CC-Link-AnyWire Bitty Bridge Module User`s Manual
Contents
1. AnyWire Bitty side terminal block For details on each part refer to the following 20 CC Link side connector AnyWire Bitty side terminal block Station number setting switch Transmission speed setting switch Specification selection switch SET switch LED indicator 12 gt Page 23 Section 4 1 12 gt Page 25 Section 4 2 Page 28 Section 5 1 1 K gt Page 29 Section 5 1 2 57 Page 30 Section 5 2 1 12 gt Page 44 CHAPTER 9 123 Page 41 CHAPTER 8 CHAPTER 3 MODULE MOUNTING CHAPTER 3 MODULE MOUNTING Mount this module on a DIN rail before use 1 Direction of mounting a module Since the NZ2AW1C1BY radiates heat place it in an airy place in the direction shown below DIN rail Vertical installation basic Do not place the module in the directions shown below Downward installation Horizontal installation Vertical installation upside down Upward installation 21 1 22 2 Mounting a module on a DIN rail Hook the upper fixing tab on the bottom of the module to the DIN rail Push and engage the NZ2AW1C1BY in the DIN rail Insert2. 25 4 2 1 Description of the terminals of an AnyWire Bitty side terminal 25 4 2 2 Cable processing c esa ee debent Os ad dibus 26 4 37 Terminating RESIST 2 252 sce xA erg oe crates oe ee Pa eo ee 27 CHAPTER 5 SWITCH SETTING 28 5 1 GCeLink Side 5 Lax Bed ERE hak Oe es tS 28 5 2 AnyWire Bitty Sid zcv eee REIR ho ne ae Vd erar Reden 30 CHAPTER 6 MEMORY MAPS 31 6 1 Remote I O Signal 31 6 2 Remote Register List ns b et ats eet nU baa 32 6 3 Correspondence between the Remote Register and AnyWire Address 34 64 be wd A NR 35 CHAPTER 7 PREPARATION FOR OPERATION 36 7 1 Setting by the 36 7 2 Setting 39 CHAPTER 8 POWER ON AND PART INDICATION 41 8 4 LED Indication 42 CHAPTER 9 MONITORING FUNCTION 44 9 1 Automatic Address 44 92 Monitoring Operation iiio bee d bee Bad Moat eR qs 45 CHAPTER 10 CC LINK I O RESPONSE TIME 46 CHAPTER 11 TRANSMISSION TIME 48 11 1 Transmission Cycle Tim
3. 1 SAEEINMIBRECAUITIONSEETm TP 2 CONDITIONS ORUSERFORMHEPRODUC TE 5 TERMS C a A A M TERN ESTER 8 CHAPTER 1 OVERVIEW 9 CHAPTER 2 SPECIFICATIONS 11 24 Gen ral Specifications ses e RP ERE baw eG Medien 11 2 2 Performance Specifications 12 22 1 Performance specifications 12 2 2 2 Scope of the power supply for the transmission 14 2 2 3 Power supply sequence and handling of I O data 17 2 3 Applicabl System xe eee wd b ere exe 18 2 3 1 Applicable master 18 2 3 2 Applicable CC Link version 18 233 CC Link dedicated instruction 18 24 External DIMENSIONS a alode e Lea pe que tA ere rdc e Lt cc 19 2 5 6 ev aset em caa EY IS IER ERE E RABE RS BIE ES 20 CHAPTER 3 MODULE MOUNTING 21 CHAPTER 4 CONNECTIONS 23 44 QGG EinkSide Cornnector n o bee ER PELA EAE UE 23 4 1 1 Connecting a CC Link dedicated cable 24 441 2 Cable processinga ie eov PRO ob ee dice elus 24 4 2 AnyWire Bitty Side Terminal
4. 57 W LED indication the NZ2AW1C1BY LED on the CC Link side LED on the AnyWire Bitty side Indicator Status Indicator Status RUN On LINK Flashing ERR Off SET Off SD On RDY On RD On LED indication on the slave module LED on the AnyWire Bitty side Indicator Status LINK Flashing Check the LED indication mentioned above before performing the automatic address detection 2 gt 44 Section 9 1 When the indication is different from the information above check the indication condition and possible cause and then eliminate the problem according to the troubleshooting steps 2 gt 51 CHAPTER 12 Point Registering a slave module by the automatic address detection operation enables the disconnected transmission line location detection function Data is transmitted regardless of the automatic address detection operation The LINK LED is turned on red at the initial power on because the connection terminal is not registered by the automatic address detection operation Press the SET switch to enable the automatic address detection 44 Section 9 1 41 8 1 1 LED on the CC Link side LED Indication Specification Indicator Name Color Description RUN CC Link communication status Green Normal communication Off Transmission cable disconnected Transmission cable connected in
5. AnyWire Bitty remote I O module output Address 0 to 15 AnyWire Bitty terminating resistor EI 1 Manufactured by Anywire Corporation 36 CHAPTER 7 PREPARATION FOR OPERATION 2 Correlation among the CPU module master module NZ2AW1C1BY and AnyWire Bitty remote I O module NZ2AW1C1BY AnyWire Bitty CPU module Master module station No 1 remote I O module Device X Address Remote input RX Remote input RX X1000 to X107F 4 0 to RX00 to RX7F 4 RX00 to RX7F 7 Device Y Remote output RY Remote output RY Y1000to Y107F 1609 to 00 H 00 to Device D Remote register RWw Remote register RWw AnyWire Bitty output address RWw0 AnyWire output address AnyWire Bitty output D1100 RWwO Oto 15 remote I O module D1101 1 1 RWw1 AnyWire output address address 0 to 15 po DT 16 to 31 D110F 1 RWwF output address Device D Remote register RWr Remote register RWr AnyWire Bitty input address RWr0 AnyWire input address AnyWire Bitty input D1009 2509 RWO 0to 15 4 remote module D1001 2 1 RWr1 AnyWire input address address 0 to 15 f 16 to 31 D100F 2EFu RWF RNE input address 3 Parameter setting Parameter setting is required for CC Link communic
6. Up to 100000 times EEPROM Common Voltage 21 6 to 27 6VDC 24VDC 10 to 15 Ripple 0 5Vp p or less Recommended voltage 26 4V 24VDC 10 Current Module current consumption 0 2 When 128 slave modules are connected the load current is not included Power supply Transmission line supply current Up to 2 A External dimensions 100mm H x40mm W x66mm D Weight 0 16kg 1 12 Ver 1 10 compatible CC Link dedicated cable CC Link dedicated cable Ver 1 00 and high performance CC Link dedicated cable cannot be used at the same time If those cables are used at the same time normal transmission is not guaranteed In addition use the terminating resistor according to the type of cable used CHAPTER 2 SPECIFICATIONS 2 Refer to the table below for information about the relationship among the total length the diameter of connection cable and the supply current for transmission line Diameter of connection Supply current for transmission line cable Total length of 50m or less Total length of 50m to 100m Up to 0 7A 2 Up to 2A 1 25mm Non isolated slave modules cannot be used gas Up to 1A Only a fool proof terminal can be connected manufactured by Anywire Corporation When a total length exceeds 50m use isolated slave modules On some slave modules with cables the diameter of module integrated cables may be less than 0 75mm However they can be used withou
7. x 1 When there is a station number used as Ver 2 remote device station in the existing system specify the station number of additional Ver 1 remote device station before specifying that of Ver 2 remote device station 2 3 3 CC Link dedicated instruction In the NZ2AW1C1BY dedicated instructions accessing the NZ2AW1C1BY from a CC Link master module cannot be used 18 CHAPTER 2 SPECIFICATIONS 2 4 External Dimensions DIN rail x N DP m x o Lu 3 1 7 D 1 z ES 3 2 5 51 2 40 3 8 100 eS Unit mm 19 2 5 Part Names trum S ee ee p iiu CC Link side A connector i O 96999 Station number Transmission speed setting switch Connector for maintenance cannot be used Specification selection switch MODE switch setting switch SET switch automatic address detection switch LED indicator
8. e g MELSEC Q series UL508 Applicable UL standard cUL standard Not applied CSA22 2 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 precautions 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 A CAUTION WARNING Indicates that incorrect handling may cause hazardous conditions resulting in death or severe injury Indicates that incorrect handling may cause hazardous conditions NCAUTION 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 N WARNING An AnyWire Bitty system has no control function for ensuring safety When a communication failure occurs in the network data in the master module are held Check the communication status information and configure an in
