details of Rem
39. ING MODULE Check that the station to station distance of CC Link IE Field Network is within the specified range Page 17 Performance Specifications Check that the total length of the AnyWireASLINK system is within the specified range 5 Page 17 Performance Specifications Check that the power supplied to the bridge module is within the specified range Page 26 Supplying Power to a Bridge Module Check that the bridge module slave module terminating unit and 24VDC external power supply are properly connected and wired 4 CONNECTIONS 4 5 Checking System Before Power on 4 6 Powering on the System After checking the items described above power on and start the system How to power on the AnyWireASLINK system is as follows The order is inverted when the system is powered off 1 24VDC external power supply for the AnyWireASLINK system This step is required only when the supply power of slave module is different from power supply of the bridge module When the supply power is same as the bridge module this step is not required 2 Power supply of the bridge module 3 Power supply of the programmable controller ON 24VDC external power supply for slave module OFF ON Power supply of the bridge module OFF Power supply of the programmable controller ON Remote READY OFF Sequence program l t l second or longer f _ _ _ ee e
40. 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 around the module A malfunction has been detected in the slave module hardware Reset the slave module Check that the module is not affected by noise Parameter access has been executed on the ID that has not been detected by the bridge module through the automatic address detection function Check the alarm ID information in the specified device of the CPU module to locate the error ID and perform the following action Check that the ID of the slave module that has been targeted for parameter access is consistent between the actual system and program Make sure that the ID of the input slave module and I O combined slave module is set to the address 200H When creating a new system adding or removing a slave module or changing the address of the slave module perform the automatic address detection function After executing the automatic address detection function check that the number of slave modules and the address are consistent with those of the actual system A write signal of a parameter that cannot be set has been detected in the slave module Check the alarm ID information in the specified device of the CPU module to locate the error ID and perform the following action Check that the value that is set to the parameter of the slave module is within the settable rang
41. ORKS 1 14 YADA MINAMI 5 CHOME HIGASHI KU NAGOYA JAPAN When exported from Japan this manual does not require application to the Ministry of Economy Trade and Industry for service transaction permission Specifications subject to change without notice
42. Parameter access completion flag RX n 1 1 also turns on to complete the access 3 Read the parameters to check that the setting has taken effect in the slave module 8 FUNCTIONS 8 2 Function Details Precautions Parameter access parameter access batch read and parameter access batch write cannot be executed on slave modules not registered by the automatic address detection function Clear ID duplication and unset IDs of the slave modules after executing parameter access parameter access batch read or parameter access batch write Parameter batch read is executed when the automatic address detection function is performed Do not access the parameters or execute the automatic address detection function while parameter access parameter access batch read or parameter access batch write is being executed Doing so can cause a malfunction of the module Parameter access completion flag RX n 1 1 turns off while parameter access parameter access batch read or parameter access batch write is being executed Refer to the section describing the parameter access timing and adjust the access timing Page 67 Parameter access timing Parameter access parameter access batch read and parameter access batch write cannot be executed while Parameter access completion flag RX n 1 1 is off When parameter access batch read or parameter access batch write is executed the values set to Parameter access setting RWwn 0 and Parameter
43. Point e Supply the power according to the steps 1 24 VDC external power supply of AnyWireASLINK system 2 the bridge module 3 the programmable controller or turn on them at the same time e If the bridge module is powered on before the 24VDC external power supply in the AnyWireASLINK system a transmission cable voltage drop detection error may occur After Remote READY RXn0 turns on wait at least one second to start the program 4 CONNECTIONS 1 4 6 Powering on the System 3 32 4 Terminating Unit To ensure more stable transmission quality connect the terminating unit BTO manufactured by Anywire Corporation at the end of the transmission line W Terminating resistor connection Bridge module Basic The end of a line Nu Nu Nu l Main line gt B Branch of transmission lines Example Bridge module AnyWire at the end The end of a line o Ns Ng O gt Ns Nu Main line on CX CX BTO Branch line 40m or longer Important Connect one terminating resistor at the end of a branch line that exceeds 40m Three terminating resistors can be connected in total in the AnyWireASLINK system BI Total length The total length of the transmission distance for the AnyWireASLINK system can be calculated from A B Note that the total length should not exceed the maximum transmission distance set for the system to branch lines 4 CONNECTIONS 4 7 Terminating
44. TIONS 8 1 Function List The following table lists the functions of the bridge module Parameter reading writing function Classification CC Link IE Field Network functions AnyWireASLINK functions 8 FUNCTIONS 8 1 Function List Description CC Link IE Field Network diagnostics Checks whether a network error occurs or not using GX Works2 connected to the master station Unit test function Checks the hardware status of the bridge module Bit transmission function points between the bridge module and a slave module Reads and writes the parameters of a slave module connected to the AnyWireASLINK network without causing a delay in bit transmission Automatic address detection function Enables the bridge module to detect and store the ID address of RYn1 is turned on Transmission cable short Detects a short circuit in DP DN cables Protects the system by detection function detecting an overcurrent out of the specifications and stopping the transmission Detects the location of DP DN cable disconnection Notifies the ID of the slave module that has been disconnected from the bridge module to locate the disconnection in the transmission cables DP DN Disconnected transmission cable location detection function Transmission cable voltage drop detection function Monitors a voltage drop in the 24VDC external power supply This function enables the bridge module to detect a failure in t
45. Unit D SWITCH SETTING 5D CC LinkIE Field Network Side Station number setting switch M method Set the station number of CC Link IE Field Network using the rotary switch in the front of the module Set the station number with power off because setting value becomes effective when powered on e Set the tens place of the station number to x10 e Set the ones place of the station number to x1 The number of occupied stations is set by using the number of transmission points setting switch L Page 33 AnyWireASLINK Side llSetting range All switch positions are set to zero 0 when the product is shipped Set the station number from 1 to 120 The ERR LED turns on when the switch is set to the value other than 1 to 120 The station number cannot be set when it is duplicated Set the number of transmission points of the AnyWireASLINK All switch positions are set to off when the product is shipped he transmission cycle time of AnyWireASLINK can be shortened by setting small number of transmission points of AnyWireASLINK 5 SWITCH SETTING 5 1 CC Link IE Field Network Side 33 34 6 MEMORY MAP This section describes the memory map of the bridge module 6 1 Lists of Remote l O Signals The following table lists remote I O signals of the bridge module RXnO Remote READY Error reset request flag RXn1 DP DN short error Automatic address detection command RXn2 Use prohibited RYn2 to RYnF
46. Use prohibited RXn3 Transmission cable voltage drop error RXn4 DP DN disconnection error RXn5 to RXnF Use prohibited RX n 1 0 Slave module alarm signal RY n 1 0 Parameter access request command for the slave module RX n 1 1 Parameter access completion flag RY n 1 1 Parameter batch read command for the slave module RX n 1 2 Parameter access error RY n 1 2 Parameter batch write command for the slave module RX n 1 3 Use prohibited RY n 1 3 to RY n 3 F Use prohibited RX n 1 4 Automatic address detection flag RX n 1 5 to RX n 3 F Use prohibited RX n 4 0 to RX n 4 F AnyWireASLINK input signal O to 15 RY n 4 0 to RY n 4 F AnyWireASLINK output signal 0 to 15 RX n 5 0 to RX n 5 F AnyWireASLINK input signal 16 to 31 RY n 5 0 to RY n 5 F AnyWireASLINK output signal 16 to 31 RX n 18 0 to RX n 18 F AnyWireASLINK input signal 224 to RY n 18 0 to RY n 18 F AnyWireASLINK output signal 224 to 239 239 RX n 19 0 to RX n 19 F AnyWireASLINK input signal 240 to RY n 19 0 to RY n 19 F AnyWireASLINK output signal 240 to 255 255 RX n 20 0 to RX n 127 F Use prohibited RY n 20 0 to RY n 127 F Use prohibited n Address assigned to the master station in the station number setting 1 This signal can be used in the bridge module with a serial number first six digits of 160722 or later 6 MEMORY MAP 6 1 Lists of Remote I O Signals 6 2 Details of Remote I O Signals This section describes the details of the I O signals of the bridge
47. X n 1 0 turns on 012FH Parameter value error Slave module alarm No indication The error code is stored The error ID is stored signal RX n 1 0 turns on 0130H Parameter access error Parameter access error No indication The error code is stored The error ID is stored RX n 1 2 turns on 0131H Slave module status error Slave module alarm No indication The error code is stored The error ID is stored signal RX n 1 0 turns on Slave module alarm No indication The error code is stored The error ID is stored signal RX n 1 0 turns on Slave module alarm No indication The error code is stored The error ID is stored signal RX n 1 0 turns on How to recover from the parameter access error status How to recover from the parameter access error status is as follows 0190H Same ID used error 0191H No ID setting error llSlave module hardware error 1 Eliminate the error cause by taking measures such as noise prevention Even when slave module hardware error is cleared the following status is maintained ON state of Slave module alarm signal RX n 1 0 he error code stored in Latest error code storage area RWrn 0 The error ID stored in Latest error ID storage area RWrn 1 1 If multiple errors occur simultaneously the latest error is displayed 2 Resetthe AnyWireASLINK system or turn on and off Error reset request flag RYnO The following status is resulted e Slave module alar
48. access target module ID specification RWwn 1 are ignored Parameter access timing The parameter access timing is as follows pesas tein Executed in the program gt Executed by the bridge module Parameter access request command for the slave module ON RY n 1 0 Parameter batch read command for the slave module RY n 1 1 OFF 7 Parameter batch write command for the slave module RY n 1 2 2 a ON Parameter access completion flag RX n 1 1 Parameler access in progress gt OFF Slave module alarm signal RX n 1 0 EN Parameter access error RX n 1 2 4 la OFF ON Error reset request flag RYnO 5 OFF No Description 1 Parameter access starts when one of the following signals is turned on by programs Parameter access request command for the slave module RY n 1 0 e Parameter batch read command for the slave module RY n 1 1 e Parameter batch write command for the slave module RY n 1 2 2 The operation in 1 turns off Parameter access completion flag RX n 1 1 3 When the parameter access read write is complete Parameter access completion flag RX n 1 1 turns on automatically 4 If there is an error in the parameter access one of the following signals turns on and Parameter access completion flag RX n 1 1 turns on automatically Slave module alarm signal RX n 1 0 e Parameter access error RX n 1 2 5 When Error reset request flag RY n D A is turned on by programs one of
