MELSECNET/H Interface Board User's Manual (For SW0DNC
Contents
1. To judge which system in the Redundant CPU system is being accessed by MELSECNET H board create a program to monitor the following special relays 1 When checking which system is being accessed System A or System B e Identifies system A system B of a redundant system e Remains ON OFF even if the tracking cable is disconnected while the redundant system is running System A SM1511 identification flag mM System A System g Atthe time of TRK CABLE ERR Error code 6120 occurrence System not determined System B SM1512 identification SMi51 ON OFF flag 2 When checking the operation system status outer Control Standby system z status SM1516 App 2 e Indicates the CPU module operation status e Remains ON OFF even if the tracking cable is disconnected while the redundant system is running Control Standby At the time of TRK CABLE ERR Error code system system 6120 occurrence System not determined swisis ON OF 5 1516 2 APPENDIX MELSEC 3 Retry processing for error that will occur during system switching processing When the MELSEC data link library is used to access the Redundant CPU during system switching being processed by the Redundant CPU a system switching error error code 4248 CPU starting error error code 4004n other system CPU module error error2. 12 16 12 16 12 APPLICATION FUNCTIONS MELSEC 1 When a network is connected in a loop as shown in the figure below make sure to set the routing parameters so that the same relay station is routed for both the route from request source to request designation and the route back from request destination to request source Do not set the destination and returning paths to circle the entire loop The first relay station in the return path from the request destination is determined by the relay station in the forward path thus data cannot be transferred to a station beyond that relay station and an error occurs Request A indicates the path from the request source to the request destination B and C indicate the path from the request destination to the request source Avoid path C when setting the return path Request destination 2 When data is sent to a remote network by transient transmission using the routing parameters data is transferred through many networks thus the amount of transmission data and the number of transmissions may affect the entire system For example in network No 2 to 5 in the figure above the link scan time may become temporarily longer and there may be delays in the transient transmission of the host because of the transient transmissions from other networks When using the routing parameters design the transient transmission b
3. Request source Network No Relay station A N Network No O Request destination To access network it is necessary to route through station No A of network No 1 Y MORE Intermediate Intermediate network No network No station No 1 2 Mure RT 12 15 12 15 12 APPLICATION FUNCTIONS MELSEC 3 Settings for different network system configurations and setting contents The stations to set for the transient transmission and the contents of the routing parameters vary depending on the system configuration a Single network system It is not necessary to set the routing parameters for the transient transmission to the same network Request source C Network No 1 m Request destination b Multiple network system two networks Set the routing parameters only for the request source station The route for reaching the request destination network number 2 must be set for the request source station Request source Relay station Network No 2 d Network No destination Request c Multiple network system three networks Set the routing parameters for the request source and the relay stations The route for reaching the request destinatio
4. 3 2 3 3 Optical Fiber Cable Specification 3 4 3 4 Coaxial Cable 3 4 A 11 A 11 4 FUNCTION 4 1to4 6 4 1 Function 161 ee bte abad udi ge bile iue 4 1 4 2 Specifications of the Link Data Sending Receiving Processing 4 2 4 2 1 Link data sending receiving processing seeeeeneneenenen emen 4 2 4 3 Driver WDT T ncti n a tete tdt apte uds 4 5 5 EMC AND LOW VOLTAGE DIRECTIVE 5 110 5 6 5 1 Measures to comply with the EMC Directive ssesssseeeeeeeneneneneen emen 5 1 5 1 1 EMC Directive related standards ssssssssssssssssseeeeeee eee 5 2 5 1 2 Installation in a control panel 5 3 Cables nt hx e 5 4 5 1 4 NETE LEE o A e I 5 5 5 1 5 Noise filter power supply line filter 5 5 5 2 Requirements for Conformance to Low Voltage Directive sssseeene 5 6 6 1 Procedure Up to the Point of Operation cccccceecceeeceeeeeeeeeeeeeeeeeeeaeeeeaceeseaeeseaeessaeeseeeeseaeeseeeteneessaees 6 1 6 2 Part Names and Sengsara enne enne nnns 6 2 0 3 installation ote a tee
5. 7 2 7 2 Network Settings nano eb dade ek dade eb nane een aee endete ete rs 7 3 7 271 Network NO ee teen ta ete tr Pee o Reed en a 7 3 122 2 tation NO n d utet tet eid cr de 7 3 7 2 3 Control station Normal station sss enne nennt ennt 7 3 po cron rere 7 4 2 5 Mode sSettlhg ez ER D RU IDEE bt RIEN I 7 4 7 2 6 Parameter setting example esee tenente tentia teta 7 5 A 12 12 3 GOMMONMN Parameters en ed eed oe ec ee eed oe etes etie ater 7 6 7 3 1 Send range for each station LB LW 7 6 7 3 2 Send range for each station LX LY settings 7 8 Foa Stallone incon tone uptime It mtus int nter uie 7 10 7 3 4 Designation of the I O master station ssssssssseseeeeeeeeeneneeeeeee nennen 7 10 Reserved station Settirig 5 n inne aenea en ae idee RO Reda 7 10 13 6 Palring SOUS csc vedi envied vec dade dedito ndm 7 10 TA Supplementary setting gen amu ina ame pde agp end ep e ep en ddp 7 11 7 5 Control Station Return Setting nennen nennen enne nnns 7 12 8 1 Installation and Uninstallation Precautions
6. enn 14 11 14 3 1 Checking personal computer and operating system ssssseeeeeneee 14 11 14 3 2 Checking on Event Viewer screen sssssssssssssseeeeeneee nennen nennen enne ens 14 12 14 3 3 Checking on Device Manager screen sesssssssssseeenenneneenneneennenrn nennen 14 14 14 4 Flowchart to Use when Data Link is not Achieved ssssseeneemen 14 15 14 4 1 Flowchart to use when RUN LED is unlit essseeeeeennn m 14 16 14 4 2 Flowchart to use when SD RD LED does not turn 14 17 14 4 3 Flowchart to use when L ERR LED turns 14 18 14 4 4 Flowchart to use when unable to achieve data link for entire 14 19 14 4 5 Flowchart to use when unable to achieve data link for specific 14 21 A 14 14 14 5 Flowchart to Use when Error Occurred During Data 14 23 14 5 1 Flowchart to use when unexpected value is input to specific link device 14 23 14 5 2 Flowchart to use when data cannot be written or read in user 14 23 14 5 3 Flowchart to use when communication is disabled from time to time during user program aie enn i eI teens e uini 14 24 14 5 4 Precautions for installing other opt
7. Security Alert Driver Installation 4 xi The driver software you are installing for H WinDriver has not been properly signed with Authenticade TM technology Therefore Windows cannot tell if the software has been modified since it was published The publisher s identity cannot be verified because of a problem The signature contains a time stamp However the time stamp could not be verified Do you still want to install this driver software j No More Info Security Alert Driver Installation The driver software you are installing for EZSocketGOT has not been properly signed with Authenticode TM technology Therefore Windows cannot tell if the software has been modified since it was published The publisher s identity cannot be verified because of a problem The signature contains time stamp However the time stamp could not be verified Do you still want to install this driver software More Info Found New Hardware Wizard Welcome to the Found New Hardware Wizard Windows will search for current and updated software by locking on your computer on the hardware installation CD or on the Windows Update Web site with your permission Read our privacy policy Can Windows connect to Windows Update to search for software Yes this time only C now and every time connect a device ONG net ihi ine Click Next to continue Found New Hardware Wizard Welc
8. Q80BD J71LP21 25 Power supply gt 2 2 o z o A Optical fiber cable 2 2 2 Coaxial bus system In the coaxial bus system 1 control station and 31 normal stations a total of 32 stations can be connected As in the optical loop system any station number can be assigned as the control station However only 1 station can be assigned as the control station per system Station No 1 Station No 2 Station No 32 control station normal station normal station Personal gt gt computer amp QCPU QJ71 amp QCPU QJ71 E BR141 E BR11 o o a a Coaxial cable mE a Terminal resistor Terminal resister A6RCON R75 A6RCON R75 2 SYSTEM CONFIGURATION MELSEC 2 2 3 Setting items In a single network system the items which need to be set in the case that the MELSECNET H board is used as the control station or normal station are as follows MELSECNET H board settings are set by the MNETH Utility Setting item Control station Normal station Channel setting x Section 9 2 2 H Network No Station No Section 9 2 3 Control station Normal station Mode Setting Routing parameter setting Section 9 2 4 B W setting i i mon XY setin E 9 o Section 9 2 5 parameter Reserved station setting setting Supplementary setting Opposite party setting Section 9 2 1