9. the LINK LED on the slave module does not flash Is the ERR LED on the CC Link master station flashing The applicable module may be in failure Please consult your local Mitsubishi service center or representative providing a detailed description of the problem Perform the troubleshooting steps for when the ERR LED on the CC Link master station is flashing 52 CHAPTER 12 TROUBLESHOOTING 12 1 2 When the ERR LED on the CC Link master station is flashing The ERR LED on the master station is flashing Is the parameter setting consistent with the system configuration used v Correct the parameter setting or the system configuration used Are the link special registers SW0080 to SW0083 data link status of other stations of the master station on NO The master station is in failure NO link special registers SW0098 to 5 009 station number duplication status of the master station on YES v Check the module of which SW0098 to SWO009B are on Check on the Check the module of which master station SW0080 to 51 0083 are on l Check on the slave station NO Is the station number setting switch correctly configured Correctly configure the station number setting switch Power on the module Is the LINK LED on the bridg
10. 1 1 1 1 1 ignal delay time of the slave module NZ2AW1C1BY 2 1 to 2 transmision cycle time 1 1 1 1 1 1 1 1 Processing time on the bridge module side 1 1 Input from the CC Link side Calculation formula 1 Processing time on the bridge module side 2 Transmission cycle time x 2 3 Signal delay time of the slave module ms Calculation example 1 Processing time on the bridge module side Processing time of the NZ2AW1C1BY is 0 592ms 0 592 ms 2 Transmission cycle time x 2 Number of transmission points is set to 512 points 10 2 x 2 20 4 ms 3 Signal delay time of the slave module Signal delay time of the slave module is 0 01ms 0 01 ms Therefore the transmission delay time is 0 592 20 4 0 01 21 ms CHAPTER 12 TROUBLESHOOTING CHAPTER 12 TROUBLESHOOTING If the transmission does not start normally check the following items and perform the troubleshooting The CC Link cable is properly connected The terminating resistor of CC Link is properly connected The station numbers of CC Link are not duplicated AnyWire devices are being supplied with 24VDC power The LINK LED on the slave module of AnyWire is flashing The address settings of AnyWire are correct and are not duplicated The reference pages for each specification required during troubleshooting are shown below Connections lt 7 23 CHAPTER 4 Operatio
11. Does the scan time exceed the maximum Select the asynchronous mode or reduce the value while the synchronous mode is gp transmission speed selected Check the status by the following methods Th i Is the remote device station in the data link LED indication status on the module Other station data link status 51 0080 to SW0083 input RX of the NZ2AW1C1BY Isit loaded from the correct address of the Check the program cannot be remote input RX buffer memory loaded Is it set to the reserved station Check the parameters n Is the station number duplicated Check the station number Check the status by the following methods Is the remote device station in the data link LED indication status on the module The remote Other station data link status SWO0080 to SW0083 output RY of Is the refresh instruction YnO of the master the station turned on NZZAWTCIBY Is it loaded from the correct address of the cannot be remote output RY buffer memory Check the program turned on off P y Is it set to the reserved station Check the parameters Is the station number duplicated Check the station number Check the status by the following methods The data of the Is the remote device station in the data link LED indication status on the module remote register Other station data link status SWO0080 to SW0083 RWr of the Is it loaded from the correct address of the
12. NZ2AW1C1BY Intelligent function module A Q series module other than CPU modules power supply modules and I O modules which is mounted on a base unit Master module A module that controls a data link system One master module is required for one system Remote I O module A module that communicates I O data with a master module Programming tool A generic term for GX Works2 and GX Developer GX Works2 GX Developer The product name of the software package for the MELSEC programmable controllers AnyWire Bitty An original transmission system provided by Anywire Corporation This module supplies power using a transmission line minimizing wiring for machines and equipment This system provides a high speed and highly reliable sensor network Slave module A generic term for modules that communicate data with a master module Terminating resistor A waveform shaper Transmission cycle time A data sampling interval Buffer memory A memory in an intelligent function module where data such as setting values and monitoring values exchanged with a CPU module are stored Remote input for CC Link RX Information input in bit units from the slave station to the master station RY Remote output for CC Link Information output in bit units from the master station to the slave station RWw Remote register Write area for CC Link Information output in 16 bit units fr
13. Power supply NZ2AW1C1BY generation 0369 6369 C00 Connected load 24VDC external power supply Point 24VL and OVL terminals are used to supply the power to the connected load For details refer to the manual for the slave module used For information about the current consumption of slave modules refer to the manual for the slave module used 14 CHAPTER 2 SPECIFICATIONS 2 Related constant of isolated slave modules Izdin Izdo In isolated slave modules current required for the control circuit is supplied through the transmission line DP and DN whereas that for the connected load is supplied through an external power supply Izdin A Internal current consumption of isolated input module Izdo A Internal current consumption of isolated output module Isolated slave module Control circuit Load driver circuit photocoupler isolation NZ2AW1C1BY n Connected load 24V OV 24V OV 24VDC external 24VDC external power supply power supply Point In isolated slave modules current consumption of the connected load is not subject to the current restriction condition for the AnyWire Bitty system For information about the current consumption of isolated slave modules
14. refer to the manual for the slave module used eoueuuoLeg ZZ 3 Supply current for transmission line I A The supply current for the transmission line of the AnyWire Bitty system is determined by the following formula I A Ihinxm Ihoxn Izdinxp Izdoxq BU 10 Ajddns Jamod jo edoos ZZZ Number of connectable modules m n p q 4 Maximum value of supply current for transmission line For information about the maximum value of the supply current for the transmission line refer to 2 Page 12 Section 2 2 1 15 m Description of calculation formulas 2 and 3 1 Vm Supply voltage to master module bridge module Voltage 24VDC 10 to 15 21 6 to 27 6VDC Ripple 0 5Vp p or less Recommended voltage 26 4V 2 AV V Voltage drop between lines AV V Supply current for transmission line 1 A x Line resistance Line resistance Line length m x Conductor resistance Q m x 2 Line diameter 1 25mm gt Conductor resistance 0 015Q m Line diameter 0 75mm Conductor resistance 0 0250 m m Calculation example The example shows how to check whether the total length of 50m is sufficient for the implementation in the following system Condition Non isolated remote I O module input Number of I O points 4 points Module current consumption 29mA Number of modules 12 Connected load three wire sens
15. RWw 8 8 3 stations RX RY number of occupied points 96 points RWr RWw 12 12 4 stations RX RY number of occupied points 128 points RWr RWw 16 16 Number of occupied stations Number of connectable modules Up to 42 Connection location of NZ2AW1C1BY No restriction CC Link dedicated cable High performance CC Link dedicated cable 1 CQIIDSCHOR gabie Ver 1 10 compatible CC Link dedicated cable AnyWire Bitty side Transmission clock 27 0kHz Maximum transmission distance 12 100m total length Number of connectable modules Up to 128 varies depending on the current consumption of each slave module Transmission system DC transmission line total frame cyclic transmission Connection type Bus topology multidrop system T branch system tree branch system Transmission protocol Dedicated protocol AnyWire Bitty Error control Double check system Number of connected I O points Up to 512 points 256 input points 256 output points Disconnected transmission line location detection function transmission line short RAS function detection function General purpose 2 wire cable VCTF VCF 1 25mm 0 75 2 rated Connection cable temperature 60 General purpose wire 1 25mm 0 75mm rated temperature 60 Power supply for transmission When using 1 25mm cable Up to 2A line 2 When using 0 75mm cable Up to 1A Maximum number of writes to