49. asic Do not place the module in the directions shown below LS Downward installation Horizontal installation Vertical installation upside down Upward installation 3 MOUNTING MODULE 21 Hook the upper fixing tab on the bottom of the module to the DIN rail Push and engage the bridge module on the DIN rail Insert a flathead screwdriver into the hook and pull the hook to remove from the DIN rail Lift the module on the hook side and remove it using the fixing tab as the supporting point 3 MOUNTING MODULE 22 4 CONNECTIONS 4 1 CC Link IE Field Network Side Connector For the connection of CC Link IE Field Network side connector refer to the following LA User s manual for the master local module used 4 2 AnyWireASLINK Side Terminal Block Transmission cable terminal block MC 1 5 5 STF 3 81 0 2 to 0 3N m 1 Use the one manufactured by Phoenix Contact Co Ltd For contact visit www phoenixcontact com To connect the terminal block a flathead screwdriver having a tipped size of 0 4x2 5mm is required Before removing the transmission cable terminal block check that the fixing screws on both ends are completely loosened removed from the socket Pulling with excessive force while the fixing screws on both ends are still tightened may damage the devices Before connecting the terminal block check that there are no short circuits due to the disconnected or frayed wires and
50. ation number setting switch is within 1 The settable range of the station number setting switch is 1 to 120 to 120 Change the number to any of 1 to 120 el ERR LED of the bridge module is on or flashing Check that the station number setting switch is not changed during Change the station number setting switch to the previous setting power on Check that no error has occurred Identify the error factor of the bridge module using GX Works2 and take action LER LED of the bridge module is on Check that the Ethernet cable is operating normally e Check that 1000BASE T compliant Ethernet cable are used QA User s manual for the master local module used Check that the station to station distance is 100m or less Check that the Ethernet cables are not disconnected Check that the switching hub used in the system is operating normally Check that a 1000BASE T compliant switching hub is used QA User s manual for the master local module used Check that the switching hub is powered on Check other stations connected to the bridge modules are operating Check that the systems on other stations are powered on normally Check that the master station is set to the mode other than online Change the mode of the master station to online Check that the module is not affected by noise Check the wiring condition of the Ethernet cable Check that the loopback function is enabled for the master station When the loopback f
51. ave module 128 AnyWireASLINK terminating unit 1 1 OVERVIEW 1 1 Features 1 5 16 2 SPECIFICATIONS 2 1 General Specifications The following table lists the general specifications Item Specifications Operating ambient 0 to 55 C temperature Storage ambient 25 to 75 C temperature Operating ambient 5 to 95 RH non condensing humidity Storage ambient humidity Vibration resistance Compliant with JIS Frequency Constant Half amplitude The number of B 3502 and IEC acceleration sweeps 61131 2 ngek intermittent 5 to StoB4Hz 4Hz 8mm 5mm 10 times each in X Shock resistance Compliant with JIS B 3502 and IEC 61131 2 147m s 3 times each in X Y and Z directions Operating No corrosive gas atmosphere Operating altitude 0 to 2000m Installation location Inside a control panel 4 Overvoltage II or less category Pollution degree 2orless Equipment class Class I 1 Do not use or store the programmable controller under pressure higher than the atmospheric pressure of altitude Om Doing so may cause malfunction When using the programmable controller under pressure please consult your local Mitsubishi representative 2 This indicates the section of the power supply to which the equipment is assumed to be connected between the public electrical power distribution network and the machinery within premises Category II applies to equipment for which electrical power is supplied from fixed facilities
52. be performed Indicates the address detection status of the bridge module On Automatic address detection in progress Off Operating normally Flashing Writing in the EEPROM Indicates the error status of the bridge module On DP DN disconnection no response from the slave module Slow flashing one second intervals DP DN short circuit Fast flashing 0 2 second intervals 24VDC is not being supplied or the voltage is low Off Operating normally Switch for automatic detection of the AnyWireASLINK slave module ID address E Page 51 Automatic address detection operation Set the station number of the bridge module Page 33 Station number setting switch Set the number of transmission points of the AnyWireASLINK Page 33 AnyWireASLINK Side Connector for CC Link IE Field Network cable L Page 23 CC Link IE Field Network Side Connector LED name Description Indicates the frame loss status of the target port On Frame loss Off No frame loss Indicates the link status On Link up Off Link down 6 AnyWireASLINK side terminal A transmission cable terminal block of the AnyWireASLINK K Page 23 AnyWireASLINK Side Terminal Block block 2 SPECIFICATIONS 2 4 Part Names 20 3 MOUNTING MODULE Mount the module on a DIN rail before use L yf mounting a module Since the bridge module radiates heat place it in airy place in the direction shown below DIN rail Vertical installation b
53. ber setting switch 33 TAONG senora as astra RR da 25 Terminating UNit o o ooooooo 12 32 TE MS ad torso ora as taa o e 12 Transmission cable voltage drop error 35 Transmission cycle time 12 Transmission delay time Tf Tree branch i nsu ure dei ad See ced 25 Troubleshooting llle 79 MEMO 95 REVISIONS The manual number is given on the bottom left of the back cover August 2014 SH NA 081380ENG A First edition December 2014 SH NA 081380ENG B Error correction March 2015 SH NA 081380ENG C Revision due to the addition of the functions Japanese manual number SH 081379 C 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 O 2014 MITSUBISHI ELECTRIC CORPORATION 96 WARRANT Y Please confirm the following product warranty details before using this product 1 Gratis Warranty Term and Gratis Warranty Range If any faults or defects hereinafter Failure found to be the responsibility of Mitsubishi occurs during use of the product within the gratis warranty term the product shall be repaired at no cost via the sales representative or Mitsubishi Service Company However
54. ble distance is within 200m The network can be configured by using existing cable with less restrictive use of cables The wiring cost can be reduced by using 2 wire cable Space saving The system needs much less space because of small type slave modules of the AnyWireASLINK With ASLINKAMP the sensor head of any manufacturer can be used Improvement of RAS function The system start up time can be reduced by checking whether a slave module is connected or by detecting an ID setting error of each slave module The place where any problem fault or failure occurring can be early detected from the upper system by notifying the disconnection of the sensor or actuator connected The failure such as disconnection can be predicted and temporary stop of production lines can be prevented by notifying the input level reduction of the sensor The product life can be checked in advance by monitoring the power on time of the slave module light reduction of the sensor or on off counts of the actuator iQ Sensor Solution functions iQ Sensor Solution provides automatic detection of the bridge module connected via CC Link IE Field Network It also allows the parameter setting and monitoring of the slave modules connected to AnyWireASLINK 1 2 System Configuration of AnyWireASLINK The following table lists the maximum number of modules that can be connected in one AnyWireASLINK system side Module Maximum number of connections Bridge module 1 Sl
55. cations procedures before operation system configuration wiring and communication examples of Ethernet CC Link IE Controller Network and CC Link IE Field Network Functions parameter settings programming troubleshooting I O signals and buffer memory of CC Link IE Field Network Overview of the CC Link IE Field Network and specifications procedures before operation system configuration installation wiring settings functions programming and troubleshooting of the MELSEC Q series master local module Overview of the CC Link IE Field Network and specifications procedures before operation system configuration installation wiring settings functions programming and troubleshooting of the MELSEC L series master local module MELSEC Q L AnyWireASLINK Master Module User s Manual SH 081094ENG 13JZ70 Specifications procedures before operation system configuration installation wiring settings functions programming and troubleshooting of the AnyWireASLINK master module iQ Sensor Solution Reference Manual SH 081133ENG 13JV28 Operating methods of iQ Sensor Solution such as programming and monitoring MEMO 10 CONTENTS COPYRIGHT ose reactor AA NE eee 1 PRECAUTIONS REGARDING WARRANTY AND SPECIFICATIONS 0 0 00000 ccc ees 1 SAFETY PRECAUTIONS 424 524 ure ee bees Oe aes oes Bec oe a ee d ast ee eee poetas Bada e eee 2 CONDITIONS OF USE FOR THE PRODUCT 2222 a 9 COMPLIANCE WITH EM
56. ck circuit external to the AnyWireASLINK system Installation Precautions CAUTION Use the module in an environment that meets the general specifications in this manual Failure to do so may result in electric shock fire malfunction or damage to or deterioration of the product Securely fix the module with a DIN rail Shut off the external power supply all phases used in the system before mounting or removing the module Failure to do so may result in damage to the product Do not directly touch any conductive parts and electronic components of the module Doing so can cause malfunction or failure of the module Wiring Precautions NWARNING Shut off the external power supply all phases used in the system before installation and wiring Failure to do so may result in electric shock or damage to the product Wiring Precautions NCAUTION Individually ground the FG and LG terminals of the programmable controller with a ground resistance of 100 ohms or less Failure to do so may result in electric shock or malfunction Tighten the terminal block screws within the specified torque range Undertightening can cause short circuit fire or malfunction Overtightening can damage the screw and or module resulting in drop short circuit fire or malfunction Prevent foreign matter such as dust or wire chips from entering the module Such foreign matter can cause a fire failure or malfunction Incorrect wiring may