9. 1 The routing parameters are common with channels No 51 to 54 They cannot be set one channel No at a time 2 Up to 64 routine parameters can be set MELSECNET H Routing Parameter Setting r Data Setting Transfer to Intermediate Intermediate No Network No Network No Sta No 3 a a 1 n 3 a Set r Setting Data No Transfer to Network No __ Intermediate Network No Intermediate Sta Change 1 2 1 E 2 3 2 B 3 EL 3 Delete Channel 51 15 1 slot Composition without MELSECNET 10 network Cancel Manual Intermediate Network Intermediate Sta No Input the relay destination station number button Enters the data that has been set in Set data Displays a list of data that has been set so far Selecting a line to be changed and clicking the button will change the entered set data Double clicking the line to be changed also does the same operation button Selecting a line to delete and clicking the button will delete the entered set data Selects the channel No where the settings are to be changed for the network configuration If MELSECNET 10 does not exist on the routing path select Composition without MELSECNET 10 network 1 1 If a MELSECNET 10 board exists in the network do not select the checkbox Due to the maximum transmitted data size 1920 byte for the configuration which is not including MELSECNET 10 a
10. 1 a E S E Ns3 sending 2 i 3 E 3 4 sending 2 1 E 5 1 i 1 1 4 1 1 1 1 1 1 Normal link scan j link scan link scan link scan gt it gt 4 Pi 1 1 Transmission processing interval 1 12 5 12 5 12 APPLICATION FUNCTIONS MELSEC b When Fixed term cycle interval Maximum no of transients 2 and System times Maximum no of transients 2 are set Ns Ns z Low speed cyclic transmission Low speed data Low speed data N Low speed data Low speed data gt Low speed data Normal link scan link scan 1 1 Me1 sending 9 E a 1 1 8 1 1 9 5 3 2 sending 9 i 1 d S i 3 sending 3 9 2 1 1 1 1 1 1 ji Ns4 sending 1 1 1 1 i H Transmission processing interva A v 3 Link cycle Link cycle examples of the low speed transmission are as shown below a When Transmit data of one station in 1 link scan is set Transmission processing interval in 2 Normal link scan Link cycle b When Fixed term cycle interval setting is set Transmission processing interval in 2 Waiting time Link cycle Fixed tim
11. Crimp terminal 2 Treatment of the coaxial cable ground a b Always use a double shielded coaxial cable MITSUBISHI CABLE 5C 2V CCY for the coaxial cables Q80BD J71BR11 Ground the double shielded coaxial cable by connecting its outer shield to the ground Refer to 1 for the grounding of the shield Shield J here Make sure to install a ferrite core for the cable 5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC 3 Grounding cables with a cable clamp Ground the shield of the external wiring cable to the control panel with the AD75CK cable clamp Mitsubishi Ground the shield within 20 to 30cm from the module MELSECNET H board nside the control panel B H 20 to 30cm Gas U For details on the AD75CK refer to the following AD75CK type Cable Clamping Instruction Manual 5 1 4 Ferrite core 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 immediately 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 Ferrite core used for the tests conducted by Mitsubishi ZCAT3035 1330 5 1 5 Noise filter power supply line filter No
12. In the case of the Q80BD J71LP21 25 Q81BD J71LP21 25 In the case of the Q80BD J71BR11 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J71LP21GE for the optical loop system for the coaxial bus system Do not connect anything T 2 Set the H W test in the mode settings in the Board Information screen of the MNETH utility 3 Click the Board Set button in the Board Information screen in the MNETH utility to run the H W test and check the execution state by the status of the LED s in the Board Information screen T PASS blinks during the test If T PASS blinks 20 times and ERROR LED does not blink the test is completed normally Also if the test ends abnormally the ERROR LED will blink as shown below to indicate the relevant error information a Both the optical loop system Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J7 1LP21G Q80BD J71LP21GE and the coaxial bus system Q80BD J71BR11 in common If the following LED s light up it means that the corresponding error has occurred so replace the MELSECNET H board 1 CRC LED lights up ROM Check Error 2 OVER LED lights up RAM Check Error 3 AB IF LED lights up Timer interrupt function check error b Optical loop system Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 QBO0BD J71LP21G Q80BD J71LP21GE only 1 TIME LED lights up Forward loop broken line check error 2 DATA LED ligh
13. NWARNING Be sure to shut off all phases of the external power supply used by the system before performing work such as installing the board and wiring If all power is not turned off there is a risk of electric shock or damage to the product When turning on the power and operating the module after having installed the board and doing the wiring always attach the cover for the device module in which the board is installed There is a risk of electric shock if the module cover is not attached NCAUTION Fix the board by tighten the board fixing screws within the specified torque range Under tightening may cause malfunction short circuit or malfunction Over tightening may damage the screw and or module resulting in drop short circuit or malfunction For the tightening torque of the board fixing screws refer to the manual supplied with the personal computer Always make sure to touch the grounded metal to discharge the electricity charged in the body etc before touching the board Failure to do so may cause a failure or malfunctions of the board Install the board to a personal computer which is compliant with PCI standard or PCI Express standard Refer to Section 2 5 Operating Environment Failure to do so may cause a failure or malfunction Securely mount the board to the PCI slot of the mounting device If the board is not mounted correctly this may lead to malfunctioning failure or cause the board to fall 6 PROCEDUR
14. YES Is communication with other station continued NO The RUN LED turned off while communicating Check PC hardware etc Replace the MELSECNET H board since the MELSECNET H board s RUN LED is broken 1 WDT error logs can be checked on the event viewer Refer to 14 3 2 14 16 14 16 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 4 2 Flowchart to use when SD RD LED does not turn on The board information screen of MNETH utility displays SD and RD LED status This function is the same as the MELSECNET H board s LED messages An error occurs Is the L ERR LED lit Go to Section 14 4 3 Is the control station parameter OK Check the control station parameter Does the RD LED remain unlit Does the SD LED remain unlit YES NO Normal Turn on off the B X and Y assigned to the host via PC Turn on off the B X and Y used by PC at other stations Monitor B X and Y via PC Monitor B X and Y at other stations Does the B X and Y turn on off at other stations Does the B X and Y turn on off at PC NO NO Replace the PC MELSECNET H board Are the monitor condition and user program normal NO YES Check the monitor condition or user program Replace the MELSECNET H board since the SD and
15. 1100 lt gt 11 1 1000 10FF 1100 lt gt 11FF 1200 lt gt 12 1000 lt gt 1100 lt gt 11 1200 lt gt 12FF 1000 10FF 1100 lt gt 11 1200 lt gt 12 Delete Setting Clear i Selects the channel MELSECNET H board performing the settings Block 1 setting Block 2 setting Switches the block that is set Total stati Input the total number of stations including the control station in the network that the Ne MELSECNET H board is the control station for Monitoring Time Sets the link scan time monitoring time Master Sta the station No of the I O master station Sta No No lInputthe station No of the station to be set or changed the station No of the station to be set or changed Send Range for Sending Range Assigns link devices LX LY 1 to 1 between the I O master station M station and other Each Station M L stations Sending Range Assigns link devices LX LY 1 to 1 between the I O master station M station and other M lt stations button Registers the set contents in each station s transmission range Send Range for Each Station Displays the set data contents up to the present time in one list Select the line to change then when the button is clicked the data which are registered Change button can be changed If the line to be changed is do
16. 12 APPLICATION FUNCTIONS MELSEC 3 System timer interval The low speed cyclic data are sent in the link cycle at the designated time By omitting year month and day in the setting the low speed cycle transmission can be activated yearly or monthly or daily Hour minute and second values must be entered Setting points 1 to 8 points Setting method 1 Click System times to select 2 Setyear month day hour minute and second to the designated time In the following screen example Points 1t03 By omitting year month and day data is sent every day at the designated time Points 4 and 5 By omitting year and month data is sent at the designated time monthly Point 6 By omitting the year data is sent at the designated time every year Points 7 and 8 Data is sent only once at the designated time Specification of low speed cyclic transmission Transmit data of one station in 1 scan C Fixed term cycle interval setting 200 Sec Systemlimes Bess i 1 3 p fo 2 s o ee 16 s 0 6 fe jo fo c en 1 The system timer operates based on the host s clock If used without matching the clocks on the sending station and receiving station there may be a time gap between the stations 2 When handling multiple data without the block guarantee per station function new and old data may coexist Apply interlocks to prevent the coexistense 12 8 12