16. 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 CHAPTER 4 CONNECTIONS CHAPTER 4 coNuNEcrTIONS 4 1 CC Link Side Connector NZ2AW1C1BY is handled as a remote device station of CC Link The CC Link side connector is the connection terminal which is easy to connect disconnect CC Link side ERI Sj connector sssssei ON A UU RUN ERR ROY LL Oo SD RD UNK SET ELI Cj aw 24v Luc ov ow DN EIE E Q Manufacturer Phoenix Contact Co Ltd Contact http www phoenixcontact com 2 Model MSTB2 5 5 STF 5 08AU z Tighteni SEDIS 05190 6Nem torque S 2 8 To connect the connector a flathead screwdriver having a tipped size of 0 6 x 3 5mm is required Before removing the CC Link side connector check that the fixing screws on both sides are completely loosened removed from the socket Pulling with excessive force while the fixing screws on both sides are still tightened may cause damage to the devices Before connecting the connector check that there are no short
17. in this manual are trademarks or registered trademarks of their respective companies SH NA 080991ENG A 62 CC Link AnyWire Bitty Bridge Module User s Manual 2g4 e Anywire Corporation http www anywire jp MODEL NZ2AW1C1BY U E MODEL 13261 SH NA 080991ENG A 1106 MEE s MITSUBISHI ELECTRIC CORPORATION HEAD OFFICE TOKYO BUILDING 2 7 3 MARUNOUCHI CHIYODA KU TOKYO 100 8310 JAPAN NAGOYA WORKS 1 14 YADA MINAMI 5 CHOME HIGASHI KU NAGOYA JAPAN When exported from Japan this manual does not require application to the Ministry of Economy Trade and Industry for service transaction permission Specifications subject to change without notice
18. output remote I O module start from 0 and the area later than that number is occupied corresponding to the number of module points x Assignment of two 8 point input remote I O modules Remote register spe epe pne s Te 7 8T 5 4 5 2 1 2 AnyWire address 15 99e Ree eed AnyWire address 0 Occupied area by the address 8 Occupied area by the address on the 8 point input 0 on the 8 point input remote I O module remote I O module CHAPTER 6 MEMORY MAPS 6 4 Remote station READY is turned on after the reset by supplying the power Error status flag is set OFF to ON when an error occurs Error status flag is reset ON to OFF by turning on Error reset request flag from off provided that the error cause has been removed Remote station READY is reset ON to OFF when an error has occurred Remote station READY remains reset OFF until Error reset request flag is turned off from on Error Reset ON Error status flag OFF ON Error reset request flag OFF An error occurred The flag is turned on Ni using the user s program PM MM after the error cause is Remote station READY removed The remote device values for Remote station READY Error status flag and Error reset request flag at each occupied station setting are shown in the table below Number o
19. tech NZ2AW1C1BY remote register RWr buffer memory q cannot be loaded Is it set to the reserved station Check the parameters Is the station number duplicated Check the station number 5 Isippoeuo 221 Symptom Check Item Confirmation Method Check Faulty stations Is the station disabled for error Check the parameters oO cannot be detected Is the station number duplicated Check the station number oO 2 AnyWire Bitty side Symptom Check Item Confirmation Method Check m NZ2AW1CA1BY side Is 24VDC being supplied appropriately Check the power voltage Is the DP DN signal line connected correctly Check the wiring for AnyWire Bitty Data I O is Is the MODE switch set correctly Check the MODE switch setting impossible Slave module side Is 24VDC power being supplied appropriately Check the power voltage LH Is the DP DN signal line connected correctly Check the wiring for AnyWire Bitty LH Is the address set correctly Check the address setting LH Is ATO terminating resistor connected Check whether the terminal resistors are Are the poles connected in reverse connected correctly Data I O is Does the actual transmission line length exceed the Check whether the total length is proper LH unstable setting length Is the shield line being used for multiple point 7 Check the
20. DB DA ASE Set the transmission specification using combination of ON OFF for 1 and 2 System reserve Set the switch to OFF Using the module with this switch set to ON may cause malfunction Specification selection switch Number of Number of transmission points of AnyWire Bitty occupied 1 2 stations of Input Output CC Link OFF OFF 4 256 points 256 points ON OFF 3 192 points 192 points OFF ON 2 128 points 128 points ON ON 1 64 points 64 points Point Switch off the power supply before operating the specification selection switch Always set the specification selection switch according to the number of transmission points being used The specification selection switch is recessed from the front surface When setting the switch use a precision driver or a similar tool and be careful not to damage any of the internal boards 30 CHAPTER 6 MEMORY MAPS CHAPTER 6 memory MAPS The NZ2AW1C1BY occupies 1 to 4 stations starting from the station number specified in the CC Link system For information about the buffer memory address o
21. MITSUBISHI Mitsubishi Programmable Controller CC Link AnyWire Bitty Bridge Module User s Manual Powered by This pro bo ct was spi aiya and manufactured by Mitsubishi and e 2 v his product dia rs from that on other NY WEOLE srogrammatie controller pro nga sento in is manua I Any Wir itty NZ2AW1C1BY 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 NZ2AW1C1BY is jointly developed and manufactured by Mitsubishi and Anywire Corporation Note that there are some precautions regarding warranty and specifications of this product Warranty Other programmable controller NZ2AW1C1BY products e g MELSEC Q series Repair term after discontinuation of 1 7 production Application of the EMC Directive Other programmable controller NZ2AW1C1BY products e g MELSEC Q series Applicable EMC standard Not applied EN61131 2 lt Application of the UL cUL standards gt Other programmable controller NZ2AW1C1BY products
22. NO Check the following 1 Check that the diameter of the transmission line is in accordance with the specification The applicable module may be in failure Please consult your local Mitsubishi service center or representative providing a detailed description of the problem 12 2 Symptom checklist 1 CC Link side CHAPTER 12 TROUBLESHOOTING Symptom Check Item Confirmation Method Check Check the condition of the cable visually or by line test Is the cable disconnected Check Line status SW0090 oO Are the terminating resistors 110Q Connect the terminating resistors provided with the connected to the last stations on both sides master local module to the last stations on both sides Is there an error in the CPU module of the Check the error code of the CPU module and take n master station actions Check the parameter settings Remote network Ver 2 mode or Are the parameters set in the master station Remote network addition mode o The data link is Ver 2 remote device station S Double Exclusive Station 4 failed in the entire system Is Data link startup request Yn6 or Yn8 Check the program turned on Check the following Host parameter status SW0068 Switch setting status SWO06A Is there an error in the master station Loading status SW0069 Whether or not the ERR LED on the master station is flashing
23. 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 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 5 PRECAUTIONS REGARDING WARRANTY AND
24. ation between the master station and the NZ2AW1C1BY Parameter setting for CC Link can be configured by the network parameter of the programming tool Setting can be also configured on the program Point Configure the parameter setting using either the network parameter setting or program Redundant settings by different means may cause unstable output because of the overlapped access to the buffer memory q 37 Setting example W Project window gt Parameter gt Network parameter gt CC Link 1 Start I O No 0000 Operation Setting Type Master Station Data Link Type Mode Operation Setting Master Station PLC Parameter Auto Start Remote Net Ver 1 Mode Total Module Connected 14 4 4 Remote Input RX Remote Output R Y 1000 1000 Remote Register RWr Remote Register RWw Ver 2 Remote Input RX Ver 2 Remote Output RY Ver 2 Remote Register RWr Ver 2 Remote Register R Ww 01000 01100 Special Relay SB SBO Special Register SW swa Retry Count Automatic Reconnection Station Count Standby Master Station No PLC Down Select Scan Mode Setting Stop Asynchronous Delay Time Setting Station Information Setting Station Information Remote Device Station Initial Setting Interrupt Settings Initial Setting In