57. ck that the pin assignment is correct Check that the 24VDC external power supply is properly connected to the terminal block of the bridge module or the slave module Check that there is no short circuit or incorrect wiring and screws are tightened within the specified torque range LM LED of the bridge module is flashing at 1 second intervals Check the signal wire of the transmission cables DP DN Check the wiring of terminal blocks Check that the current consumption of the AnyWireASLINK system is within the specified range 92 10 TROUBLESHOOTING 10 4 Troubleshooting of Bridge Module Check that the transmission cables are not short circuited When crimping the link connector check that the pin assignment is correct Check that the transmission cables are not in contact with each other and that there is no incorrect wiring in the terminal block wiring of the bridge module and the slave module Correct the cables wire diameter total length and modules type the number of connected modules so that the total current consumption of all the slave modules does not exceed the transmission cable supply current of the bridge module ALM LED of the bridge module is turned on Check the signal wire of the transmission cables DP DN Check that the transmission cables entire cables are free from disconnection Check that the cables have been crimped with proper pin assignment using link connectors appropriate to the wire
58. ctives Additional measures To ensure that this product maintains EMC and Low Voltage Directives please refer to the following K Page 89 EMC and Low Voltage Directives INTRODUCTION Thank you for purchasing the CC Link IE Field Network AnyWireASLINK bridge module hereafter abbreviated as bridge module This manual describes the procedures system configuration parameter settings functions and troubleshooting of a bridge module Before using this product please read this manual and the relevant manuals carefully and develop familiarity with the functions and performance of the bridge module to handle the product correctly When applying the program examples provided in this manual to an actual system ensure the applicability and confirm that it will not cause system control problems Point Unless otherwise specified this manual describes the program example in which the station number of the bridge module is set to 1 For details on station numbers refer to the following User s manual for the master local module used RELEVANT MANUALS Id Network MELSEC iQ R Ethernet CC Link IE User s Manual Startup SH 081256ENG 13JX09 MELSEC iQ R CC Link IE Field Network User s Manual Application SH 081259ENG 13JX18 MELSEC Q CC Link IE Field Network Master Local Module User s Manual SH 080917ENG 13JZ47 MELSEC L CC Link IE Field Network Master Local Module User s Manual SH 080972bNG 13JZ54 Specifi
59. current consumption 0 3A External dimensions 102mm H x43mm W x96mm D Weight 0 2kg 1 Forthe number of points used in the bridge module refer to the following E Page 34 MEMORY MAP 2 For wiring of 50m or more with 4 wires DP DN 24V OV insert the noise filter for power supply cables between the power supply and cables For details refer to the manual for the AnyWireFILTER ANF 01 manufactured by Anywire Corporation 3 Forthe relationship among the total length the wire diameter of connection cable and the transmission cable supply current refer to the following On some slave modules with cables the diameter of module integrated cables may be less than 0 75mm However they can be used without any problem provided that the diameter of connection cables meets the requirement below 2 SPECIFICATIONS 4 2 2 Performance Specifications T 2 3 Applicable Systems Applicable master local modules Master local modules that can be used are listed on the website of CC Link Partner Association CLPA For the website of CC Link Partner Association CLPA refer to the following www cc link org Dedicated instructions In the bridge module dedicated instructions accessing the bridge module from a master local module cannot be used 18 2 SPECIFICATIONS 2 3 Applicable Systems 2 4 Part Names LINK SET 3 2 SPECIFICATIONS 19 2 4 Part Names The module status is indicated by the LEDs Description RUN L
60. diameter Check the wiring of terminal blocks Check that the signal cables are properly connected to the terminal block of the bridge module Check that there is no incorrect wiring and screws are tightened within the specified torque range Perform the automatic address detection function When creating a new system adding or removing a slave module or changing the address of the slave module perform the automatic address detection function After the operation ends check that the number of slave modules and the address are consistent with those of the actual system Check the existence of the slave module 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 around the module the RUN LED of the bridge module is not turned on Check that the voltage of the bridge module power supply supplied If the RUN LED does not turn on after powering on the bridge module hardware from the external power supply reaches that of the performance failure may occur Please consult your local Mitsubishi representative specifications Check that a hardware failure or a watchdog timer error has not occurred Check that the startup mode switch is set to the SET side Do not keep the switch on the SET side MODE LED of the bridge module is off Check that a hardware failure has not occurred If the RUN LED does not turn on after power
61. dule may be in failure Please consult your local Mitsubishi representative 10 TROUBLESHOOTING 10 6 List of Error Codes 87 88 APPENDICES Appendix 1 Checking Serial Number and Function Version The serial number and function version of the bridge module can be checked on the rated plate The rated plate is located on the side of the bridge module s MITSUBISHI powered by Anywire MODEL Function version SERIAL Serial number pnm E Relevant regulation standards MITSUBISHI ELECTRIC CORPORATION MADE IN JAPAN SEENZ2AW1GFALinstruction manual APPENDICES Appendix 1 Checking Serial Number and Function Version Appendix 2 EMC and Low Voltage Directives Compliance with the EMC Directive which is one of the EU directives has been mandatory for products sold within EU member states since 1996 as well as compliance with the Low Voltage Directive since 1997 For products compliant to the EMC and Low Voltage Directives their manufacturers are required to declare compliance and affix the CE marking Sales representative in EU member states The sales representative in EU member states is Company Mitsubishi Electric Europe BV Address Gothaer Strasse 8 40880 Ratingen Germany Measures to comply with the EMC Directive The EMC Directive sets requirements for emission conducted and radiated electromagnetic interference emitted by a product and immunity the ability of a product not to be
62. e The parameter access signal transferred from the bridge module is corrupt Check that the following errors have not occurred lt Page 72 How to recover from parameter access error Slave module hardware error Slave module status error e Same ID used error If the above errors have not occurred check that the module is not affected by noise 0131H 0190H 0191H 01F4H Slave module status error Same ID used error No ID setting error Backup data error The slave module has provided notification of the error status Check the status details of the target module and eliminate the error cause IDs addresses are duplicated in the connected slave modules Check the alarm ID information in the specified device of the CPU module to locate the error ID and perform the following action Check the ID address setting of the slave module and set a unique address in the slave module There is a slave module where ID is not set set to factory default e Set an address of the slave module e Check that 255 is not set to the address of the slave module The data backed up in the SD memory card of the CPU module is broken Check that the module is not affected by noise and perform the following actions Reset the CPU module and set it to RUN status again Restore with a normal backup data Set the write protect switch of the SD memory card to off writable e If the error occurs again the bridge mo
63. e errors occur simultaneously the latest error is displayed 2 Reset the AnyWireASLINK system or turn on and off Error reset request flag RYnO The following status is resulted e Slave module alarm signal RX n 1 0 turns off The value in Latest error code storage area RWrn 0 is cleared The value in Latest error ID storage area RWrn 1 is cleared BHow to recover from parameter access error 1 Clearthe parameter access error Check that the following errors have not occurred When an error occurs eliminate the error cause e Slave module hardware error e Slave module status error e Same ID used error When the parameter access error occurs without the above errors the possible cause is noise Eliminate the error cause by taking measures such as noise prevention Even when parameter access error is cleared the following status is maintained ON state of Parameter access error RX n 1 2 he value 0130H stored in Latest error code storage area RWrn 0 The error ID stored in Latest error ID storage area RWrn 1 1 If multiple errors occur simultaneously the latest error is displayed 2 Reset the AnyWireASLINK system or turn on and off Error reset request flag RYnO The following status is resulted Parameter access error RX n 1 2 turns off The value in Latest error code storage area RWrn 0 is cleared The value in Latest error ID storage area RWrn 1 is cleared BHow to recover from same I
64. e module can be checked with the following LEDs When the LEDs are in the following status settings and wiring need to be corrected 1 Check all LEDs of the bridge module If all LEDs of the bridge module are off even after power on perform the following troubleshooting 3 Page 82 When all the LEDs of the bridge module are off even after power on 2 Check the LINK LED of the bridge module If the LINK LED does not turn on or flash even after power on perform the following troubleshooting KL Page 82 When the LINK LED does not turn on or flash after power on If the LINK LED does not flash perform the following troubleshooting K Page 82 When the LINK LED of the bridge module does not flash 3 Check the ALM LED of the bridge module If the ALM LED is flashing at 0 2 second intervals perform the following troubleshooting KL Page 82 When the ALM LED of the bridge module is flashing at 0 2 second intervals If the ALM LED is flashing at 1 second intervals perform the following troubleshooting 3 Page 82 When the ALM LED of the bridge module is flashing at 1 second intervals If the ALM LED is on perform the following troubleshooting K Page 83 When the ALM LED of the bridge module is turned on 4 Check the RUN LED of the bridge module If the RUN LED does not turn on perform the following troubleshooting K Page 83 When the RUN LED of the bridge module is not turned on 5 Checkthe MODE LED of the bridge module If the MODE
65. e modules are connected and operating normally e When adding a slave module after starting the system operation e When removing a slave module after starting the system operation e When changing the address of a slave module after starting the system operation BIDo not perform the following operation during the automatic address detection Automatic address detection operation Parameter access operation BAfter performing the automatic address detection check the following Check the on off status of Latest error ID storage area RWrn 1 and Slave module alarm signal RX n 1 0 Implement necessary actions when an error occurs Page 79 Before Troubleshooting Check the information Number of the IDs of the connected modules RWrn 2 Connected module ID information storage area RWrn 3 to RWrn 130 in the memory that stores the AnyWireASLINK system information to ensure that there is no difference between the system configuration and the IDs registered in the bridge module llPerform the following for a slave module that has the same ID address as other slave modules or where an ID address is not set Use an address writer to set the ID address in the slave module Then execute the automatic address detection function again When performing the automatic address detection execute the operation after setting the CPU module to STOP status and pressing the SET switch of the bridge module e Data transfer of I O signal