17. Each Station Status 0 EE Transfer Status Normal Sta Loop Status Invalid Sta Transfer Status Invalid Sta Select Current Reserved Control Sta Control Sta Sta Sets the channel MELSECNET H board perform each station status Own Station Information Displays the host information Displays the communication status and loop status for every link station that is set using parameters Red Transfer Status Invalid Sta Indicates a baton pass status error Yellow Loop Status Invalid Sta Indicates a forward reverse loopstatus error White Transfer Status Normal Each Station Status Blue Select Contro Sta Sta Indicates the station in normal communication Indicates the station that is set as the control station Aqua Current Control Sta Indicates the station that is actually operating T as the control station Gray Reserve Sta Indicates the station that is set as a reserved station However this is valid only when the host is executing cyclic communication TILITY OPERATION ii Z MELSEC 9 2 8 Error history monitor screen operation This screen displays the history of loop errors communication errors and transient transmission errors 1 Up to 16 items are stored in the loop switch data history When there are more than 16 items items will be erased from the history starting with the oldest one From old to new No
18. the distances between stations For details refer to Section 6 4 1 2 Q80BD J71BR11 Specifications tem Q80BD J71BR11 Maximum links LX LY 8192 Points 16384 Points When in the MELSECNET 10 Mode 8192 Points 16384 Points When in the MELSECNET 10 Mode 8192 Points MELSECNET H mode MELSECNET 10 mode LY LB 8 2 LW x 2000 bytes MELSECNET H Extended mode LY LB 8 2 LW lt 35840 bytes Number of stations Connected to 1 network Maximum links in 1 station 32 Stations Control station 1 normal station 31 Connection cable Optical fiber cable Coaxial cable Cable n me Total extension cable length stations Total extension cable length in 1 network Can be extended to 2 5 km 8202 5 ft using a repeater unit AGBR10 AGBR10 DC 239 Communications system Synchronization system Encoding system NRZI encoding Non return to Zero inverted Transfer format Error control system Loop back function optical loop system only by abnormal detection and cable disconnection System down prevention through control station Error detection by the link special relay and link special register etc Transient transmission N N communications Special cyclic transmission Low speed cyclic transmission RAS function Number of boards that can be Maximum installed Installation slot PC PCI bus slot half size Exclusive slots 5V DC Internal current 0
19. 4 Install the utility again by following the installation procedure Refer to Section 8 2 When the instruction displayed on the screen is not effective refer to Section 14 3 3 5 If the personal computer does not operate normally after the reinstallaion check if the personal computer has any problem Operating Environment Refer to Section 2 5 Checking personal computer and operating system Refer to Section 14 3 1 If the troubleshooting above does not help refer to Section 14 9 14 2 2 Uninstallation failed When the uninstallation is failed uninstall the utility after the reinstallation by the following procedure 1 Check the installation and uninstallation precautions Refer to Section 8 1 2 Insert the CD ROM in the CD ROM drive 3 Display the Run screen from the Start menu or Quick Access Menu of Windows 4 Append A and execute Disk1 Setup exe of the CD ROM 5 Install the utility again by following the installation procedure Refer to Section 8 2 6 Perform the uninstallation 7 If the utility cannot be uninstalled normally check if the personal computer has any problem Operating Environment Refer to Section 2 5 Checking personal computer and operating system Refer to Section 14 3 1 If the troubleshooting above does not help refer to Section 14 9 14 5 14 5 14 TROUBLESHOOTING MELSEC 14 2 3 When the instruction displayed on the screen is not effective at installation The following
20. For cautions in the case of installing MELSECNET H in a multiple CPU system or redundant CPU system refer to Corresponding MELSECNET H Network System Reference Manual PLC to PLC network When accessing a multiple CPU system or Redundant CPU system use the MELSECNET H board and network module of the following function versions Programmable controller MELSECNET H board side network module Access to multiple All versions available Function version B or later CPU system Access to Redundant 1 Function version D or later Function version D or later CPU system 1 When using a MELSECNET H board of function version D or earlier access to a redundant CPU is not performed normally 2 SYSTEM CONFIGURATION MELSEC 2 5 Operating Environment The following table shows the operating environment for the MELSECNET H board For details on the personal computer and operating system refer to the instructions on the following pages Windows Windows supported personal computer 00 personal computer Required memory System requirements of the operating system must be met Personal pCI bus For Q80BD J7 1LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD computer specifications J71BR11 Compliant with PCI standard Rev 2 2 5V DC 32 bit bus Basic clock 33MHz For Q81BD J71LP21 25 Compliant with PCI Express standard Rev 1 0a 3 3 V DC Link width 1lane Basic clock 100MHz Mi
21. 2Ns3 Refer to Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network for the calculation of translation of delay time y 1Me1 2N 2 2Ns3 1Me2 READ READ request source request destination READ execution READ completion PC processing time nic of request source ve Link scan on request i Source side F Link scan on request destination side F t Sequence scan of request destination side When three or more networks are relayed through by means of routing add the processing time from one relay station to the other relay station to the routing transmission delay time 12 18 12 18 12 APPLICATION FUNCTIONS MELSEC 5 Setting example The routing parameter setting examples A and B are explained using the system configuration explained in Section 12 3 2 2 Relay station 3 Relay station 4 Relay station QCPU 1Mp1 I C Network No 1 2C Network No 2 yc Network No 3 4 Network ip QCPU 1Ns2 2Mp1 QCPU 2Ns2 3Ns3 QCPU 3Ns2 4Mp1 5 Relay station Pc 1Ns3 lacPU 1 aCPU 2Ns3 QCPU 3Me1 QCPU 4Nz2 5Mp1 1 Request source Network No 5 Network No 6 7 Relay station Network No 7 pz Lt 9 Request destinatio
22. 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 Microsoft Windows Windows NT Windows Vista Windows Server Visual Basic Visual C Visual Studio are registered trademarks of Microsoft Corporation in the United States and other countries Ethernet is a trademark of Xerox Corporation in the United States Oracle and Java are registered trademarks of Oracle and or its affiliates other company names and product names used in this manual are trademarks or registered trademarks of their respective companies MELSECNET H Interface Board User s Manual For SWODNC MNETH B MODEL SWO0 MNETH B U E MODEL iud 13JR24 SH NA 080128 Z 1309 KWIX sfa MITSUBISHI ELECTRIC CORPORATION HEAD OFFICE TOKYO BUILDING 2 7
23. AB IF All receiving data are 1 RDBORD TIME Time over 1008 DATA Reception data error UNDER j Transmission data error LOOP Forward reverse loop receiving error SD Data being transmitted Data being received Displays the Routing Parameter Setting screen Button Refer to section 9 2 4 Routing Parameter Setting operation for details Routing Paran Mransfer Transfers the routing parameter that has been set Button Displays the Common Parameters Setting screen This button is displayed only when the MELSECNET H board is a control station Reconnect Return as normal station grat DD emma HMMM 0000 0000 0000 oo gt 2 om 2z Button Refer to section 9 2 5 Common Parameters Setting Screen operation for details Transmits the set common parameters Button This button is displayed only when the MELSECNET H board is a control station 1 When assigning 2000 bytes or more to the number of link points sent by a station set all stations including control stations and normal stations to the MELSECNET H Extended mode 2 If T PASS LED flickers at uncertain intervals take the corrective action by referring to Section 14 4 TILITY OPERATION ii Z is MELSEC 9 2 4 Routing Parameter Setting screen operation The routing parameter setting screen is used to set the transfer destination relay destination network number and relay destination station number