25. circuits due to the disconnected or frayed wires and tighten the screws at both sides securely Tightening torque 0 5 to 0 6N m Point The fixing screws are not tightened when shipped Securely tighten the screws on both sides when connecting the connector 23 4 1 1 Connecting CC Link dedicated cable The connection example of the CC Link dedicated cable is shown below Master module CC Link remote device NZ2AW1C1BY Terminating resistor Terminating resistor 1 SLD and FG connected inside the module When the NZ2AW1C1BY is the last station mount a terminating resistor between DA and DB Users need to process the terminating resistor to be mounted on the NZ2AW1C1BY Refer to the catalogue or website of Phoenix Contact Co Ltd If the terminating resistor is not mounted communication on CC Link side may fail 4 1 2 Cable processing 24 Bare cables can be connected to the CC Link side connector however for safety reasons it is recommended to connect the crimped bar terminals Recommended manufacturer Phoenix Contact Co Ltd Reference example of the bar terminal When processing a 0 75mm cable Model AIO 75 8GY When processing two 1 25mm cables Model AI TWIN2 x 0 75 8GY When connecting two cables to one terminal connect the two cables together to the TWIN bar terminal For details on sizes other than those described above and crimping tools refer to the catalogue or website of Pho
26. correctly Wrong transmission speed set Hardware reset under way ERR CC Link error display Red CRC error Incorrect setting of the station number setting switch set to zero or 62 or larger Incorrect setting of the transmission speed setting switch set to 5 or larger Off Normal communication Hardware reset under way Flashing Flashing regularly 0 4 second Setting for the station number or transmission speed setting switch has been changed while the power is on Flashing irregularly A terminating resistor has not been connected The module or CC Link dedicated cable is affected by noise SD CC Link data transmission display Yellow Data transmission under way Off Transmission cable disconnected Transmission cable connected incorrectly Wrong transmission speed set Hardware reset under way Flashing A terminating resistor has not been inserted on the CC Link master module and the last station module RD CC Link data reception display Yellow On Data reception under way Off Transmission cable disconnected Transmission cable connected incorrectly Hardware reset under way Flashing A terminating resistor has not been inserted on the CC Link master module and the last station module 42 CHAPTER 8 POWER ON AND PART INDICATION 2 LED on the AnyWire Bitty side I
27. ct is shipped The ERR LED turns on when the switch is set to zero 0 or the number larger than the largest station number 28 CHAPTER 5 SWITCH SETTING 2 Transmission speed setting switch Set the communication speed of CC Link using the transmission speed setting switch B RATE switch Set it to the same setting as in the master station S SSS SS c FG SLD DG DB DA Transmission speed ncm setting switch Setting value of the transmission speed setting mm Communication speed switch 0 1 156Kbps 1 625Kbps zi 2 2 5Mbps 9 3 5Mbps 5 4 10Mbps 2 5toF Unable to set 1 The switch is set to zero 0 when the product is shipped 2 The ERR LED turns on when the switch is set to five 5 or larger 29 5 2 AnyWire Bitty Side 1 Specification selection switch MODE switch Set the number of occupied stations of CC Link and that of transmission points of AnyWire Bitty using the specification selection switch MODE switch SW 1 2 SW 3 to 6 svarma iem M Specification selection switch MODE switch 9 9 BICI SLD DG
28. ction of the product is discontinued Discontinuation of production shall be notified with Mitsubishi Technical Bulletins etc 2 Product supply including repair parts is not available after production is discontinued 3 Overseas service Overseas repairs shall be accepted by Mitsubishi s local overseas FA Center Note that the repair conditions at each FA Center may differ 4 Exclusion of loss in opportunity and secondary loss from warranty liability Regardless of the gratis warranty term Mitsubishi shall not be liable for compensation of damages caused by any cause found not to be the responsibility of Mitsubishi loss in opportunity lost profits incurred to the user by Failures of Mitsubishi products special damages and secondary damages whether foreseeable or not compensation for accidents and compensation for damages to products other than Mitsubishi products replacement by the user maintenance of on site equipment start up test run and other tasks 5 Changes in product specifications The specifications given in the catalogs manuals or technical documents are subject to change without prior notice 61 Microsoft Windows Windows NT and Windows Vista are registered trademarks of Microsoft Corporation in the United States and other countries Pentium is a trademark of Intel Corporation in the United States and other countries Ethernet is a trademark of Xerox Corporation All other company names and product names used
29. e Bitty bridge module or for approximately five seconds after the module is turned on or reset the automatic address detection cannot be operated Do not operate an automatic address detection when a disconnection error has occurred while in operation Otherwise disconnection information may be lost CHAPTER 9 MONITORING FUNCTION 9 2 Monitoring Operation Registered IDs addresses are sent in order If the slave module does not reply a disconnection is notified The LINK LED turns on when a disconnection occurs This error information is retained until the power is turned off or the error is reset Point To reset the LINK LED indication detected during operation remove the error cause and turn off and on the NZ2AW1C1BY or turn on Error reset RX The automatic address detection operation also clears the display and the flag However if a non responding module exists its ID address is not registered therefore it is removed from the monitoring target uoneJedo 2 6 45 CHAPTER 10cc LiNK I O RESPONSE TIME For information about the transmission delay time on the CC Link side refer to the user s manual of the master module used 46 CHAPTER 10 CC LINK I O RESPONSE TIME Memo 47 CHAPTER 11 TRANSMISSION TIME This section describes the transmission cycle time and transmission delay time of AnyWire Bitty 11 1 Transmission Cycle Time The transmission cycle time is t
30. e between stations CHAPTER 12 TROUBLESHOOTING 12 1 3 when the LINK LED on the bridge module does not flash The LINK LED on the bridge module does not flash Is the LINK LED on in red The applicable module may be in failure Please consult your local Mitsubishi service center or representative explaining a detailed description of the problem Is the SET LED off If the LINK LED is on in red and the SET LED flashes with approx 1 second intervals check the following 1 Isn t DP DN signal line short circuited 2 Isn t there any reverse connection or loose screw If the LINK LED is on in red and the SET LED is off check the following 1 Isn t DP DN signal line disconnected or short circuited 2 Isn t there any reverse connection or loose screw 3 Has the automatic address detection operation properly performed 2 Page 44 Section 9 1 4 Is the slave module in normal state Refer to the troubleshooting for the slave module 12 1 4 When the LINK LED on the slave module does not flash The LINK LED on the slave module does not flash Bunoouse qnoJ pZ power supply voltage for the slave module within a specified range Adjust the voltage for external power supply to within a specified range Was the transmission line wiring already checked use j seop eui uo G37 MANIT Check
31. e 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 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 produ
32. e module flashing Is the power on YES v Page 55 Section 12 1 3 Refer to the troubleshooting steps for when the LINK LED on the bridge module does not flash mo 4 172 Power on the module again v The applicable module is in failure Buyse sr uonejs 1ejseui xurq 52 uo ou VOUM ZIZI 53 Is the RDY LED YES YES Is the station number setting switch correctly configured Is the transmission speed setting correct Is the communication cable properly wired t v Correctly configure the station number NO v Power on the module again Correctly configure the transmission speed setting v Power on the module again v Properly wire the communication cable NO Is the station number setting Switch correctly configured The applicable module is in failure transmission speed setting switch v YES v The applicable module is in failure station number setting switch Correctly configure the station number 54 Completed 4 Power the module again 1 Check the short circuit reverse connection disconnection terminating resistor FG connection total length and distanc