66. emory areas of the master local module refer to the user s manual for the master local module used 6 MEMORY MAP 6 5 Buffer Memory 47 48 6 6 Error Reset Remote READY RXn0 turns on after power on Error flags turn on when an error occurs Error flags are reset by turning on Error reset request flag RYnO provided that the error cause has been eliminated Remote READY RXn0 is reset on to off when an error occurs Remote READY RXn0 remains reset off unless Error reset request flag RYn0 is turned off Error flag DP DN disconnection ON DP DN short parameter access error or others OFF Error reset request flag RYnO OFF An error occurred The flag is turned on using the user program after the error ON Remote READY RXn0 EM Oan n 6 MEMORY MAP 6 6 Error Reset r SETTINGS BEFORE OPERATION 7 1 Settings of Slave Module Slave module address setting Setting the start number of the address assigned in the transmission frame is required for slave modules An address can be written to a slave module or the address assigned to a slave module can be read through infrared communications using an address writer manufactured by Anywire Corporation For details refer to the manual of the address writer used provided by Anywire Corporation Bl Image of address reading writing Address setting port receiving part In the slave module an address between O and 254 can be writ
67. eneric term for modules that communicate data with a bridge module A waveform shaper A signal cable that connects between a slave module and a bridge module A data sampling interval PACKING LIST The following items are included in the package of this product Before use check that all the items are included MITSUBISHI MEISE E NUR EJ HUMAN DE CTI w NZ2AW1GFAL Before Using the Product 13 1 OVERVIEW The bridge module a product of the joint development project with Anywire Corporation allows the AnyWireASLINK system to be connected with CC Link IE Field Network The AnyWireASLINK system provides a high speed and highly reliable sensor system For the CC Link IE Field Network refer to the following LA User s manual for the master local module used Master local module CC Link IE Field Network Bridge module E3 Par T BE z274 af 2 AA Avia a E BB ES STATION NO E mozaly jad Boose la 29 a m e zm AnyWireASLINK terminating unit E am o s n ASLINKER ASLINKAMP Cylinder switch or Sensor head others ME 1 Manufactured by Anywire Corporation 1 OVERVIEW 14 1 1 Features Seamless connection between two systems CC Link IE Field Network and AnyWireASLINK can be seamlessly connected Improvement of wiring flexibility The AnyWireASLINK allows flexible branches and connections if the overall ca
68. ength of 100m is sufficient to configure a system in the following conditions Condition Non isolated slave module Input ASLINKER Number of I O points 2 points Module current consumption 15mA Number of modules 24 Connected load three wire sensor Three wire sensor current consumption 13mA Number of sensors 2 per module Power supply voltage 24VDC 10 Wire diameter of transmission cables DP DN Wire diameter 1 25mm Power supply for the bridge module Power supply voltage 24VDC Calculation result Condition 1 Ihin A x m I A x The maximum transmission cable supply current 0 015 0 013 x 2 x 24 0 984A lt 1A Satisfied Condition 2 Vm V AV V 2 20V 24 0 984 x 100 x 0 015 x 2 24 2 95 21 05V gt 20V gt Satisfied Condition 3 Vm V AV V gt The lowest limit of the allowable voltage range for connected load The lowest limit of the allowable voltage range for connected load 24 24 x 0 1 21 6V 21 05V 21 6V Not satisfied The calculation results 1 to 3 above show that no system can be configured However a system can be configured by changing the power supply for the bridge module to 24 55VDC or higher 4 CONNECTIONS 29 4 4 Supplying Power to a Bridge Module 30 4 5 Checking System Before Power on This section describes the items to be checked before power on 1 2 Check that the module is mounted or connected correctly Page 21 MOUNT
69. erating normally e Check that a 1000BASE T compliant switching hub is used QA User s manual for the master local module used Check that the switching hub is powered on Check that the bridge module does not have the same station number The bridge module has two or more station numbers as the that of other stations Change the settings of all the station numbers to different settings 10 TROUBLESHOOTING 10 4 Troubleshooting of Bridge Module 83 D LINK LED of the bridge module is flashing Check that the station number of the bridge module specified in the Match the station number specified in the network configuration setting of the master network configuration setting of the master station is the same as the station with that of the bridge module station number setting of the bridge module Check that the station type is set to the intelligent device station In the network configuration setting of the master station change the station type of the module to the intelligent device station Check that reserved station is not selected In the network configuration setting of the master station change the setting of the reserved error invalid station to the setting other than the reserved station Check that the link is not stopped using the CC Link IE Field Network Check the link status using the CC Link IE Field Network diagnostics and start the diagnostics link when the link has stopped Check that the number of the st
70. etection function gt Page 75 iQ Sensor Solution functions 0 2 Function Details CC Link IE Field Network diagnostics This function checks whether a network error occurs or not using GX Works2 connected to the master station ing diagnostics 1 Connect GX Works2 to the master station 2 Startthe CC Link IE Field Network diagnostics from the menu in GX Works2 O Diagnostics gt CC IE Field Diagnostics Select Diagnostics Destination Module Module 1 Network No 1 Change Module ri Station No 2 ET Monitoring Start Monitor Network Status E St Info By Station Type v Total Slave Stations Total Slave Stations Current Link Number of Station Set In Parameter Connected Scan Time 1 ms Errors Detected na Legend Selected Station Communication Status Monitor Operation Test Communication Test check me transient communicauon route mom me connected station to the destination station Check the communication route whether you can reach IP Communication Test Pl bal communication target station from the specified station 1 EET Check the cable status between the connected station and the destination station Link Start Stop Start or stop the network data link Network Event History Access the network the event history log Reserved Station View reserved station numbers and temporarily enable A The selected module can
71. ff e The ALM LED turns off The value of latest error information is cleared 8 FUNCTIONS 8 2 Function Details 69 Transmission cable voltage drop detection function This function detects a voltage drop in the 24VDC external power supply enabling the bridge module to detect a failure in the 24VDC external power supply or a wiring error Transmission cable voltage drop status When the system is in the following status a voltage drop in the 24VDC external power supply has been detected e The ALM LED flashes at 0 2 second intervals Transmission cable voltage drop error RXn3 turns on 00C8H is stored in Latest error code storage area RWrn 0 e OFFFH is stored in Latest error ID storage area RWrn 1 The bit transmission stops 1 If multiple errors occur simultaneously the latest error is displayed How to recover from the transmission cable voltage drop status How to recover from the transmission cable voltage drop is as follows 1 Checkthe voltage of the 24VDC external power supply and replace the power supply or check the wiring as necessary When the transmission cable voltage drop status is cleared bit transmission is resumed automatically If the status does not change the transmission cable voltage drop has not been eliminated Therefore check the system again The following status is maintained ON state of Transmission cable voltage drop error RXn3 e Flashing of the ALM LED Latest error infor
72. ge area RWrn 261 to RWrn 388 Error ID information area input O to 255 output O to 255 RWrn 837 to RWrn 900 e Alarm ID information area input O to 255 output O to 255 RWrn 901 to RWrn 964 Poin tp Resetting the bridge module also turns off the input signals and clears each error status Automatic address detection command Automatic address detection command RYn1 is turned on and off to perform the automatic address detection function Parameter access request command for the slave module Parameter access request command for the slave module RY n 1 0 is turned on to read or write parameters to the slave module from the bridge module When this signal is turned on Parameter access completion flag RX n 1 1 turns off Parameter batch read command for the slave module Parameter batch read command for the slave module RY n 1 1 is turned on to read the parameters of all the slave modules detected by the bridge module When this signal is turned on Parameter access completion flag RX n 1 1 turns off Parameter batch write command for the slave module Parameter batch write command for the slave module RY n 1 2 is turned on to write parameters to all the slave modules detected by the bridge module When this signal is turned on Parameter access completion flag RX n 1 1 turns off 6 MEMORY MAP 6 2 Details of Remote l O Signals 37 AnyWireASLINK output signal When the on off status data on 1 off 0 of the out
73. he 24VDC external power supply or a wiring error Parameter access error detection function Same ID number used detection function Detects ID duplication in the slave modules When ID duplication is detected the LEDs of the corresponding slave modules are forced to turn on Module with no ID number setting detection Detects slave modules whose ID is not set ID is set to factory default function Q Sensor Solution compatible functions Exchanges I O data of up to 512 points input 256 points output 256 the connected slave module when the SET switch on the front of the bridge module is pressed or Automatic address detection command Detects errors that occur during reading or writing of the parameters of a slave module Establish data communication with AnyWireASLINK compatible slave modules via CC Link and AnyWireASLINK Reference 3 Page 63 CC Link IE Field Network diagnostics K Page 64 Unit test gt Page 65 Bit transmission function gt Page 65 Parameter reading writing function gt Page 51 Automatic Address Detection gt Page 68 Transmission cable short detection function KL Page 69 Disconnected transmission cable location detection function gt Page 70 Transmission cable voltage drop detection function gt Page 71 Parameter access error detection function gt Page 73 Same ID number used detection function gt Page 74 Module with no ID number setting d
74. he end of the operation AnyWireASLINK input signal The on off status on 1 off 0 of the input signal of the slave module is automatically stored in AnyWireASLINK input signal RX n 4 0 to RX n 19 F Ex For a 2 point input slave module address 10 The two bits A and B of RX n 4 are occupied for the input signal because the setting address is 10 Area with the setting address of 10 Remote input NY nputdatabitNo AN E aba 11 10 5 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 9 98 97 96 Input area 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 256 points 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 223 222 221 220 219 218 217 216 215 214 213 212 211 210 209 208 RX n 19 255 254 253 252 251 250 249 248 247 246 245 244 243 242 241 240 6 MEMORY MAP 6 2 Details of Remote I O Signals Output signals Error reset request flag Turn on and off Error reset request flag RYnO to turn off the following input signals or clear each error information DP DN short error RXn1 Transmission cable voltage drop error RXn3 DP DN disconnection error RXn4 e Slave module alarm signal RX n 1 0 e Parameter access error RX n 1 2 Latest error code storage area RWrn 0 Latest error ID storage area RWrn 1 e Number of the error IDs RWrn 131 Error ID information storage area RWrn 132 to RWrn 259 e Number of the alarm IDs RWrn 260 e Alarm ID information stora