24. Windows Vista Version 17T or later Version 19V or later Windows Server 2008 32 bit version Version 21X or later Windows Server 2008 64 bit version Windows Server 2008 R2 Windows 7 32 bit version Version 21X or later Windows 7 64 bit version Version 23Z or later Windows Server 2012 Windows 8 Version 23Z or later Version 26C or later b User authority Log on as a user having administrator authority Installation uninstallation and usage of utilities are available only by the administrator s authority c The functions cannot be used The following functions of operating system cannot be used If an attempt is made to use any of the following functions this product may not operate normally Activating the application with Windows compatible mode Simplified user switch over Remote desktop Large font size Advanced setting of screen property DPI setting other than 100 set the size of text and illustration other than smaller 100 Power save mode Standby Hibernate Sleep Fast startup The language switching function set by Regional and Language Options Windows Touch Windows XP Mode Windows Touch or Touch Modern UI Client Hyper V Server Core Installation e 2 SYSTEM CONFIGURATION MELSEC When exiting the operating system always shut down the computer The behavior of the board and the personal computer when the personal com
25. explained below Check n Install the software package Install the software package on a personal computer e e e Section 8 2 Installation i Install the board Install the board to a slot on the personal computer e e Section 6 3 3 Board installation For the board with external power supply function wire the Section 6 4 4 External power external power supply cable supply cable wiring i Set the channel No Set the channel No and confirm it with the utility e e Section 6 3 4 Channel No settings n Check the board Test the hardware of the installed board e e Section 6 5 Test i Wire the cables Wire the network cables for the installed board e e Section 6 4 Wiring L Set the parameters Set the parameters and confirm them with the utility e e Chapter 7 PARAMETER SETTINGS n Check the network Test the cable connection and data link on the network e e Section 6 5 Test l H Execute a user program Execute a user program or utility It is necessary to perform settings on the control station side in order to use the MELSECNET H board as a normal station Set the control station side as required Refer to manuals listed below for the setting on the control station side Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network For QnA Q4AR MELSECNET 10 Network System Reference Manual 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 2 Part
26. information of the network SB0054H to 69H to 69H SWO0054H to 68 to 68H Running information of the network SB0070u SW0070h to 73H 5 0090 to SWOO90w to 9F 3 To know redundant CPU system information Operating mode of redundant CPU SBO1F4u SWOTF4d to 1F7H Pairing setting of each station SBO1F8u 5 01 8 to 1 System status in redundant CPU system SBO1FCu SWOTFCu to 1FFH 11 5 11 PROGRAMMIN ix _ MELSEC MEMO 12 APPLICATION FUNCTIONS Basic Cyclic transmission function 71 Communication LB LW functions Periodical communication Communication LX LY RAS function 4 Automatic return function Refer to Q Corresponding ech MELSECNET H Network System 12 r Control station switch function Reference Manual H Control station return control function PLC to PLC network Loopback function optical loop system r Prevention of station failure by using external power supply optical loop system Diatnostic function m RH Section 6 5 Driver WDT function Section 4 3 Application Direct access to link devices I mee eene Section 12 1 functions Cyclic transmission function Low speed cyclic transmission HH Section 12 2 Periodical communication Transient transmission function Communication function eI Section 12 3 1 Non periodical communication Routing
27. performed between the PC and the MELSECNET H board and then the network is refreshed Through the cyclic data handshaking the link data block is guaranteed for each station to prevent link data separation per station 1 As shown below set the send and receive parameters as needed The MELSECNET H board can be set in the MNETH utility s Parameter Setting Supplementary Settings screen only when it is the control station It is not necessary to set it if the board is a normal station Secured data send Secured data receive By selecting both Secured data send and Secured data receive an interlock for the link data between the stations to be set becomes unnecessary MELSECNET H board and PC and CPU module device W Network module LW Updated portion of refresh A Station number 1 Updated portion Station number 2 of refresh B Host Stati ber 3 Updated portion ATON NURSE f refresh C S TOTES Station number 4 The block guarantee per station applies only to the refresh processing To use the direct access of the link devices the programs should be interlocked x1 The separation prevention refers to a prevention of link data with double word precision 32 bits such as the current value of the positioning module from being separated into new data and old data in one word 16 bits units due to the cyclic transmission timing 11 4 11 4 11 PROGRAMMING MELSEC 11 3 Link S
28. 10 1 2 Section 11 3 Section 15 2 Section 15 3 Section 15 4 4 Appendix 3 to 6 changed to Appendix 2 to 5 Addition Appendix 5 4 Appendix 2 Appendix 2 1 Jun 2008 SH NA 080128 O Section 1 3 Section 2 5 Section 9 2 4 Section 15 4 4 Appendix 4 2 Oct 2008 SH NA 080128 P Addition Generic Terms and Abbreviations Section 2 5 Section 10 1 2 Product List Chapter 5 Appendix 4 1 J 080128 R ct 2009 SH NA Section 8 1 3 Section 11 4 Section 13 3 4 Section 15 2 SAFETY PRECAUTIONS Section 2 6 Section 4 1 Section 11 6 Section 11 7 Section 12 1 1 Section 13 Section 13 1 Section 14 Dec 2010 SH NA 080128 T Section 2 5 Appendix 2 Product List Chapter 7 Section 9 2 2 Section 15 2 Appendix 1 Appendix 5 2 Appendix 3 to 6 changed to Appendix 4 to 7 May 2011 SH NA 080128 V Precautions for Use Chapter 8 Section 8 3 Feb 2012 SH NA 080128 X Dec 2012 SH NA 080128 Y The manual number is given on the bottom left of the back cover Print Date Manual Number Sep 2011 SH NA 080128 W SAFETY PRECAUTIONS INTRODUCTION Manuals How to Use This Manual Generic Terms and Abbreviations Product List Section 1 2 Section 2 1 Section 2 5 Section 3 1 Section 3 2 Section 5 1 1 Section 6 2 1 Chapter 7 Section 8 1 Section 8 1 1 Section 8 1 2 Section 8 1 3 Section 8 2 Section 9 1 1 Section 9 3 5 Section 9 3 6 Section 9 3 7 Section 9 3 8 Chapter
29. 3 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
30. 3 Select Administrative Tools To next page App 18 2 Select System and Security or Classic View App 18 APPENDIX MELSEC From preceding page 4 Select Local Security Policy REMARKS B E cee When user account control is enabled the following P M fg Data Sources ODBC 11 2 2006 9 53 PM E Pictures ell Event Viewer 11 2 2006 9 54 PM Biren inna A screen appears Click the Continue or Yes button More feb iSCSI Initiator 11 2 2006 9 54 PM Folders Local Security Policy 11 2 2006 9 56 PM fag Memory Diagnostics Tool 11 2 2006 9 53 PM her 757 VW User Account Control Bi Print Management 11 2 2006 9 55 PM Reliability and Performance Monitor 11 2 2006 9 53 PM i Services 11 2 2006 9 53 PM E System Configuration 11 2 2006 9 53 PM Ifyou started this action continue Public Computer amp Network E Control Panel y Administrative Tools 1 AutoPlay Task Scheduler bea credo lie a Microsoft Management Console Program name Microsoft Management Console Mb Backup and Restore 189 Windows Firewall with Advanced Security 11 2 2006 9 53 PM Microsoft Windows Verified publisher Microsoft Windows Default Programs Ease of Access Cente wa 927 C Windows needs your permission to continue 2e you want to allow the following program to make changes to this computer V S
31. 3Ns2 3Ns3 8Me18Ns2 BNs3 BNs4 9Me19Ns2 9Ns3 Request Network Network Network Network Network destination source No 1 No 2 No 3 No 8 No 9 12 12 12 12 12 APPLICATION FUNCTIONS MELSEC 12 3 2 Routing function 12 13 The routing function is used to execute transient transmissions to stations having other network numbers in a multiple network system In order to execute the routing function it is necessary to set the routing parameters to associate the network numbers of the request source and the station that will function as a bridge between the networks 1 The bridge function refers to sending data via an adjacent network MELSECNET H board cannot be used as a relay station that function as a bridge Use the network module for the relay station 1 Stations that require routing parameter setting a The setting is required for both the transient transmission request source and relay stations b Forthe relay stations two routing settings are required one from the request source to the request destination and the other from the request destination back to the request source c The setting is not required for the request destination In the example shown in the diagram below where the transient transmission is executed from 1Ns3 to 3Ns4 the setting is required for the following three stations 1 Setting for 1Ns3 that reques