33. e slave module when isolated I O module is used 4 Turn on for 500ms or longer and off Error reset request flag before accessing the slave module ZZ pue eouenbes Ajddns Jamod EZZ 17 2 3 Applicable System 2 3 1 Applicable master module Master 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 http www cc link org 2 3 2 Applicable CC Link version The combination of the master module of CC Link and the network parameter of the programming tool is shown in the following table Network parameter setting of the programming tool Master module Station information NZ2AW1C1BY Mode setting station type Remote network Ver 1 mode Remote device station O QJ61BT11 Ver 1 remote device station x AJ61BT11 Remote network Ver 2 mode Ver 2 remote device station x A1SJ61BT11 Ver 1 remote device station x AJ61QBT11 Remote network addition mode A1SJ61QBT11 Ver 2 remote device station x Remote I O network mode x Remote network Ver 1 mode Remote device station O Ver 1 remote device station O Remote network Ver 2 mode QJ61BT11N Ver 2 remote device station x L26CPU BT Ver 1 remote device station O LUSTBTTI Remote network addition mode Ver 2 remote device station x Remote I O network mode
34. ed and they may be pulled inadvertently This may damage the module and the cables or cause the module to malfunction because of faulty cable connections When disconnecting the communication and power cables from the module do not pull the cables by hand When disconnecting a cable with a connector hold the connector to the module by hand and pull it out to remove the cable When disconnecting a cable connected to a terminal block loosen the screws on the terminal block first before removing the cable If a cable is pulled while being connected to the module it may cause the module to malfunction or damage the module and the cable Startup and Maintenance Precautions N WARNING 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 screws or module fixing screws Failure to do so may result in electric shock Undertightening the terminal screws can cause short circuit or malfunction Overtightening can damage the screw and or module resulting in drop short circuit or malfunction Startup and Maintenance Precautions N CAUTION Do not disassemble or modify the modules Doing so may cause failure malfunction injury or a fire Shut off the external power supply all phases used in the system before mounting or removing a module Failure to do
35. enix Contact Co Ltd CHAPTER 4 CONNECTIONS 4 2 AnyWire Bitty Side Terminal Block The AnyWire Bitty side terminal block is the eight point screw terminal block 9 299999 FG 510 DG 08 DA MITSUBISHI RRAWNICIBY AnyWire Bitty side terminal block Screw terminal M3 4 5 Tightening torque 0 5 to 0 8N m 4 2 1 Description of the terminals of an AnyWire Bitty side terminal block Terminal Description DP AnyWire Bitty transmission signal terminals DP Transmission line DN Transmission line DN Connect to the DP and DN terminals on the slave module or terminating resistor 24V Power supplies for the NZ2AW1C1BY LG Connect to the neutral point of the noise filter inserted between the 24V and OV terminals Provide a single point grounding with the FG terminal on CC Link side 25 jeuiule epis Ang eJiIM uy ue sjeuiuue JO uonduoseq epis Anig 27 4 2 2 Cable processing 26 A solderless terminal with insulation sleeve cannot be used for a terminal block The junction of a solderless terminal and a cable should be covered up with a mark t
36. etting 2 Remote register list when 2 stations are occupied Eight words are used respectively for input and output of AnyWire Bitty Set the address for slave modules within the range from 0 to 127 for both input and output modules CC Link side AnyWire Bitty side CC Link side AnyWire Bitty side remote register input input address remote register output output address RWrn 0 0 to 15 0 to 15 RWrn 1j 16 to 31 RWwm 1 16 to 31 RWrn 2y 32 to 47 RWwm 2y 32 to 47 RWrn 54 80 to 95 RWwm t5g 80 to 95 RWrn 6j 96 to 111 RWwm 6 96 to 111 RWm 7y 112 to 127 RWwm 7 112 to 127 32 m n Address assigned to the master station in the station number setting CHAPTER 6 MEMORY MAPS 3 Remote register list when 3 stations are occupied Twelve words are used respectively for input and output of AnyWire Bitty Set the address for slave modules within the range from 0 to 191 for both input and output modules CC Link side AnyWire Bitty side CC Link side AnyWire Bitty side remote register input input address remote register output output address RWrn 0j 0 to 15 RWwm 0yu 0 to 15 RWrn 14 16 to 31 RWwm 1 4 16 to 31 RWrn 2y 32 to 47 RWwm 2y 32 to 47 RWrn 9y 144 to 159 RWwm 9 144 to 159 RWrn 104 160 to 175 RWwm 10 160 to 175 RWrn 114 176 to 191 RWwm 11 176 to 191 m n Address assigned to the master station in the station number setting 4 Remote register list w
37. f data link startup by parameters of the buffer memory XT Data link startup error by parameters of the buffer memory XF Module READY X1000 to X107F Remote device RX YO Refresh instruction Y6 Data link startup request by parameters of the buffer memory Y60 Signal output when data link has an error Y1000 to Y107F Remote device RY MO Signal in which data link status is stored M10 Pulse signal to start the network parameter setting 7 M100 Master control contact DO to D4 Device for setting the network parameter D1000 to D100F Remote register input from the AnyWire Bitty side D1100 to D110F Remote register output to the AnyWire Bitty side 39 uo Bumes 40 2 Program example No XOF PLS M10 10 11 DO Mov K3 D1 mov D2 TO HI 00 mov Kl D3 TO H6 D3 mov H1401 D4 H20 D4 N10 SET Yo SET Y6 X6 RST Y6 xi FROM 668 D100 RST Y6 XOF xi gt FROM HO H680 KIMO NO r g wc NO M100 NO 60 M100 X0 1 XOF T T FROM HOEO K4X1000 8 FROM H2EO D1000 Kt6 TO Hi60 K4Y1000 K8 TO HIEO 01100 K16 MCR NO END All connect count 1 Retry count 3 Automatic reconnection station count 1 Write to the master s
38. f master modules refer to the user s manual of the master module used 6 1 Remote I O Signal List 1 Remote I O signal when 1 station is occupied Signal direction Master module to NZ2AW1C1BY Signal direction NZ2AW1C1BY to master module Remote input RX Name Remote output RY Name RXn0 to RX n 1 9 Use prohibited RYn0 to RY n 1 9 Use prohibited RX n 1 A Error status flag RY n 1 A Error reset request flag RX n 1 B Remote station READY RY n 1 B to RY n 1 F Use prohibited RX n 1 C to RX n 1 F Use prohibited n Address assigned to the master station in the station number setting 2 Remote I O signal when 2 stations are occupied Signal direction NZ2AW1C1BY to master module Signal direction Master module to NZ2AW1C1BY Remote input RX Name Remote output RY Name RXn0 to RX n 3 9 Use prohibited RYn0 to RY n 3 9 Use prohibited RX n 3 A Error status flag RY n 3 A Error reset request flag RX n 3 B Remote station READY RY n 3 B to RY n 3 F Use prohibited RX n 3 C to RX n 3 F Use prohibited 3 o n Address assigned to the master station in the station number setting 5 3 Remote I O signal when 3 stations are occupied Signal direction NZ2AW1C1BY to master module Signal direction Master module to NZ2AW1C1BY Remote input RX Name Remote output RY Name RXn0 to RX n 5 9 Use prohibited RYn0 to RY n 5 9 Use prohibited RX n 5 A Erro
39. f occupied stations 1 station occupied 2 stations occupied 3 stations occupied 4 stations occupied Remote station READY RX n 1 A RX n 3 A RX n 5 A RX n 7 A Error status flag RX n 1 B RX n 3 B RX n 5 B RX n 7 B Error reset request flag RY n 1 A RY n 3 A RY n 5 A RY n 7 A n Address assigned to the master station in the station number setting jesey JoJ3 9 35 CHAPTER 7 PREPARATION FOR OPERATION 7 1 Setting by the Parameter This section provides an example of the parameter setting for the MELSEC Q series systems Point In the MELSEC A QnA series systems settings cannot be configured by the network parameters Configure the setting on the program gt Page 39 Section 7 2 When applying the program examples introduced in this manual to the actual system ensure the applicability and confirm that it does not cause system control problems 1 System configuration Master module QJ61BT11N Start I O number 0000 X0 to X1F YO to Y1F 000000 md IESE NZ2AW1C1BY station No 1 4 stations occupied AnyWire Bitty remote I O module input t Address 0 to 15 AnyWire Bitty