75. idge module The transmission cycle time is the time required for the bridge module and all the slave modules to update l O data The following table lists the transmission cycle time of the bridge module Transmission I O points setting One transmission cycle time 64 points input 32 points output 32 points 2 3ms 128 points input 64 points output 64 points 3 5ms 256 points input 128 points output 128 points 5 9ms 512 points input 256 points output 256 points 10 6ms Effects of the double check system Minput Unless the same data is received twice successively on the bridge module side the input area data is not updated A minimum of one transmission cycle time and a maximum of two transmission cycle time are required for the data response Therefore signals of two transmission cycle time or less may not be captured depending on the timing To ensure the response to the input signal provide an input signal that is longer than two transmission cycle time Sampling timing Sampling timing Minimum data IO rr AER response time Input data change Input data update Sampling timing Sampling timing Sampling timing Maximum data gt fremm oftworanamion e E response time Input data change Input data update Output As the double check is performed on the slave module side the time required is the same as that for input namely a minimum of one transmission cycle time and a maximum of two transmission cycle time
76. in RWrn 805 is 0020H when only the module with an ID of 5 is connected among the modules with an ID of O to 15 baina wems rrIslcelsIA s elvls sIa 3TAT3T3 Pama mimes is e ds de dido e e T e s s so 2 1 31 29 20 19 18 17 16 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 223 222 221 220 219 218 217 216 215 214 213 212 211 210 209 208 RWrn 787 RWrn 313H 239 238 237 236 235 234 233 232 231 230 229 228 227 226 225 224 RWrn 788 RWrn 314H 255 254 253 252 251 250 249 248 247 246 245 244 T 242 241 240 Poems Hoxedesmall FET DL elelalelel7 s s sl2 lilo RWm 325H LS M 13 12 oq 9 s 7 ope 4 3 2 1 0 34 33 32 RWrn 808 RWrn 328H 63 62 61 E 51 50 49 48 RWrn 809 RWrn 329H EM NEAR a 67 66 65 64 with the ID of 5 is RWrn 810 RWrn 32AH B connec ad 83 82 81 80 RWrn 811 RWrn 32BH 111 110 109 108 107 106 106 n 99 98 97 96 RWrn 812 RWrn 32CH 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 RWrn 813 RWrn 32DH 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 RWrn 814 RWrn 32EH 159 158 157 156 155 154 153
77. ing read or write and the target slave module Parameter access batch read Reads all the parameter values of all slave modules to the specified device of the CPU module Parameter access batch write Writes all the parameter values of all slave modules according to the setting of the specified device of the CPU module The following table lists readable writable parameters paaa pano E A ho NG MAAN 620 5 o HO LT 2 e Ct Bar quw E HOO A YO ja Err mee Ig 1 JS Je 1 Device parameter names vary depending on the slave module Executing parameter access parameter access batch read or parameter access batch write does not lower the bit transmission speed 8 FUNCTIONS 8 2 Function Details 65 66 Automatic update No special operation is required for automatic update Parameter access The procedures for executing parameter access are as follows llReading parameters 1 Specify the access method Store 0000H read in Parameter access setting RWwn 0 2 Specify the access target ID Store the access target ID in Parameter access target module ID specification RWwn 1 ID Description 0000H to OOFFH ID of the output slave module 0200H to 02FFH ID of the input slave module or I O combined slave module 3 Turm on Parameter access request command for the slave module RY n 1 0 At this time Parameter access completion flag RX n 1 1 also turns on to complete the access 4 Parameters that have been read are
78. ing on the bridge module hardware failure may occur Please consult your local Mitsubishi representative MODE LED of the bridge module is flashing Check that the bridge module is performing the unit test If the bridge module is performing the unit test the D LINK LED of the CC Link IE Field Network side turns on when the unit test is finished Take action depending on the result of the unit test 2 D LINK LED of the bridge module is off Check the own station on the network is operating normally Connect GX Works2 to the master station and check if the master station is performing data link using the CC Link IE Field Network diagnostics LZ User s manual for the master local module used Check that 1000BASE T compliant Ethernet cable are used Replace the cables with 1000BASE T compliant Ethernet cable QA User s manual for the master local module used Check that the station to station distance of the Ethernet cable is within Change the station to station distance of the Ethernet cable to 100m or less 100m Check that the cabling condition bending radius is within the specified Refer to the manual for the Ethernet cable and correct the bending radius range Check that the Ethernet cables are not disconnected Replace the Ethernet cable Check other stations connected to the bridge modules are operating Check that the systems on other stations are powered on normally Check that the switching hub used is op
79. ion cable supply current refer to the following gt Page 17 Performance Specifications Scope of the power supply with transmission cables DP and DN The current consumption of the system must satisfy all the conditions specified by the following calculation formulas 1 to 3 for each bridge module Condition Calculation formula Description 1 I A Ihin x m Iho x n Izdin x p Izdo x q lt The Ihin Current consumption of the non isolated input module maximum value of transmission cable supply current 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 m Number of connected non isolated input modules n Number of connected non isolated output modules p Number of connected isolated input modules q Number of connected isolated output modules For details refer to the following gt Page 27 Description of the condition 1 2 Vm V AV V gt 20V Vm Supply voltage for the bridge module AV Cable to cable voltage drop For details refer to the following gt Page 29 Description of the conditions 2 and 3 3 Vm V AV V gt The lowest limit of the allowable voltage range for connected load 4 CONNECTIONS 4 4 Supplying Power to a Bridge Module llDescription of the condition 1 Constants related to the non isolated slave module Ihin Iho In the non iso
80. ion in the transmission cables DP DN or that of the slave module reset the bridge module or turn on and off Error reset request flag RYnO Until then this signal remains on 6 MEMORY MAP 6 2 Details of Remote l O Signals 35 36 Slave module alarm signal Slave module alarm signal RX n 1 0 turns on when a status error including I O disconnection and short circuit occurs in the slave module or an error occurs in the address setting of the slave module lITurning off Slave module alarm signal To turn off Slave module alarm signal RX n 1 0 after removing the status error including I O disconnection and short circuit in the slave module or re setting the address of the slave module reset the bridge module or turn on and off Error reset request flag RYnO Until then this signal remains on Parameter access completion flag Parameter access completion flag RX n 1 1 turns on when parameter access is complete Parameter access error Parameter access error RX n 1 2 turns on when an error occurs due to noise or other causes during parameter access llTurning off Parameter access error To turn off Parameter access error RX n 1 2 after removing the error reset the bridge module or turn on and off Error reset request flag RYnO Until then this signal remains on Automatic address detection flag Automatic address detection flag RX n 1 4 remains on after the start of automatic address detection operation until t
81. lated slave module the current required for the internal control circuit and the connected load is supplied with transmission cables DP DN Ihin A Current consumption of the non isolated input module Internal current consumption of the non isolated input module Current consumption of connected load three wire sensor x Number of points Iho A Current consumption of the non isolated output module Internal current consumption of the non isolated output module Current consumption of connected load x Number of points Non isolated slave module Control circuit E Power supply generation Bridge module Connected load 24VDC external power supply Poin 72 The 24VL and OVL terminals of a slave module are used to supply the power to the connected load For the current consumption of a non isolated slave module refer to the manual for the slave module used 4 CONNECTIONS 27 4 4 Supplying Power to a Bridge Module 28 e 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 24VDC external power supply Izdin A Internal current consumption of the isolated input module Izdo A 7 Internal current consumption of the isolated output module Isolated slave module Control circuit Brage
82. lave module alarm signal RX n 1 0 Number of the IDs of the connected modules When the automatic address detection function is executed the number of IDs of the slave modules detected is stored in Number of the IDs of the connected modules RWrn 2 Up to 128 The number of IDs stored is maintained even after power off Connected module ID information storage area The ID information of all the slave modules connected to the master local module is stored in Connected module ID information storage area in ascending order when the automatic address detection function is executed Any of the following is stored e 0000H to OOFFH ID of the output slave module e 0200H to 02FFH ID of the input slave module or I O combined slave module The number of IDs stored is maintained even after power off Number of the error IDs Among the IDs of the slave modules connected the number of IDs with a response error is stored in Number of the error IDs RWrn 131 at power on or after the automatic address detection function is executed Up to 128 The stored value is maintained until the bridge module is reset or Error reset request flag RYnO is turned on after the error is cleared 6 MEMORY MAP 6 4 Details of Remote Register Areas Error ID information storage area The response error ID information is stored in Error ID information storage area RWrn 132 to RWrn 259 in ascending order Up to 128 Any of the following is stored e 0000H to OOF
83. m signal RX n 1 0 turns off e The value in Latest error code storage area RWrn 0 is cleared The value in Latest error ID storage area RWrn 1 is cleared 8 FUNCTIONS 1 8 2 Function Details T 72 llHow to recover from the parameter access target module ID error status 1 Eliminate the error cause such as a parameter access program Even when parameter access target module ID error is cleared the following status is maintained ON state of Slave module alarm signal RX n 1 0 The value 012EH stored in Latest error code storage area RWrn 0 e The value OFFFH stored in Latest error ID storage area RWrn 1 1 If multiple errors occur simultaneously the latest error is displayed 2 Resetthe AnyWireASLINK system or turn on and off Error reset request flag RYnO The following status is resulted e Slave module alarm signal RX n 1 0 turns off The value in Latest error code storage area RWrn 0 is cleared The value in Latest error ID storage area RWrn 1 is cleared llHow to recover from parameter value error How to recover from parameter value error is as follows 1 Eliminate the error cause such as a parameter access program Even when parameter value error is cleared the following status is maintained ON state of Slave module alarm signal RX n 1 0 he value 012FH stored in Latest error code storage area RWrn 0 The error ID stored in Latest error ID storage area RWrn 1 1 If multipl