32. 8 12 APPLICATION FUNCTIONS MELSEC 12 3 Transient Transmission Function The transient transmission function performs data communication only when it is requested between stations In the MELSECNET H data communication can be performed with other stations having the same network number the same network as where the host is connected as well as with stations having other network numbers 1 Transient transmission function to a station on the same network 1Mp1 1N Network No 1 2 Transient transmission to stations on other networks routing function In this case the routing parameters must be set for the request source and relay stations Required Request Request destination source Relay station x Network 1Ns6 1Ns5 Stations for which the routing parameters are set 12 9 12 APPLICATION FUNCTIONS MELSEC 12 3 1 Communication function 1 Parameter settings Set the execution conditions for the transient transmission with the parameters listed below In the default settings both the number of transients that one network can execute in one link scan Maximum no of transients in 1 scan and the number of transients that one station can execute in one link scan Maximum no of transients in one station are set to 2 times Change the number of transients that can be executed in a link scan as necessary Refer to
33. After inserting the cable pull it lightly to check that the center contact pin is fixed Move the crimp sleeve until it contacts with the plug 5 Crimp the crimp sleeve using the crimp tool with attention paid to the orientations of the crimp tool and connector Do not pull the cable when crimping the sleeve Before connecting or disconnecting the coaxial connector touch a grounded metal object to discharge the static electricity from the human body Failure to do so may result in a MELSECNET H board malfunction 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 4 4 External power supply cable wiring This section explains how to connect the external power supply cable to the Q80BD J71LP21S 25 1 Connection steps Connect the external power supply cable to the Q80BD J71LP21S 25 in the following steps Check if necessary parts have been prepared Refer to 2 in this section Make an external power supply cable Refer to 3 in this section v Connect the external power supply cable Refer to 4 in this section to the Q80BD J71LP21S 25 End 2 Parts and tool required for making an external power supply cable To make an external power supply cable the following parts and a tool are required a Connector set Accessory Check that the following parts are contained in the connector set supplied with the product Applicable cable size Q
34. D NA 080128 E NA 080128 F Model addition Q80BD J71LP21G Q80BD J71LP21GE Section 1 3 Appendix 3 1 About the Generic Terms and Abbreviations Section 1 2 Section 1 3 Section 2 5 Section 7 1 Section 7 1 1 Section 7 1 2 Section 7 4 Section 8 2 3 Section 9 1 2 Section 9 2 Section 10 3 2 Section 10 4 Appendix 3 Appendix 3 1 Addition Section 10 8 Section 12 2 Chapter 13 Correction Section 2 5 Section 3 1 Section 3 2 Section 5 6 Section 9 1 2 Section 10 7 Section 12 2 Section 12 2 2 Addition About the Generic Terms and Abbreviations Sections 9 1 2 Chapter 13 Safety Precautions Section 8 2 3 Section 8 2 8 Section 8 3 3 Section 9 1 2 Chapter 10 Section 12 2 Appendix 3 1 Appendix 4 1 Appendix 4 2 Addition Precautions for use Generic Terms and Abbreviations Section 1 2 Section 1 3 Section 2 5 Section 5 4 2 Section 7 1 1 Section 7 1 2 Section 7 2 Section 7 3 Section 8 1 1 Section 10 3 Chapter 13 Section 14 3 Section 14 3 1 Section 14 5 4 Section 14 6 Safety Precautions Precautions for use Section 3 1 Section 3 2 Section 6 3 1 Section 8 2 5 Section 8 2 10 Section 12 2 Section 12 2 1 Section 12 2 2 Section 12 2 3 Section 12 3 3 Chapter 13 Section 14 4 4 Section 14 7 Appendix 5 1 Generic Terms and Abbreviations Section 1 2 Section 1 3 Section 2 4 Section 2 5 Section 4 2 1 Section 5 2 1 Section 5 3 Section 5 4 3 Chapter 6 Section 6 3 6 Section 8 2 1
35. E ao met ie Ate 6 7 6 3 1 Handling precautions a trennen etnies 6 7 06 3 2 Installation environment ceret pe teinte pagel ge ER ELA ey ode ge 6 7 0 3 3 Board installations ice o eee o i e b e ice eie ee o eif ei 6 8 6 3 4 Channel No settings eene n rennen rennen nennen enne 6 9 6 4 Wiring iiiter e tat t a tam te ba te te tete adeb te 6 10 6 4 1 Optical loop system ssssssssssssssssseseseeeeennne nennen s nni 6 12 6 4 2 Coaxial bus system 2 iia ii i Leda edo to eoa e eei so on roce reo ro aco etae 6 14 6 4 3 Connecting the connector for the coaxial cable ssssssssseeeeeeeeeneeenene 6 19 6 4 4 External power supply cable wiring sssssssssssseeeeeeeee eene 6 23 0o Tests v due atus mn Tene mem eM E e Me NS odd 6 25 6 5 1 Self loopback test nennen nnnm nennt nns 6 26 6 5 2 Internal self loopback test 2 5 fq n e qt td dd d tete t dels 6 28 06 5 9 HAM EGSU oet e ete denter dete ote ie dedu id 6 30 6 5 4 Station to station test eae te e dde e de de Me dad Le ads 6 31 6 5 5 Forward loop Reverse loop test ssssssssssssssssssssssseeeenee nnne nennen nter nnns 6 34 7 1 Board Information Settings
36. Imake changesto Windows settings Not recommended Choose this enyif you need to fre programs thetarenot cetfid for Windows o Secnusethey do nat suppor User Account Corto Nevernotify Setting completion App 17 1 Open the Control Panel 2 Select System and Security 3 Select Change User Account Control settings 4 Set the slide bar Never notify and click the OK button App 17 APPENDIX 2 Allowing the warning message without showing it Internet amp internet Explorer ay E mail EL Windows Mail l Welcome Center R M Backup Status and Configuration 7 E z a Windows Media Player Small Business Resources ay Windows Fax and Scan g Windows Meeting Space i Windows Photo Gallery MELSEC The following shows a procedure for allowing a warning message without showing it Documents Pictures Music Search Recent Items Computer Network Con To Control Panel Default Programs Help and Support 1 Open the Control Panel I 1 Control Panel Home Get started with Windows Back up your computer Security Check for updates Firewall Network and Internet Connect to the Internet View network status and tasks Set up file sharing Hardware and Sound Printer Mouse Programs Uninstall a program Change startup programs Mobile PC Change battery settings Adjust commonly used mobility System and Ma
37. MELSECPowerManager For safety use of MELSEC Interface Board the power options of Windows were changed as follows Invalidating the sleep settings Changing the settings of power button action in shutdown Invalidating the fast startup settings Appendix 10 1 Installing MELSECPowerManager MELSECPowerManager is installed automatically when the software package is installed to a personal computer The operation starts after the personal computer is restarted Appendix 10 2 Uninstalling MELSECPowerManager MELSECPowerManager is uninstalled automatically when the software package is uninstalled However it is not uninstalled when another software package of MELSEC interface board is installed to the personal computer Uninstall all software packages for MELSEC interface board installed on the personal computer to uninstall MELSECPowerManager App 24 App 24 APPENDIX MELSEC Appendix 10 3 Checking MELSECPowerManager The following explains how to check the installation and operating status of MELSECPowerManager The following is a setting example when using Windows 7 BI gt Control Panel 1 Open the Control Panel and select System and Security User Accounts and Family Safety Set up parental controls for user Adjust your computer s settings System and Security Review your computers satus Back up your computer Find and fi problems enor
38. Monitor When Return as control station is selected the network stop time becomes longer because the baton pass is stopped but the common parameters can easily be changed only by resetting the Board of the control station If Return as normal station is selected the network does not stop because the control station returns to the network without stopping the baton pass However it is necessary to reset the CPUs of all the stations after changing the common parameters of the control station while the network is in operation If only the board resetting is performed the MELSECNET H board Control station detects the parameter mismatch error and disconnects it 8 INSTALLING AND UNINSTALLING SOFTWARE PACKAGE MELSEC 8 INSTALLING AND UNINSTALLING SOFTWARE PACKAGE The methods for installing and uninstalling the software package are explained 8 1 Installation and Uninstallation Precautions The following are the precautions when installing and uninstalling the software package e Log on as a user having administrator authority e Make sure to close other applications running on Windows including resident software such as antivirus software before installation and uninstallation The installer may not work normally because the update program of operating system or other companies software such as Windows Update and Java update may start automatically Please install the driver after changing the setting o
39. Names and Settings The names of each part of the MELSECNET H board and their settings are explained below Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21G Q80BD J71LP21GE Q80BD J71BR11 gt Q80BD J71BR11 Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21G Q80BD J71LP21GE lt Q80BD J71LP21S 25 gt EXT PW CLASS2 ONLY LT TTL 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC Description Connector for connecting optical fiber cable The cable terminal is as shown below f Connector for IN Reverse loop transmission connecting A IN Forward loop reception optical fiber cable Optical fiber cable connection connector eur Forward loop transmission OUT Reverse loop reception Connector for connecting coaxial cable The cable terminal is as shown below Refer to Section 6 4 Cable Connections Connector for for wiring of the coaxial cable connecting coaxial cable Coaxial cable connection connector Use prohibited Fixed to RP side Use prohibited Fixed to OFF External power supply indicator Indicates the status of ext