40. he time required for a bridge module and all slave modules to update I O data 11 1 1 Transmission cycle time of the NZ2AW1C1BY The transmission cycle time of the NZ2AW1C1BY is as shown in the table below Number of occupied stations Transmission cycle time 1 station occupied 3 2ms 2 stations occupied 5 5ms 3 stations occupied 10 2ms 4 stations occupied 10 2ms 11 1 2 Effects of the double check system 1 Input Unless the same data is received twice successively on the NZ2AW1C1BY side the input area data is not updated double check Therefore a minimum of one transmission cycle time and a maximum of two transmission cycle time are required as the data response time Signals of two transmission cycle time or less may not be captured depending on the timing Therefore to ensure the response provide an input signal that is longer than two transmission cycle time Sampling timing Sampling timing ed v 2 pus 2 Minimum one transmission cycle time imr X Input data change Input data update Sampling timing Sampling timing Sampling timing Maximum data Y Maximum two transmissi le ti response time laximum two transmission cycle time Input data change Input data update 2 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
41. hen 4 stations are occupied Sixteen words are used respectively for input and output of AnyWire Bitty Set the address for slave modules within the range from 0 to 255 for both input and output modules CC Link side AnyWire Bitty side CC Link side AnyWire Bitty side remote register input input address remote register output output address RWrn 0j 0 to 15 RWwm 0 0 to 15 RWrm 1y 16 to 31 RWwm 1 4 16 to 31 RWrn 2y 32 to 47 RWwm 2y 32 to 47 2 2 D 2 RWrm 13 208 to 223 RWwm 13 208 to 223 RWm 14y 224 to 239 RWwm 14 224 to 239 8 RWrn 15 240 to 255 RWwm 15 240 to 255 ad m n Address assigned to the master station in the station number setting 33 6 3 Correspondence between the Remote Register and 34 AnyWire Address This section describes the correspondence between the remote register and AnyWire address Ex when set with RWrn D1000 and the network parameters of GX Works2 Remote register 2 2 4 pene e n o s v s s eleli ho Fs oo s ae ar n o l D1001 F AnyWire input address 31 l D1000 0 AnyWire input address 0 The slave module requires Address setting which specifies the start number assigned in the transmission frame The settings are configured in 1 point unit The addresses of both an input slave module e g input remote I O module and an output slave module e g
42. ie i ens dda 48 11 1 1 Transmission cycle time of the NZ2AW1C1BY 48 11 1 2 Effects of the double check 48 11 2 Transmission Delay 49 11 2 1 Slave module input to bridge module 49 11 2 2 Bridge module to slave module output 50 CHAPTER 12 TROUBLESHOOTING 51 12 1 Troubleshooting FlOW ioi Redon oe oC od ite on gs 52 12 1 1 When transmission does not 52 12 1 2 When the ERR LED on the CC Link master station is flashing 53 12 1 3 When the LINK LED on the bridge module does not 55 12 1 4 When the LINK LED on the slave module does not flash 55 12 1 5 When the slave module does not operate as 56 12 2 Symptom checklist date 57 REVISIONS s or um cese PEE EIN Sg Iu IET Seed RETE 60 WARRANTY ocho cette Shia eee uer ad Lm bl E Du 61 TERMS Unless otherwise specified this manual uses the following terms Term NZ2AW1C1BY Description The abbreviation for the CC Link AnyWire Bitty bridge module
43. n mode s 28 CHAPTER 5 Data I O lt gt Page 31 CHAPTER 6 Page 36 CHAPTER 7 Details of the LED display 5 41 CHAPTER 8 For details on the entire AnyWire system refer to the AnyWire Bitty Series Technical Manual manufactured by AnyWire Corporation 51 12 1 Troubleshooting Flow 12 1 1 When transmission does not start Transmission does not start Is the RDY LED on the bridge module on External power supply may be insufficient YES or the module may be in failure Check the following 1 Is the voltage for external power supply within a specified range 2 Is the power supply stable Has a momentary power failure for 0 6ms or more occurred to the 24 power supply 3 Isn t the power cable disconnected 4 sn t there any reverse connection loose screw or short circuited wiring 5 Are the capacity of the external power supply and the diameter of the power supply cable appropriate Is the LINK LED on the bridge module flashing Page 55 Section 12 1 3 Refer to the troubleshooting steps for when the LINK LED on the bridge module does not flash YES Is the LINK LED on the slave module flashing 3 Page 55 Section 12 1 4 Refer to the troubleshooting steps for when
44. ndicator Name Color Description On Module operating status RDY Module READY Green Off Power is not being supplied or the module is in failure Green Flashing During normal transmission Disconnection of the DP or AnyWire Bitty DN transmission line V The SET LED is off LINK transmission status or no response from the alarm display slave module The SET LED is flashing The DP DN signal line At every 1 second short circuited On During automatic address detection operation Off During normal transmission Flashing Automatic address The detected address is being written on EEPROM SET Sa Orange at every 20ms detection display Flashing 2 The DP DN signal line short circuited the LINK LED at every turns in red 1 second uogeoipu q31 1 8 43 CHAPTER 9 woNITORING FUNCTION The slave module of AnyWire Bitty has a specific ID address When the NZ2AW1C1BY sends an ID address the disconnection and the existence of slave modules are detected by receiving a reply from the slave module having the corresponding ID address The NZ2AW1C1BY uses the automatic address detection operation to store the addresses of the currently connected slave modules in the EEPROM This information is stored even when the power is turned off Then registered IDs addresses are sent in order If the slave module does not reply the LINK LED notifies of the disconnec
45. om the master station to the slave station RWr Remote register Read area for CC Link Information input in 16 bit units from the slave station to the master station CHAPTER 1 OVERVIEW CHAPTER 1 overview This manual describes the specifications part names and settings of the NZ2AW1C1BY CC Link AnyWire Bitty bridge module hereafter abbreviated as the NZ2AW1C1BY used as a remote device station in the CC Link system This module a product of the joint development project with Anywire Corporation allows the AnyWire Bitty system to be connected with CC Link The AnyWire Bitty system provides a high speed and highly reliable sensor network system Features of the NZ2AW1C1BY gt The NZ2AW1C1BY is the bridge module used for the connection between AnyWire Bitty having the DC transmission line system and CC Link Disconnections can be detected even when the wiring is branched Up to 256 remote input points and 256 remote output points can be connected to one NZ2AW1C1BY module MELSEC Q series AnyWire Bitty remote I O module 1 AnyWire Bitty AnyWire Bitty remote I O module output AnyWire Bitty A terminating resistor 1 Manufactured by Anywire Corporati
46. on 10 CHAPTER 2 SPECIFICATIONS CHAPTER 2 SPECIFICATIONS 2 1 c eneral Specifications Item Specifications Operating ambient 0 to 55 temperature Storage ambient 25 to 75 C temperature Operating ambient humidity Storage ambient humidity 10 to 90 RH non condensing 10 to 90 RH non condensing Vibration resistance Shock resistance Frequency constant Half amplitude The numberot acceleration sweeps Under 5 to 9Hz 3 5mm 10 times each in JIS B 3502 intermittent X Y and Z Compliant with vibration 9 to 150Hz 9 8m s nr directions IEC 61131 25 Under 5 to 9Hz 1 75mm continuous vibration 9 to 150Hz 4 9m s Compliant with JIS B 3502 and IEC 61131 2 147m s 3 times each in X Y and Z directions Operating atmosphere No corrosive gas Operating altitude 2000m or less Installation location Inside a control panel 3 Overvoltage Il or less category Pollution degree 2 2 or less 1 2 3 4 5 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 applies to equipment for which electrical power is supplied from fixed facilities The surge voltage withstand level for up to the rated voltage of 300V is 2500V This index indicates the degree to
47. or Three wire sensor current consumption 13mA Number of sensors 4 per module Power voltage 24V 10 Diameter of connection cable Cable diameter 0 75 2 Power supply for the NZ2AW1C1BY Power voltage 24V Calculation result Calculation formula 1 Ihin A x m lt Available supply current value for transmission line maximum 0 029 0 013 x 4 x 122 0 972A x 1A OK Calculation formula 2 Vm V AV V gt 20V 24V 0 972 x 50 x 0 025 x 2 24V 2 43V 21 57V gt 20V OK Calculation formula 3 Vm V AV V gt Lower limit of allowable voltage range for connected load 21 57V 21 6V NG Based on the above calculation results 1 through 3 system implementation has been found impossible However changing the diameter of the connection cable and the power supply for the NZ2AW1C1BY enables the system to be configured 16 CHAPTER 2 SPECIFICATIONS 2 2 3 Power supply sequence and handling of I O data An incorrect input output may occur depending on the supply procedure of the power of the NZ2AW1C1BY and the power supply for slave module Pay attention to the following points Do not make the access related to this module until the remote station READY signal turns on after powering on the NZ2AW1C1BY Supply the power according to the steps below 1 Turn on the programmable controller CC Link master module 2 Turn on the bridge module NZ2AW1C1BY 3 Turn on th