84. mation 1 If multiple errors occur simultaneously the latest error is displayed 2 Resetthe bridge module or turn on and off Error reset request flag RYn0O The following status is resulted Transmission cable voltage drop error Xn3 turns off e The ALM LED turns off The value of latest error information is cleared Poin tp For the specifications of the 24VDC external power supply to the bridge module refer to the following gt Page 17 Performance Specifications 70 8 FUNCTIONS 8 2 Function Details Parameter access error detection function This function detects errors that occur during reading or writing of the parameters of a slave module The following parameter access errors are detected e Slave module hardware error Error code 012CH 012DH Parameter access target module ID error Error code 012EH Parameter value error Error code 012FH Parameter access error Error code 0130H e Slave module status error Error code 0131H e Same ID used error Error code 0190H No ID setting error Error code 0191H Parameter access error status The following table lists parameter access error statuses The error ID is stored 012CH The error code is stored 012DH Slave module alarm signal RX n 1 0 turns on Slave module hardware error 012EH Parameter access target Slave module alarm No indication The error code is stored OFFFH is stored module ID error signal R
85. modale Load driving circuit photocoupler Connected load 24VDC external 24VDC external power supply power supply Point 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 the slave module used e Transmission cable supply current I A The transmission cable supply current in the AnyWireASLINK system is determined by the following formula A Ihin x m Iho x n Izdin x p Izdo x q Number of connectable modules m n p q e Maximum transmission cable supply current For the maximum transmission cable supply current refer to the following gt Page 17 Performance Specifications 4 CONNECTIONS 4 4 Supplying Power to a Bridge Module llDescription of the conditions 2 and 3 e Vm Supply voltage for the bridge module Voltage 21 6 to 27 6VDC 24VDC 10 to 15 ripple voltage 0 5Vp p or lower Recommended voltage 26 4VDC 24VDC 10 e AV V Cable to cable voltage drop AV V Transmission cable supply current I A x Cable resistance R Q Cable resistance R 2 Cable length m x Conductor resistance Q m x 2 Wire diameter 1 25mm Conductor resistance 0 015Q m Wire diameter 0 75mm Conductor resistance 0 025Q m llCalculation example The example shows how to check whether the total l
86. n 933 to RWrn 3A5H to Alarm ID information area RWrn 964 RWrn 3C4H input O to 255 3B5H to 3C4H use prohibited RWrn 965 to RWrn 3C5H to Use prohibited RWrn 1023 RWrn 3FFH RWrn 105H to Alarm ID information RWrn 184H storage area n Address assigned to the master station in the station number setting 6 MEMORY MAP 39 6 3 Lists of Remote Register Areas 40 6 4 Details of Remote Register Areas Latest error code storage area Hardware errors detected in the bridge module and the latest error code of the AnyWireASLINK system are stored in Latest error code storage area RWrn 0 For error codes stored refer to the following K Page 79 Before Troubleshooting Latest error ID storage area The error ID of the module targeted for the latest error code is stored in Latest error ID storage area RWrn 1 The following table lists error codes stored Error code Remote input signal turned on when the error occurs DOCAH DP DN disconnection error RXn4 012CH Slave module alarm signal RX n 1 0 012DH oras CT CE For the following error codes the value OFFFH is stored in Latest error ID storage area RWrn 1 Error code Description Remote input signal turned on when the error occurs 0064H Hardware failure 0065H 0066H 0067H 00C8H Transmission cable voltage drop error Transmission cable voltage drop error RXn3 00C9H DP DN short error DP DN short error RXn1 012EH Parameter access target module ID error S
87. nder discussion Startup and Maintenance Precautions NWARNING O Do not touch any terminal while power is on Doing so will cause electric shock or malfunction Shut off the external power supply all phases used in the system before cleaning the module or retightening the terminal block screws Failure to do so may result in electric shock Startup and Maintenance Precautions NCAUTION O Do not disassemble or modify the module Doing so may cause failure malfunction injury or a fire O Shut off the external power supply all phases used in the system before mounting or removing the module Failure to do so may cause the module to fail or malfunction O Tighten the terminal block screws within the specified torque range Undertightening can cause drop of the component or wire short circuit or malfunction Overtightening can damage the screw and or module resulting in drop short circuit or malfunction O After the first use of the product do not connect disconnect the terminal block more than 50 times in accordance with IEC 61131 2 Exceeding the limit may cause malfunction O Before handling the module touch a conducting object such as a grounded metal to discharge the static electricity from the human body Failure to do so may cause the module to fail or malfunction Disposal Precautions NCAUTION O When disposing of this product treat it as industrial waste CONDITIONS OF USE FOR THE PRODUCT 1 Mit
88. not be displayed because it is not supported 2 Function Enable reserved stations Enable Disable Temporary ee ee ee Error Invalid Station tempor 5 Selected Station Operation CPU status of the selected station can be checked by starting system monitor of the selected station Change the operation state run reset stop etc of the selected station System Monitor Remote Operation The following table lists items that can be diagnosed for the bridge module 1 Communication Test Checks if transient transmission data can be properly routed from the connected station to the communication target station Cable Test Checks the connection status of cables between the test target station and the devices connected to the port of the station Link Start Stop Starts or stops data link 2 Network Event History Displays the history of events occurred in the network Reserved Station Function Enable Enables disables temporary cancellation of the reserved station setting The station numbers set as a reserved station can also be checked in list form Enable Disable Ignore Station Errors Sets cancels the temporary error invalid station setting The station numbers set as a temporary error invalid station can also be checked in list form For details on each items refer to the following User s manual for the master local module used 8 FUNCTIONS 8 2 Function Details 63 64 Unit test This
89. of Mitsubishi loss in opportunity lost profits incurred to the user by Failures of Mitsubishi products special damages and secondary damages whether foreseeable or not compensation for accidents and compensation for damages to products other than Mitsubishi products replacement by the user maintenance of on site equipment start up test run and other tasks 5 Changes in product specifications The specifications given in the catalogs manuals or technical documents are subject to change without prior notice 97 98 TRADEMARKS Microsoft Windows Windows Vista Windows NT Windows XP Windows Server Visio Excel PowerPoint Visual Basic Visual C and Access are either registered trademarks or trademarks of Microsoft Corporation in the United States Japan and other countries Intel Pentium and Celeron are trademarks of Intel Corporation in the United States and other countries Ethernet is a trademark of Xerox Corp The SD and SDHC logos are either registered trademarks or trademarks of SD 3C LLC All other company names and product names used in this manual are either trademarks or registered trademarks of their respective companies p adf SH NA 081380ENG C Anywire Anywire Corporation http www anywire jp SH NA 081380ENG C 1503 MEE MODEL NZ2AW1GFAL U E MODEL CODE 134297 MITSUBISHI ELECTRIC CORPORATION HEAD OFFICE TOKYO BUILDING 2 7 3 MARUNOUCHI CHIYODA KU TOKYO 100 8310 JAPAN NAGOYA W
90. of the slave module by using the address writer For details refer to the manual for the slave module used Restriction The parameter setting of slave modules cannot be performed in the following cases e In the event of an error in the AnyWireASLINK system such as a short circuit and 24VDC external power supply voltage drop Within less than five seconds after the AnyWireASLINK system is powered on or system reset e When the automatic address detection is in progress 7 SETTINGS BEFORE OPERATION 50 7 1 Settings of Slave Module 7 2 Automatic Address Detection Automatic address detection is a function to store the IDs addresses of the connected slave modules in the EEPROM of the bridge module The parameters of the connected devices are automatically updated after the IDs are stored in the EEPROM of the bridge module and unset IDs addresses and the same IDs addresses are detected The ID address information stored in the EEPROM is held even when the module is powered off However information about unset IDs the same IDs and the parameter information of each slave module are not held Whenever starting the system or changing the system configuration set the correct addresses to all the slave modules and perform the automatic address detection Automatic address detection operation To perform the automatic address detection use the SET switch or Automatic address detection command RYn1 Using the SET switch 1 Check
91. on cable voltage drop error DP DN short error DP DN disconnection error Slave module hardware error Parameter access target module ID error Parameter value error Parameter access error 10 TROUBLESHOOTING 10 6 List of Error Codes Cause and action A malfunction has been detected in the bridge module hardware Reset the bridge module e If the error occurs again the module may be in failure Please consult your local Mitsubishi representative The voltage of the 24VDC external power supply may be lacking Adjust the power supply voltage of the 24VDC external power supply to be within the rated value 21 6 to 27 6VDC The recommended voltage is 26 4VDC Check that the power cables 24V OV are not disconnected or short circuited e When crimping the link connector check that the pin assignment is correct Check that the 24VDC external power supply is properly connected to the terminal block of the bridge module or the slave module Check that there is no short circuit or incorrect wiring and screws are tightened within the specified torque range A short circuit may be occurring in the transmission cables DP DN or the maximum supply current of the transmission cables may be exceeded Check that the transmission cables are not short circuited e When crimping the link connector check that the pin assignment is correct Check that the transmission cables are not in contact with each other and that
92. ote Register Areas Parameter status details Parameter status details RWrn 390 RWrn 393 RWrn 768 RWrn 771 indicates the status details of the ASLINK parameters The status of the slave module varies from 1 to 6 as shown below depending on the on off status of each bit For details refer to the manual for the slave module used b15 to b6 b5 b3 b2 b1 bO i t 11114 6 5 4 3 2 1 1 Module status On Drop in the voltage of the slave module Off No error 2 Sensing level status On Drop in the sensing level Off No error 3 I O disconnection ASLINKER On I O disconnection Off No error 4 I O short circuit ASLINKER On I O short circuit Off No error 5 I O voltage drop insulated slave module On No ID set Off No error 6 System reserved Parameter sensing level Parameter sensing level RWrn 391 RWrn 394 RWrn 769 RWrn 772 indicates the sensing level of the ASLINK parameters 42 6 MEMORY MAP 6 4 Details of Remote Register Areas Connected module ID information area The same information as the one stored in Connected module ID information storage area is stored in Connected module ID information area input O to 255 output O to 255 RWrn 773 to RWrn 836 When a module is connected the connected module ID information connected 1 not connected 0 of a slave module is stored in the remote register input signal bit corresponding to the ID Ex The value