40. RD Channel No Displays the channel No of the installed MELSECNET H board Displays the display LED lighting on status on the MELSECNET H board 3 Channel No Setting Screen Clicking the Channel No Setting screen in the Board List screen displays the following dialog box and enables the user to change the channel No of the MELSECNET H board installed in the personal computer 1 MELSECNET H Channel No Setting Channel No Setting Channel No Current Setting Value Value 1 Br 3 3 4 54 Cancel Manual Value Displays the current channel No Channel Setting Value Value Changes the channel No Setting range 51 to 54 1 Before changing channel No exit Device Monitor Utility and all of user programs that are using the MELSEC data link library 9 6 9 6 9 UTILITY OPERATIONS 9 2 3 Board information screen operation The Board information screen is used to set and display various information about the installed MELSECNET H board Board list Board information Loop moniter Each sta status Err history monitor Memory 1 0 Test Target 4 Channel 51 MELSECNET H 1 slot MELSEC r Dwn Station Information Routing Param Setting Network No Group No Sta No Control Normal Sta f a a Conia ste E Routing Param Transfer LED MNET H optical fiber Board Set RUN G MNG Ts Common Pa
41. Received data of Channel 7 Send target network No Board Send source station No Received data of Channel 1 Sending station Ch 11 B _ Send source channel No Channel 2 Received data of Channel 5f mE P Read by the Data sent from o Channel 3 2 wiReceived data of Channel 4 mdReceive other station by __ _______ Channel 4 n function Received data Channel 5 RECV Received message are stored to the Channel 6 i Actual data target station Channel 7 channel specified Channel 8 by the sending Received data can station be stored up to 128 disregarding the channel numbers 1 Executed automatically by the driver D The board receives data sent from the other station by the SEND instruction SEND function and stores data to the target station channel specified at the sending side After the board receives the data the driver automatically executes the RECV instruction and stores the received data to the reception buffer of the driver All data received and individually stored to channels of the board are stored to the one reception buffer of the driver which can store up to 128 of data Reads data of the specified channel number in the received order from the data stored in the reception buffer of the driver using mdReceive function 12 23 12 23 12 APPLICATION FUNCTIONS 12 24 MELSEC Operation when 128 received data are already stored in the reception buffer
42. This section explains the MELSECNET H board general specifications performance specifications 3 1 General Specifications This section explains the MELSECNET H board general specifications Specifications Storage ambient humidity 5 to 95 RH non condensing acceleration amplitude 5 to 8 4 Hz nos 3 5 mm 10 times each in X Y and Z Compliant with 84 to 150 Hz directions Vibration resistance JIS B 3502 and DES IEC 61131 2 Under continuous vibration 5 to 8 4 Hz 8 4 to 150 Hz Shock resistance Compliant with JIS B 3502 and IEC 61131 2 147 m s 3 times each in X Y and Z directions x1 Do not use or store the board under pressure higher than the atmospheric pressure of altitude Om Doing so may cause a malfunction x2 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 the premises Category Il applies to equipment for which electrical power is supplied from fixed facilities The surge voltage withstand level for up to the rated voltage of 300 V is 2500 V 3 This index indicates the degree to which conductive material is generated in terms of the environment in which the equipment is used Pollution level 2 is when only non conductive pollution occurs A temporary conductivity caused by condensation must be expected occasionally General specifications both MELSECNET H board and a
43. User Rights Assigr Security Options Windows Firewall wit Public Key Policies Software Restriction F 8 IP Security Policies or From preceding page Security Settings Policy Network security LDAP client signing requirements Network security Minimum session security for NTLM SSP based including secure RPC clients Network security Minimum session security for NTLM SSP based including secure RPC servers Recovery console Allow automatic administrative logon Recovery console Allow floppy copy and access to all drives and all folders Shutdown Allow system to be shut down without having to log on Shutdown Clear virtual memory pagefile System cryptography Force strong key protection for user keys stored on the computer System cryptography Use FIPS compliant algorithms for encryption hashing and signing System objects Require case insensitivity for non Windows subsystems System objects Strengthen default permissions of internal system objects e g Symbolic Links System settings Optional subsystems System settings Use Certificate Rules on Windows Executables for Software Restriction Policies User Account Control Admin Approval Mode for the Built in Administrator account Security Setting E Negotiate signing No minimum No minimum Disabled Disabled Enabled Disabled Not Defined Disabled Enabled Enabled Posix Disabled Disabled User Account Control Behavior of the elevation p
44. Utility Plug amp Play O S YES No Reset Configuration Data No YES Then restart the PC 14 13 14 13 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 3 3 Checking on Device Manager screen Check if the board is displayed on the Windows Device Manager screen Item Corrective action The board or driver is not installed If the board is not installed install the board If the board is already installed check the board installation status and reinstall the board Is the driver name of the board not displayed on the Reinstall the software package Device Manager screen If the board operates normally on other personal computer the personal computer may have any problems In this case repair or replace the personal computer If the board does not operate normally on other personal computer replace the board The board installation failed Reinstall the software package Check the board installation status and reinstall the board Is I displayed next to the icon on the Device Manager If the board operates normally on other personal computer Screen the personal computer may have any problems In this case repair or replace the personal computer If the board does not operate normally on other personal computer replace the board If the corrective action above does not help refer to Section 14 9 is displayed next to the icon however the MELSECNET H board is recog
45. ae eoe ee 1 Channel No Channel No Setting Click 2 Toend the device monitor utility click Menu Exit from the menu bar When a dialog box is displayed click the button 5 Device Monitor Utility Menu Setting Device Write Da Batch mantar 16 point register monitor Click TILITY OPERATION idi 2 2 MELSEC 9 2 MNETH Utility This section explains the MNETH utility s screen explanations and operation methods TILITY OPERATION idi Z MELSEC 9 2 1 Screen configuration and basic operations The following explains the screen configuration displayed at starting the MNETH utility amp MELSECNET H utility fo Se Board list Board information Loop monitor Each sta status history monitor Memory 1 0 Test Target 4 gt Board List ChannelNo Board Name IRQNo Port Memory Port Version 1 5 MNET H optical fiber 17 FBES0000 lt gt FBESFFFFH 800 lt gt 2 3 4 f Channel No Confirm Channel No Setting Device Monitor Exit Manual Displays the list of MELSECNET H boards installed in the f Boad list Section9 2 2 personal computer Diagnoses the dual port memory and I O ports used by the Section 9 2 9 Memory I O Test MELSECNET H board Sets the access target for accessing a multiple CPU system or Section 9 2 10 Target redundant CPU system Sets t
46. and malfunctions may result in serious accidents e If a coaxial cable is disconnected this may destabilize the line and a data link communication error may occur in multiple stations Make sure to create an interlock circuit in the sequence program so that the system will operate safely even if the above error occurs Failure to do so may result in a serous accident due to faulty output or malfunctions e Provide a safety circuit outside the programmable controller so that the entire system will operate on the safety side even when an error occurs with the personal computer There is a risk of an accident due to faulty output or malfunctioning 1 Construct circuits outside the programmable controller including an emergency stop circuit protection circuit interlock circuit for reciprocal operations such as forward and reverse and interlock circuit for positioning high and low limits to prevent damage to the equipment 2 Ifthe station in which the board is installed is disconnected from the data link due to a data link error the data output from that station and written in other stations will remain the same as immediately before the error occurred in the data link This data will be retained until the data link for that station is reopened returned to system Provide a mechanism to monitor the status of data link and handle errors for each station that is connected to the data link system Design Instructions N CAUTION e Do