48. orrect wiring may cause a fire or failure Tighten the terminal screw 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 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 damage modules and external devices Adjust a cable length and a module position to prevent disconnection of a connector 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 AnyWire Bitty system Use 24VDC stabilized power supplies for devices in the AnyWire Bitty 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 Wiring Precautions N CAUTION Make sure to place the communication and power cables to be connected to the module in a duct or fasten them using a clamp If the cables are not placed in a duct or fastened with a clamp their positions may be unstable or mov
49. ot be held responsible for any problems involving industrial property rights which may occur as a result of using the contents noted in this manual 2011 MITSUBISHI ELECTRIC CORPORATION 60 WARRANTY Please confirm the following product warranty details before using this product 1 Gratis Warranty Term and Gratis Warranty Range If any faults or defects hereinafter Failure found to be the responsibility of Mitsubishi occurs during use of the product within the gratis warranty term the product shall be repaired at no cost via the sales representative or Mitsubishi Service Company However if repairs are required onsite at domestic or overseas location expenses to send an engineer will be solely at the customer s discretion Mitsubishi shall not be held responsible for any re commissioning maintenance or testing on site that involves replacement of the failed module Gratis Warranty Term The gratis warranty term of the product shall be for one year after the date of purchase or delivery to a designated place Note that after manufacture and shipment from Mitsubishi the maximum distribution period shall be six 6 months and the longest gratis warranty term after manufacturing shall be eighteen 18 months The gratis warranty term of repair parts shall not exceed the gratis warranty term before repairs Gratis Warranty Range 1 The range shall be limited to normal use within the usage state usage methods and usag
50. ould not exceed the maximum transmission distance set for the system to branch lines 27 Jo sisoy Buneuiuue ep CHAPTER 5 SWITCH SETTING 5 1 CC Link Side 1 Station number setting switch Set the station number of CC Link using the station number setting switch STATION NO switch The number of occupied stations is set by using the specification selection switch MODE switch X SSSSSS FG SLD DG DB DA Station number jd setting switch RUN ERR RDY Ou CI SD RD UNK SET Co L1 Ca4v 24V DP Lig ov 0N DN selec we Station number setting switch Station number x10 x1 1 0 1 2 0 2 3 0 3 4 0 4 61 The largest station number when 4 stations are occupied n 1 62 The largest station number 6 2 when 3 stations are occupied 63 The largest station number 6 3 when 2 stations are occupied 64 The largest station number 6 when 1 station is occupied 1 All the switch positions are set to zero 0 when the produ
51. r status flag RY n 5 A Error reset request flag RX n 5 B Remote station READY RY n 5 B to RY n 5 F Use prohibited RX n 5 C to RX n 5 F Use prohibited n Address assigned to the master station in the station number setting 4 Remote I O signal when 4 stations are occupied Signal direction NZ2AW1C1BY to master module Signal direction Master module to NZ2AW1C1BY Remote input RX Name Remote output RY Name RXn0 to RX n 7 9 Use prohibited RYn0 to RY n 7 9 Use prohibited RX n 7 A Error status flag RY n 7 A Error reset request flag RX n 7 B Remote station READY RY n 7 B to RY n 7 F Use prohibited RX n 7 C to RX n 7 F Use prohibited n Address assigned to the master station in the station number setting 31 6 2 Remote Register List Input or output of AnyWire Bitty uses the remote register of CC Link 1 Remote register list when 1 station is occupied Four words are used respectively for input and output of AnyWire Bitty Set the address for slave modules within the range from 0 to 63 for both input and output modules CC Link side AnyWire Bitty side CC Link side AnyWire Bitty side remote register input input address remote register output output address RWrn 04 0 to 15 RWwm 0y4 0 to 15 RWrn 1 16 to 31 RWwm 1 4 16 to 31 RWrn 2y 32 to 47 RWwm 2y 32 to 47 RWm 3y 48 to 63 RWwm 3y 48 to 63 m n Address assigned to the master station in the station number s
52. so may cause the module to fail or malfunction Before handling the module touch a grounded metal object to discharge the static electricity from the human body Failure to do so may cause the module to fail or malfunction Disposal Precautions N CAUTION When When disposing of this product treat itas industrial waste sd of this product treat it as industrial waste CONDITIONS OF USE FOR THE PRODUCT 1 Mitsubishi 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 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
53. t any problem provided that the diameter of connection cables meets the requirement above 13 2 SOURWOLIOd ZZ 2 2 2 Scope of the power supply for the transmission line To implement the AnyWire Bitty system all conditions specified by the following calculation formulas 1 to 3 have to be met Calculation formula 1 A Ihin x m Iho x n Izdin x p Izdo lt the maximum value of the transmission line supply current The number of connected modules by type m n p q Calculation formula 2 Vm V AV V 20V Calculation formula 3 Vm V AV V gt the lowest allowable voltage of the connected load m Description of calculation formula 1 1 Related constant of non isolated slave modules lhin Iho In non isolated slave modules current required for the control circuit and connection load is supplied through the transmission line DP and DN lhin A Current consumption of non isolated input module Internal current consumption of non isolated input module Current consumption of connected load three wire sensor x Number of points Iho A Current consumption of non isolated output module Internal current consumption of non isolated output module Current consumption of connected load x Number of points Non isolated slave module Control circuit
54. tation CPU module on the master station in error Data link status Continue Write to the master station Remote device station Exclusive station 4 Station No 1 Write to the master station Refresh instruction Data link startup request ON Data link startup request OFF Read the parameter status when the startup has not been completed Data link startup request OFF Read the data link status Turn on the MC contact when data link is in normal state Turn on Y60 when data link is in error Read RX00 to RX7F to X1000 to X107F Read RWr0 to RWrF to D1000 to D100F Write Y1000 to Y107F to RYOO to Write 01100 to D110F to RWwO0 to RWwF CHAPTER 8 POWER ON AND PART INDICATION CHAPTER 8 PowWER ON AND PART INDICATION Check each connection before turning the power on The status of the indicator is as shown below when each setting and connection are correct 999999 FG 510 DG DB DA MTSUSISHI MASE maawicisy xo a BRATE STATION NO LED indicator mu ERR 5 E g et SD RD cJ aav o Lis ov DW DN
55. terlock circuit in the sequence program to ensure that the entire system will operate safely Design Precautions N CAUTION 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 Configure safety circuits such as an emergency stop circuit and interlock circuit external to the AnyWire Bitty system Installation Precautions N 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 Do not directly touch any conductive parts or electronic components of the module Doing so can cause malfunction or failure of the module Wiring Precautions N CAUTION Shut off the external power supply for the system in all phases before wiring Failure to do so may result in electric shock or cause the module to fail or malfunction Ground the FG terminals to the protective ground conductor dedicated to the programmable controller Failure to do so may result in electric shock or malfunction Check the rated voltage and terminal layout before wiring to the module and connect the cables correctly Connecting a power supply with a different voltage rating or inc