93. ow Voltage Directive 0 0c eens 90 Appendix 3 Functions Added and Modified with Version Upgrade 00 00 ccc es 91 Appendix 4 External Dimensions 0 00 eee 92 INDEX 94 amu 96 WARRANTY TT Lrc Re 97 Hsc 98 CONTENTS 11 12 TERMS Unless otherwise specified this manual uses the following terms Term Address Address writer AnyWireASLINK ASLINKAMP ASLINKER Bridge module Buffer memory CC Link IE Field Network Dedicated instruction ID Master station Master local module Power cable 24V OV Remote input RX Remote output RY Remote register RWr Remote register RWw Slave module Terminating unit Transmission cable DP DN Transmission cycle time Description Device information set to a slave module to identify each node on the AnyWireASLINK network A hand held device to read write parameters including addresses from to a slave module A system where sensors at the end of a control system are connected to a programmable controller in the most suitable way With this system a bridge module can detect sensor disconnection and a user can set the I O operations of a slave module on a bridge module without using I O areas of the CPU module A generic term for sensor amplifiers that have an AnyWireASLINK interface A generic term for I O devices that have an AnyWireASLINK interface
94. pe Bridge module A MS 2 AA e Si piece A A ao es ie gt A A unit Slave i module i aa B n i Multidrop Slave i module y i Slave Slave module module a a L aal Tree branch T branch 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 It varies depending on the wire diameter of the transmission cables DP DN or the transmission cable supply current e Tree branch T branch and multidrop connections are usable in the AnyWireASLINK system e Maximum 128 slave modules can be connected e Connect one terminating unit for each system at the far end from the bridge module Poin tp The total length of the transmission distance for the AnyWireASLINK system can be calculated from A B C Note that the total length should not exceed the maximum transmission distance or the total length set for the system to branch lines 4 CONNECTIONS 2 4 3 Connecting Slave Modules 5 26 4 4 Supplying Power to a Bridge Module Method of supplying the power to the bridge module Connect a 24VDC external power supply to the bridge module The power consumed in the internal control circuits of all the slave modules of AnyWireASLINK and the external load power connected to non isolated slave modules are supplied collectively from the 24VDC external power supply connected to the bridge module For transmiss
95. put signal of the slave module is written from the CPU module the slave module automatically outputs the AnyWireASLINK output signal RY n 4 0 to RY n 19 F Ex For a 2 point output slave module address 30 The two bits E and F of RY n 5 are occupied for the output signal because the setting address is 30 Area with the setting address of 30 Remote output KA Output data bit No signal FA 10 9 8 7 6 F 14 131 29 28 26 25 24 22 22 21 2 n 10 101 99 98 97 96 1 0 19 9 111 110 109 108 107 106 105 104 103 102 100 RY ne11 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 Output area n 12 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 256 points RY n 13 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 RY n 14 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 RY n 15 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 n 19 255 254 253 252 251 250 249 248 247 246 245 244 243 242 241 240 6 MEMORY MAP 38 6 2 Details of Remote I O Signals 6 3 Lists of Remote Register Areas Input or output of AnyWireASLINK uses remote register areas of CC Link IE Field Network The following table lists remote register areas of the bridge module RWrn 0 RWrn 0H Latest error code storage RWwn 0 RWwn 0H Parameter access area setting RWrn 1 RWrn 1H Latest error ID storage area RWwn 1 RWwn 1H Parameter access target module ID
96. r data of the slave module data is unstable 80 10 TROUBLESHOOTING 10 2 Visual Inspection 10 3 Checking with Remote I O Signals When remote I O signals are on Error cause can be investigated by checking the on off status of remote I O signals liIWhen DP DN short error is on If DP DN short error RXn1 is on perform the following troubleshooting 3 Page 82 When the ALM LED of the bridge module is flashing at 1 second intervals lWhen Transmission cable voltage drop error is on If Transmission cable voltage drop error RXn3 is on perform the following troubleshooting KL Page 82 When the ALM LED of the bridge module is flashing at 0 2 second intervals When DP DN disconnection error is on If DP DN disconnection error RXn4 is on perform the following troubleshooting K Page 83 When the ALM LED of the bridge module is turned on lIWhen Slave module alarm signal is on When Slave module alarm signal RX n 1 0 is on an error is occurring in the communication status with the specific slave module or in the slave module status Check the contents of Latest error code storage area RWrn 0 and Latest error ID storage area RWrn 1 and perform the following troubleshooting for the slave module with corresponding ID For details refer to the manual for the slave module used Item Action Check that the LINK LED of the slave module is flashing If the LINK LED of the slave module does not flash check that there is no disconnection
97. shi representative Check that the power supply voltage of the 24VDC external power supply is within the rated value Check that the 24VDC external power supply is properly connected to the terminal block of the bridge module Check that there is no short circuit or incorrect wiring and screws are tightened within the specified torque range Check that the power cables 24V OV are not disconnected or short circuited When crimping the link connector check that the pin assignment is correct Review the system configuration so that the total internal current consumption does not exceed the rated output current of the power supply module INK LED of the bridge module does not flash Check that the LINK LED is turned on A malfunction has been detected in the bridge module hardware Reset the bridge module If the error occurs again the module may be in failure Please consult your local Mitsubishi representative ALM LED of the bridge module is flashing at 0 2 second intervals Check the power supply voltage of the 24VDC external power supply Check the power cables 24V OV Check the wiring of terminal blocks Adjust the power supply voltage of the 24VDC external power supply which is connected to the bridge module to be within the rated value 21 6 to 27 6VDC The recommended voltage is 26 4VDC Check that the power cables 24V OV are not disconnected or short circuited When crimping the link connector che
98. stops when automatic address detection is performed When performing the automatic address detection execute the operation after setting the CPU module to STOP status and pressing the SET switch of the bridge module to ensure the safety of device operation The automatic address detection function cannot be performed when the following error codes occur e 0064H e 0065H e 0066H e 00C8H e 00C9H 7 SETTINGS BEFORE OPERATION 7 2 Automatic Address Detection Automatic address detection execution timing Turning on Automatic address detection command RYn1 or long press of the SET switch Automatic address detection flag RX n 1 4 SET LED No ID setting or ID in use detected Parameter access completion flag RX n 1 1 Slave module alarm signal RX n 1 0 Parameter access error RX n 1 2 ON OFF Automatic address detection ON being executed Automatic OFF The LED The LED on flashing OFF The address being recorded ON OFF N image Fo mage o ON PA Automatic OFF ON A parameter access V error has occurred lt Batch read executed Y Automatic 1 When turning on Automatic address detection command RYn1 Automatic address detection command RYn1 must be turned off after checking that Automatic address detection flag RX n 1 4 turns on and the SET LED is on 2 The automatic address detection function is executed approximately 0 5 seconds after the SET LED turns off Point
99. subishi programmable controller the PRODUCT shall be used in conditions i where any problem fault or failure occurring in the PRODUCT if any shall not lead to any major or serious accident and ii where the backup and fail safe function are systematically or automatically provided outside of the PRODUCT for the case of any problem fault or failure occurring in the PRODUCT 2 The PRODUCT has been designed and manufactured for the purpose of being used in general industries MITSUBISHI SHALL HAVE NO RESPONSIBILITY OR LIABILITY INCLUDING BUT NOT LIMITED TO ANY AND ALL RESPONSIBILITY OR LIABILITY BASED ON CONTRACT WARRANTY TORT PRODUCT LIABILITY FOR ANY INJURY OR DEATH TO PERSONS OR LOSS OR DAMAGE TO PROPERTY CAUSED BY the PRODUCT THAT ARE OPERATED OR USED IN APPLICATION NOT INTENDED OR EXCLUDED BY INSTRUCTIONS PRECAUTIONS OR WARNING CONTAINED IN MITSUBISHI S USER INSTRUCTION AND OR SAFETY MANUALS TECHNICAL BULLETINS AND GUIDELINES FOR the PRODUCT Prohibited Application Prohibited Applications include but not limited to the use of the PRODUCT in Nuclear Power Plants and any other power plants operated by Power companies and or any other cases in which the public could be affected if any problem or fault occurs in the PRODUCT Railway companies or Public service purposes and or any other cases in which establishment of a special quality assurance system is required by the Purchaser or End User Aircraft or
100. ten This number is not an ID value Do not set 255 to the address Doing so will cause a No ID setting error Model Address decimal ID hexadecimal ID decimal Output slave module 0 to 254 0000 to OOFE 0 to 254 Input slave module 0 to 254 0200 to 02FE 512 to 766 llAddress setting example Bits are occupied as follows when 0 is assigned to the address of a 2 point input slave module and 0 and 2 are assigned to the respective addresses of two 2 point output slave modules Q Remote input signal of the input slave module Input data bit ping ee 0 RE leal Ea a ls i poma area by the address 0 Remote output signal of the output slave module Output data bit D EK MD M MM 0 RY n 4 o BIN IRI ISI AENEACALA ESTER kaka pod pem area by the area by the address 2 address 0 7 SETTINGS BEFORE OPERATION 4 7 1 Settings of Slave Module 9 Poin tr e A slave module address is not deleted even when the power supply of a programmable controller or a 24VDC external power supply is turned off The address is retained until a new address is set Forthe address setting ensure that the address occupied by the slave module does not exceed the number of transmission points set in the bridge module For details on the number of transmission points specified for the bridge module refer to the explanation of the switch setting Page 33 Number of transmission points setting switch Slave module parameter setting Set the parameter