47. as a whole Valid setting 1 to 255 times Default 2 times Sets the number of transients that can be executed in one link scan by one station Valid setting 1 to 10 times Default 2 times in 1 sca collected and sent one station at a time in 1 link scan setting Valid setting interval 1 to 65535 s Carries out low speed cyclic transmission in accordance with the preset time Settings Year Month Day Hour Minute Second x1 Data separation prevention is when older data with the meaning of 2 word 32 bit link data such as the positioning unit s current position are prevented from being separated into new data with 1 word 16 bit units due to cyclic transmission timing Maximum No of transients in 9 UTILITY OPERATIONS MELSEC 9 2 6 Loop monitor screen operation This screen is used to monitor the loop status of the host Board list Board information Loop monitor sta status Err history monitor Memory 1 0 Test Target r Channel 51 MELSECNET H 1 slot r Own Station Information Network Mo Group No Sta No Control Normal Sta F Loop Status fumi o Control Sta j Loop Status Normal m Error Information r Loop Information r Loop Status F Loop Back Mode aue n oni EE Online Station E Comm Status Loop Back Normal Lool Not in execution status Normal Datalink Information Tp NES Transmission St
48. between the PC and programmable controller CPU in use 9 UTILITY OPERATIONS MELSEC 9 3 7 Changing word device values continuously NWARNING Change the specified word device value for the number of specified points being set 1 Selecting the menu Select Device write Continuous Change in Data from the menu bar 2 Dialog box xl Device Type Device Type 5 direct buffer register Start O B DEC 2 DeviceNo C HEX DEC C OCT 0 m Setting Data C HEX DEC 1 4 Points C HEX DEC s B om Device Type Set a type of a devices whose values are to be changed Enter a block number for ER Enter a network number for LW and LSW Enter a value of start I O number divided by 16 in decimal for SPG Device No Set a head address of a device number whose value is to be changed HEX Hexadecimal DEC Decimal OCT Octal Setting Data Enter a value to be continuously changed HEX Hexadecimal DEC Decimal Points Set the number of points to perform continuos change of values HEX Hexadecimal DEC Decimal OCT Octal e Configure an interlock circuit in the sequence program so that the entire system works safely at all times for data change control to the programmable controller in operation Also determine corrective actions for an event of data communication error between the PC and programmable controller CPU in use TILITY OPERATIO
49. changed Section 6 3 4 Appendix 2 changed Appendix 3 Appendix 3 to 4 changed Appendix 1 to 2 Appendix 5 changed Appendix 8 Appendix 6 to 8 changed Appendix 4 to 6 Appendix 9 changed Appendix 11 Appendix 10 to 11 changed Appendix 9 to 10 Section 6 6 Section 8 1 1 Section 8 1 2 Section 9 1 3 Section 9 1 4 Section 9 4 Japanese Manual Version SH 080129 Z 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 2000 MITSUBISHI ELECTRIC CORPORATION PRECAUTIONS FOR USE 1 2 3 4 Transfer function between loops and routing transfers The MELSECNET H board cannot be used as a relay station for the transfer function between data links and during routing transfers If the transfer function between data links and routing transfers are used use the network module as a relay station Remote I O Network The MELSECNET H board cannot be used a remote I O net It can be used only in a PLC to PLC network Restrictions for functions depending on the personal computer or the operating system There are some restrictions for the functions or supported versions depending on the operating system or personal computer to be used For the operating system refer to S
50. code 4245 destination illegal error error code FFDF or similar error occurs Create a program that will check the error code and perform retry processing as necessary in that case a The following indicates the functions that will result in error if executed during system switching ee Functions that will result in error by system switching mdControl mdDevRst mdDevSet mdRandR mdRandW MELSEC data link library mdReceive mdSend mdTypeRead b The following example gives a flowchart for error occurrence at batch write Write processing mdSend instruction etc Has error occurred Error code is checked Does the error require retry processing YES Retry processing Wait processing Normal processing is executed is executed Error handling is executed 1 For the details and corrective action of the error code refer to Error code returned to request source during communication with CPU module in the QCPU User s Manual Hardware Design Maintenance and Inspection 2 Execute retry processing as required depending on the system specifications App 3 App 3 APPENDIX MELSEC 4 Automatic switching of communication route If a communication error occurs during access to the Redundant CPU connected to MELSECNET H the communication route is automatically switched to continue access to the control system Hereinafter this automatic swit
51. controller CPU other than the Redundant CPU is made to nine or more stations simultaneously automatic switching of communication route may not be executed The following indicates details of the special relay and special registers to be monitored when estimating whether route switching occurred or not Explanation e Turns on when an error occurs during redundant system error check Turns on when either of bits for SD1600 Remains off when no errors are present e Any of the following bits turns on corresponding to module No for network module requesting route switching in host system Turns off by the system after recovery from error of the relevant module by user Other system OFF No error SM11600 error flag ON Error Bit status Module No for Module No for b15 to b11 to bibo 0 OFF network module network module sp1e90 o Pa 00 SD1590 route requesting route t Module No 0 nivali aS CPU module s s 3 uses 2 51015 switching inhost Module No 1 Indicates the module to system system to the right of CPU module Module No 11 Indicates the module at the right end of a 12 I O slot base Q312B Refer to SD1690 for module No for network module requesting route switching in other system e Any of the following bits turns on corresponding to module No for network module requesting route switching in other system Turns off by the system after recovery
52. ea dn eana Section 12 3 2 Group function eee eee reer errr rere reer eee reer rere ee eer rere eee Section 12 3 3 Multiple transmission function optical loop Section 12 4 12 1 Direct Access to the Link Devices The link devices LB LW LX LY SB SW of the MELSECNET H board can be directly read from written to the user program by the driver setting By directly accessing the link devices the link refresh time and the transmission delay time can be shortened However in direct access since block guarantees are not applicable in station units it is necessary to establish an interlock For the direct access setting set it in the Driver in the MNETH utility The direct access of the link devices LX LY is limited to the communication with the block I O master station set with the common parameters By limiting the communication data cannot be shared among multiple stations such as link device LB LW but 1 1 communication between predefined stations is allowed 12 1 12 1 12 12 APPLICATION FUNCTIONS MELSEC 12 2 Low Speed Cyclic Transmission Function 12 2 The Q00J Q00 Q01CPU does not support the low speed cyclic transmission function Therefore the low speed cyclic transmission function cannot be used in MELSECNET H that connects the Q00J Q00 Q01CPU The low speed cyclic transmission function is
53. eseeennenenen ennemis 8 1 9 2 InstallatiQpiz sd oet et t ene DR Poeni etu oet 8 2 9 3 Uninstallation x iai Rd n o ee d Ue tat e P d P ede RE id 8 4 9 1 Starting and Ending 9 1 9 171 Starting a Utility SERRE RR HERREN RENE 9 1 KEL EMANI a ilcuria ue 9 2 92 MNETEMUUINY aki ite E E E E E ene 9 3 9 2 1 Screen configuration and basic 9 4 9 2 2 Board list screen operation teens te ite ders e noeud eer eode due Ea edo a dad 9 5 9 2 3 Board information screen operation 9 7 9 2 4 Routing Parameter Setting screen operation 9 9 9 2 5 Common parameter setting screen operation sssssssssssssssseseeeeeen eene 9 10 9 2 6 Loop monitor screen operation eere eene nme tnnt nennen 9 14 9 2 7 Each station status screen operation ssssssssssssssssssse senem 9 15 9 2 8 Error history monitor screen operation ssssseseeeneeenennennennenennen enne 9 16 9 2 9 Memory I O Test screen operation eene 9 19 9 2 10 Target screen 9 20 9 2 11 Driver screen operation nennen nennen nennen rne 9 21 9 8 Device Monitor tility Re te dba e e i te d e bt