56. terrupt Settings Double click Station Information to open the Station Information Setting window as shown below Reserve Invalid Station Select Expanded Cyclic Exclusive pe dd Intelligent Buffer Select Word Setting Count Remote Device Station vide Exclusive Station 4 v 128 Points No Setting Bees pnm In this sample setting the correspondence between each signal and device is as indicated in the following table Signal Name Corresponding device for station number 1 Use prohibited X1000 to X10D9 Error status flag X107A ii Remote station READY X107B Use prohibited X10DC to X10DF Use prohibited Y1000 to Y10D9 RY Error reset request flag Y107A Use prohibited Y10DB to Y10DF Input address 0 for AnyWire Bitty D1000 0 Input address 1 for AnyWire Bitty D1000 1 RWr Input address 14 for AnyWire Bitty D1000 E Input address 15 for AnyWire Bitty D1000 F Output address 0 for AnyWire Bitty D1100 0 Output address 1 for AnyWire Bitty D1100 1 RWw Output address 14 for AnyWire Bitty D1100 E Output address 15 for AnyWire Bitty D1100 F 38 CHAPTER 7 PREPARATION FOR OPERATION 7 2 Setting on the Program This section provides an example of the setting for MELSEC QnA series systems 1 List of devices used in the program example Device Description Module failure x1 Data link status of the host station X6 Successful completion o
57. the following 1 Isn t DP DN transmission line short circuited 2 Isn t DP DN transmission line disconnected 3 Isn t there any reverse connection or loose Screw The applicable module may be in failure Please consult your local Mitsubishi service center or representative providing a detailed description of the problem 55 12 1 5 when the slave module does not operate as expected 56 The slave module does not operate as expected Is the terminating resistor properly connected If the terminating resistor is not properly connected transmission becomes unstable Check the following 1 Is the terminating resistor connected properly 2 Isn t the terminating resistor reverse connected YES Is the address setting of the slave module correct Check the following YES 1 Isn t the address of the slave module duplicated 2 Has the address of the slave module correctly configured Is the I O indication LED on the slave module on For the output check the memory map For the input check the operating current of the sensor remaining voltage and memory map Is the transmission NO line length in accordance with the specification Check the following 1 Check that the total length of the transmission line is in accordance with the specification Is the transmission line thickness in accordance with the specification
58. time 48 CHAPTER 11 TRANSMISSION TIME 11 2 Transmission Delay Time This section describes the transmission delay time time until data is transmitted 11 2 1 Slave module input to bridge module The figure below shows the time between a signal input to the slave module and the bridge module remote device RX turning on off Input 1 1 Slave module 1 Signal delay time of the slave module 2 1 to 2 transmision cycle time NZ2AW1C1BY 3 Processing time on the bridge module side Output to the CC Link side Calculation formula 1 Signal delay time of the slave module 2 Transmission cycle time x 2 3 Processing time on the bridge module side ms Calculation example 1 Signal delay time of the slave module Signal delay time of the slave module is 0 17ms 0 17 ms 2 Transmission cycle time x 2 Number of transmission points is set to 512 points 10 2 x 2 20 4 ms 3 Processing time on the bridge module side Processing time of the NZ2AW1C1BY is 0 592ms 0 592 ms ejeq uoissiusueJ 2711 eBpuq 1 2 Therefore the transmission delay time is 0 17 20 4 0 592 21 ms 49 11 2 2 Bridge module to slave module output 50 The figure below shows the time between the bridge module remote device RY turning on off and the slave module output turning on off 1 1 Slave module 3 5 Output
59. tion 9 1 Automatic Address Detection Automatic address detection is a function to store the ID address of the connected slave module in the EEPROM of the NZ2AW1C1BY Operate the automatic address detection in the following situations When starting system operation with all the slave modules connected to the bridge module When adding a slave module When deleting a slave module When changing the address of a slave module Procedure 1 2 3 44 Check that all of the slave modules are operating normally X X Keep pressing the SET switch until the SET LED orange turns on S SSS SS When the SET LED turns on and off after flashing the ID address FG SLD DG DB DA MITSUBISHI MASIE maawicisy B RATE has been stored SET Switch RUN ERR RDY oOo oO 50 RD LINK LL 24 DP DP Lig ov DN DW PEREL peee Point During automatic address detection input or output may not be accepted Operate an automatic address detection in the status that does not affect the operation of the equipment such as while stopping the program execution of the programmable controller When an error such as a short circuit occurs in the AnyWir
60. ube or an insulation tube Use a wire having a core of 1 25mm 0 75mm for the connection to the terminal block Page 12 Section 2 2 Point P Do not send multiple transmission lines DP and DN using a multicore cable DP DP DN DN DP DP DN DN 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 Do not connect soldered cables directly to the terminals Doing so may loosen the screws resulting in a poor contact CHAPTER 4 CONNECTIONS 4 3 Terminating Resistor To ensure more stable transmission quality connect the terminating resistor ATO manufactured by Anywire Corporation at the end of the transmission line Terminating resistor connection NZ2AW1C1BY The end of a line Main line Important Connect a terminating resistor at the end of a line for one master module Branch of transmission lines Example NZ2AW1C1BY AnyWire at the end Main line Branch line 40m or longer Connect one terminating resistor at the end of a branch line that exceeds 40m Three terminating resistors can be connected in total in the AnyWire Bitty system Total length Basic lt lt gt B The total length of the transmission distance for the AnyWire Bitty system can be calculated from A B Note that the total length sh
61. 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 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 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 In IEC 61131 2 2007 edition the output frequency range is defined as shown below Under intermittent vibration 5 to 8 4Hz 8 4Hz to 150Hz Under continuous vibration 5 to 8 4Hz 8 4Hz to 150Hz 11 72 2 2 Performance Specifications 2 2 1 Performance specifications Classification Item Specifications Station type Remote device station CC Link version Ver 1 10 Communication speed 10M 5M 2 5M 625K 156Kbps switching by transmission speed setting switch CC Link side Remote device stations 1 to 4 are occupied according to the setting of the specification selection switch 1 station RX RY number of occupied points 32 points RWr RWw 4 4 2 stations RX RY number of occupied points 64 points RWr
62. wiring for AnyWire Bitty LH grounding Is the supply voltage within the allowable voltage 5 Check the power voltage The LINKLED 8196 Is the power supply line disconnected omthe slave Dee EPOR Check the wiring for AnyWire Bitty o module does not Is the power supply terminal loose flash Is the DP DN signal terminal loose Check the wiring for AnyWire Bitty Is the DP DN signal line disconnected Check the wiring for AnyWire Bitty Is the DP DN signal line disconnected Check the wiring for AnyWire Bitty The LINK LED Check the status of the slave module and the of the At the startup was the automatic address detection A wiring for AnyWire Bitty and operate the NZ2AW1C1BY operated correctly j automatic address detection turns on in red Are the screws on the terminal block loose Check the wiring for AnyWire Bitty The LINK LED of the AE 221 Is the DP DN signal line short circuited Check the wiring for AnyWire Bitty NZ2AW1C1BY turns off 58 CHAPTER 12 TROUBLESHOOTING Memo Isippoeuo uojdu As 22 59 REVISIONS The manual number is given on the bottom left of the back cover Print date June 2011 SH NA 080991ENG A First edition 0 000000 edition Japanese manual version SH 080990 A This manual confers no industrial property rights or any rights of any other kind nor does it confer any patent licenses Mitsubishi Electric Corporation cann
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