101. test checks the hardware status of the bridge module Startingtest 1 Connect the P1 and P2 of the bridge module with an Ethernet cable 2 Set the station number setting switch as follows and power on the module to start the unit test TEST 0 3 The LEDs indicate the test status as follows CJ If the test fails check the following s any Ethernet cable disconnected Are all the Ethernet cables properly connected to the connector If there is no error in Ethernet cables nor connection the bridge module may be in failure Please consult your local Mitsubishi representative 8 FUNCTIONS 8 2 Function Details Bit transmission function This function exchanges l O data for up to 512 points input 256 points output 256 points between the bridge module and a slave module Parameter reading writing function In the AnyWireASLINK system in addition to I O information the parameter information of the slave modules and AnyWireASLINK network is sent and received between the bridge module and slave modules Parameter information to read and write is stored in the user specified device of the CPU module There are following four methods of reading and writing parameter information from slave modules Automatic update Reads the status of all slave modules and the sensor current value regularly Setting values are excluded Parameter access Reads or writes all the parameter values of a slave module by specify
102. that all of the slave modules are operating normally 2 Keep pressing the SET switch on the bridge module until the SET LED green turns on At this time Automatic address detection flag RX n 1 4 also turns on 3 When the SET LED stays on for a while and turns off the ID address has been stored 4 When Automatic address detection flag RX n 1 4 turns off automatic address detection is completed Using Automatic address detection command RYn1 1 Check that all of the slave modules are operating normally 2 Turn on and off Automatic address detection command RYn1 At this time Automatic address detection flag RX n 1 4 also turns on 3 When the SET LED stays on for a while and turns off the ID address has been stored 4 When Automatic address detection flag RX n 1 4 turns off automatic address detection is completed 7 SETTINGS BEFORE OPERATION 1 7 2 Automatic Address Detection 5 92 Precautions NW The automatic address detection cannot be performed in the following cases e When an error occurs in the AnyWireASLINK system Example Short circuit 24VDC external power supply voltage drop e Within approximately five seconds after the AnyWireASLINK system is powered on or system reset recovery When the automatic address detection is in progress When an error occurs llPerform the automatic address detection in the following situations e When starting the system operation when all of the slav
103. the following signals turns off Slave module alarm signal RX n 1 0 e Parameter access error RX n 1 2 6 Turn off the signal turned on in 1 by programs 1 Before executing parameter access from the bridge module to the slave module store the access method access target ID and parameter data in the appropriate memory areas 2 Slave module alarm signal RX n 1 0 and Parameter access error RX n 1 2 are maintained until Error reset request flag RYn0O is turned on Errors are stored in the appropriate memory areas 8 FUNCTIONS 8 2 Function Details 67 Transmission cable short detection function This function protects the system by detecting an overcurrent out of the specifications of the AnyWireASLINK and stopping the transmission Transmission cable short status When the following occurs AnyWireASLINK system is in the transmission cable short state The LINK LED turns off and the ALM LED flashes repeatedly at one second intervals DP DN short error RXn1 turns on e 00C9H is stored in Latest error code storage area RWrn 0 e OFFFH is stored in Latest error ID storage area RWrn 1 The bit transmission stops 1 If multiple errors occur simultaneously the latest error is displayed How to recover from the transmission cable short status How to recover from the transmission cable short status is as follows 1 Eliminate the short circuit in the AnyWireASLINK system When the short circuit is eliminated
104. tighten the screws at both ends securely Tightening torque 0 2 to 0 3N m Jescriptions of terminals 24V Power supply terminal for driving the transmission circuit for the AnyWireASLINK system oV Connect to a 24VDC external power supply DP AnyWireASLINK transmission signal terminals DN DP Transmission cable DN Transmission cable Connect to the DP and DN terminals on the slave module or terminating unit LG Connected to the neutral point of the noise filter inserted between the 24V and OV terminals Ground the LG terminal with the functional ground terminal FG terminal on the programmable controller at a single point Applicable cables Transmission UL listed general purpose 2 wire cable VCTF VCT Stranded wire Copper wire 70 C or higher DP DN UL listed general purpose wire Dedicated flat cable 90 C Power cable UL listed general purpose 2 wire cable VCTF VCT 0 75mm to 2 0mm Stranded wire 70 C or higher SAVON UL listed general purpose wire 0 75mm to 2 0mm Stranded wire single wire Dedicated flat cable Stranded wire 90 C 4 CONNECTIONS 4 1 CC Link IE Field Network Side Connector 23 24 Cable processing Bare cables can be connected to the transmission cable 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 Bar Al
105. tions of the programmable controller system refer to the user s manual for the CPU module used In this manual the safety precautions are classified into two levels AN WARNING and N CAUTION Indicates that incorrect handling may cause hazardous conditions resulting in N WARN N G death or severe injury j CAUTION Indicates that incorrect handling may cause hazardous conditions resulting in minor or moderate injury or property damage Under some circumstances failure to observe the precautions given under AN CAUTION may lead to serious consequences Observe the precautions of both levels because they are important for personal and system safety Make sure that the end users read this manual and then keep the manual in a safe place for future reference Design Precautions NWARNING O An AnyWireASLINK system has no control function for ensuring safety O When a communication failure occurs in the network data in the master module 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 Design Precautions NCAUTION O Do not install the control lines or communication cables together with the main circuit lines or power cables Keep a distance of 100mm or more between them Failure to do so may result in malfunction due to noise O Configure safety circuits such as an emergency stop circuit and interlo
106. to multiple device ranges will appear in light blue Please referto the following supplementary information for the device range contents 7 SETTINGS BEFORE OPERATION 7 3 Sample Program 57 Click Refresh Parameters in the Network Parameter window Set parameters in the following window Y Rx y m m m ENN 7 SETTINGS BEFORE OPERATION 58 7 3 Sample Program Local module Set the local module XX Project window gt Parameter gt PLC Parameter gt I O Assignment oxocu 000 0 0 00 Wien GI71GF11 T2 0000 7 SETTINGS BEFORE OPERATION 7 3 Sample Program 59 The following table lists the correspondence between the signal and device in this example RX Remote READY DP DN short error Use prohibited Transmission cable voltage drop error DP DN disconnection error Use prohibited Slave module alarm signal Parameter access completion flag Parameter access error Use prohibited Automatic address detection flag Use prohibited AnyWireASLINK input signal O to 15 AnyWireASLINK input signal 16 to 31 AnyWireASLINK input signal 224 to 239 AnyWireASLINK input signal 240 to 255 RY Error reset request flag Automatic address detection command Use prohibited D1000 0 D1000 1 D1000 2 D1000 3 D1000 4 D1000 5 to D1000 F D1001 0 D1001 1 D1001 2 D1001 3 D1001 4 D1001 5 to D1003 F D1004 0 to D1004 F D1005 0 to D1005 F D1012 0 to D1012 F D1013 0 to D1013 F D2000 0 D2000 1 D2000 2 to D2000
107. total frame cyclic system Connection type Bus topology multidrop system T branch system tree branch system Transmission protocol Dedicated protocol AnyWireASLINK Error control Checksum double check system Number of connected I O 512 points max input 256 points output 256 points points Number of connectable 128 max varies depending on the current consumption of each slave module modules RAS function Disconnected transmission cable location detection function transmission cable short detection function transmission cable voltage drop detection function AnyWireASLINK UL listed general purpose 2 wire cable VCTF VCT 1 25mmY 0 75mmY rated temperature 70 C or transmission cable higher UL listed general purpose wire 1 25mm2 0 75mmkY rated temperature 70 C or higher Dedicated flat cable 1 25mmY 0 75mm1 rated temperature 90 C 24VDC power cable UL listed general purpose 2 wire cable VCTF VCT 0 75mm to 2 0mm rated temperature 70 C or higher UL listed general purpose wire 0 75mm to 2 0mm rated temperature 70 C or higher Dedicated flat cable 1 25mmY 0 75mm rated temperature 90 C Transmission cable supply When using a 1 25mm cable 2A max current When using a 0 75mm cable 1A max Maximum number of 100000 times max writes to EEPROM Common Power supply Voltage 21 6 to 27 6VDC 24VDC 10 to 15 ripple 0 5Vp p or lower Recommended voltage 26 4VDC 24VDC 10 Module
108. transferred from the bridge module to the device of the CPU module lWriting parameters 1 Specify the access method Store 0001H write in Parameter access setting RWwn 0 A Specify the access target ID Store the access target ID in Parameter access target module ID specification RWwn 1 ID Description 0000H to OOFFH ID of the output slave module 0200H to 02FFH ID of the input slave module or I O combined slave module 3 Parameters to be written are transferred from the device of the CPU module to the bridge module 4 Turn on Parameter access request command for the slave module RY n 1 0 At this time Parameter access completion flag RX n 1 1 also turns on to complete the access 5 Readthe parameters to check that the setting has taken effect in the slave module Parameter access batch read The procedure for executing parameter access batch read is as follows 1 Turn on Parameter batch read command for the slave module RY n 1 1 At this time Parameter access completion flag RX n 1 1 also turns on to complete the access 2 Parameters that have been read are transferred from the bridge module to the device of the CPU module Parameter access batch write The procedure for executing parameter access batch write is as follows 1 Parameters to be written are transferred from the device of the CPU module to the bridge module 2 Turn on Parameter batch write command for the slave module RY n 1 2 At this time
109. unction is enabled check that the ring topology is correctly configured for the port where the L ER LED is on LA User s manual for the master local module used LINK LED of the bridge module is off Check that the Ethernet cable is operating normally e Check that 1000BASE T compliant Ethernet cable are used QA User s manual for the master local module used Check that the station to station distance is 100m or less Check that the Ethernet cables are not disconnected Check that the switching hub used in the system and other stations are Check that a 1000BASE T compliant switching hub is used operating normally Check that the switching hub and other stations are powered on 94 10 TROUBLESHOOTING 10 4 Troubleshooting of Bridge Module 10 5 Troubleshooting of Slave Module This section describes the troubleshooting of the slave module Nhen I O data and parameter data cannot be checked Check the network parameter setting of CC Link IE Field Network in Check that the data areas which RX RY and RWw RWr are assigned are correct GX Works2 Check that the station information of CC Link IE Field Network is correctly set in the bridge module setting Such as station number station type Check that the CPU module is set to STOP status Slave module cannot output when the CPU module is set to STOP Check the I O LED status of the slave module Check the I O LED status of the slave module and check that there is no
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