54. ft 400 1312 4 ft Not allowed Broad band H PCF optical fiber cable 1000 3281 ft 1000 3281 ft QSI optical fiber cable 1000 3281 ft 1000 3281 ft GI optical fiber cable 2000 6562 ft 62 5 GI optical fiber cable Not allowed Not allowed Not allowed 2000 6562 ft When connecting an optical fiber cable to QB0BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J71LP21GE the restrictions on the bending radius should be observed For bending radius details check with the cable to use Maintain the bending radius of the optical fiber cable within the allowable range using a tool for securing the optical fiber cable bending radius This tool may be purchased from Mitsubishi Electric System Service Inc or your nearest dealer Please inquire for more information When laying the optical fiber cables do not touch the fiber cores of the cable and module connectors and do not let dust or particles collect on them If oil from hands dust or particles adhere to the cores the accumulated transmission loss may cause malfunctions in the data link Do not detach the cover until the cable is attached When attaching or detaching the optical fiber cable to from the module pull or insert the cable by holding the cable connector securely with your hand Connect the cable and module connectors securely until you hear a click sound When attaching or detaching the optical
55. gt 03 0200 lt gt 0 D400 05FF 0400 05FF 0600 07FF_ 0600 07FF 5 0800 08FF 0800 09FF DADO 0BFF DADO OBFF DcDO 0DFF OCOD ODFF 8 QE00s OFFF 00 gt 0 Change Delete n Setting Clear In order to validate the guarantee of 32 bit data it is necessary that the number of points in each station s transmission range be a multiple of 20H for LB and a multiple of 2 for LW and that each station s top device No be set so that the LB is a multiple of 20H and the LW is a multiple of 2 For details on guaranteeing 32 bit data refer to the Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC Network 7 PARAMETER SETTIN MELSEC 7 3 2 Send range for each station LX LY settings Set send ranges for each station of LX LY which represent the amount of data that can be sent by each station in a single network in one two block units The link devices LX LY between the I O master station M station and other station L station are assigned 1 1 The following example shows send ranges for each station LX LY settings when each of 512 points of link devices LX LY is assigned to station numbers 2 to 4 using station number 1 host as the I O master station of block 1 1 Setting example xo 1 1 YO X 1Ns2 Y X
56. installation location of the board Check the resource acquisition status of other board and change Does the board operate normally if uninstall the other the resource on the BIOS setting screen or Device Manager optional boards Screen Reinstall the driver of the other optional boards Replace the other optional boards Does the board operate normally on another personal Reinstall the operating system after formatting HD computer Repair or replace the personal computer For the problem of the personal computer or operating system contact the personal computer or operating system manufacturer 14 11 14 11 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 3 2 Checking on Event Viewer screen Event logs related to the MELSECNET H board are displayed as AMneth in the Source field on the Event Viewer screen The following table lists the errors displayed in the event viewer viewer Event ID 0 to FFFFn Error content Corrective action H Failed to start the MELSEC network service Failed to register the main thread of service or failed to set the service status 257 101 The MELSECNET H board is not loaded or the I O address is Change the I O address setting for the overlapping with other hardware MELSECNET H board or other hardware 258 102 No response from hardware Replace the MELSECNET H board 259 103 The number of MELSECNET H boards detected exceeds the Remove MELSECNET H boards until the
57. module to the ground point with the thickest and shortest ground cable possible 30cm or shorter Twist the ground cable leading to the ground point with the power supply cable By twisting it with the ground cable the noise leaking from the power supply cable may be grounded at a higher rate However twisting the power supply cable with the ground cable may not be necessary if a noise filter is installed on the power supply cable 5 EMC AND LOW VOLTAGE DIRECTIVE 5 1 3 Cables MELSEC Use a shielded cable for the cable extended out of the control panel If a shielded cable is not used or not grounded correctly the noise immunity will not meet the required value 1 Grounding a shield cable b Ground the shield of the shield cable as near the exit as possible from the control panel If the ground point is not near the outlet the cables after the ground point will cause electromagnetic induction and will generate a higher harmonic noise Ground the exposed shield to large area on the control panel A clamp fitting can be used as shown below In this case mask off the inner wall surface of the control panel where comes in contact with the fitting Screw Clamp fitting Paint mask Grounding with a vinyl coated wire soldered onto the shield of the shielded cable as shown below is not recommended Doing so will raise the high frequency impedance resulting in loss of the shielding effect Y
58. number maximum number that can be loaded falls within the maximum limit 260 104n The board conflicts with other device for overlapping setting With other optional Check for setting with other optional board An error occurred when feeding Vo Replace the MELSECNET H board lt lt 259000 _ An enor assured dung sending process o An error occurred during loTimer process Reinstall Windows 277 1154 An error occurred when opening database 278 1164 An error occurred when reading from registry database Restart PC If the error persists reinstall Windows 14 12 14 12 14 TROUBLESHOOTIN OU SHOOTING MELSEC Event ID Error content Corrective action 0 to After installing SWODNC MNETH B restart the computer and confirm that this error does not occur Increase the system memory and disk capacity 280 118 A request that cannot be processed was received from other station 281 119 Retry transmission was executed during transmission le eel process 286 11 Failed to allocate the Memory Area Increase the memory Set th ter with MELSECNET H utilit 287 11 Link Parameter is nothing or has abnormal data ob Dd in and reset the board Remove another option board 279 1174 An error occurred when writing to registry database The Driver WDT error occurred on the MELSECNET H board 288 1204 Take corrective actions for the Dr
59. occurred 1 Basic checking procedure Check if there is a corresponding error symptom written in Cause Determination Methods by Type of Trouble Refer to Section 14 1 If the corresponding error could not be found check the cause by following the procedure shown below 1 Check if all the boards installed on a personal computer are displayed with the utility Check on the board list screen Refer to Section 9 2 2 Check on the Event Viewer screen Refer to Section 14 3 2 14 Check on the Device Manager screen Refer to Section 14 3 3 2 Check the LED display of the board Check the LED status Refer to Section 6 2 3 Check the error occurring at the utility Check with test Refer to Section 6 5 Check the network status with loop monitor Refer to Section 9 2 6 Check the each station status Refer to Section 9 2 7 Check the error history Refer to Section 9 2 8 4 Check the access target device Check if the board operates as set to the parameter or program by checking whether the link devices perform communication or transient send receive performs normally with the device monitor utility Refer to Section 9 3 When unexpected value is input to the specific link device refer to Section 14 5 1 5 Check the user program Check the arguments and returned values of the communication function Refer to MELSEC Data Link Library Reference Manual 2 When error cannot be solved If the trou
60. of one station in 1 scan 2 Fixed term cycle interval setting and 3 System times and those three method are set in the Common parameter setting screen bus setting Only one of them can be selected B W setting X Y setting Reserved station setting Supplementary setting Channel 51 MELSECNET H 1 slot gt Constant Scan ms Specification of low speed cyclic transmission Maximum No of retums to P 3 Transmit data of one station in 1 scan 4 1 Een Station system stations in 1 scan Fixed term cycle interval setting Sec je iN 2 With multiplex transmission System times There is a data link through the 1 sub controlling station when the Month Day Hour HET Sec controlling station is down 3 Secured data send Secured data receive Transient setting Maximum no of transients 2 1 in 1 scan Times Maximum no of transients 2 in one station 12 2 12 APPLICATION FUNCTIONS MELSEC 12 2 1 Send range settings 12 3 Each station s send range of link devices low speed LB low speed LW is assigned to the extended area 2000 to 3FFF in 16 point units for LB start O O O 0 to end OO and in one point units for LW Each station s send range can also be assigned using a random station number assignment sequence 1 Device range On 20004 SFFFH 8192 16383 Normal cyclic
61. one of the following causes occurs the processing time for the above link refresh is increased in the total PC processing and causes slow operation e Too many link device points are set for the entire network e The link scan time value is too small e The computational power of the PC is low 1 It indicates the case where Link Refresh is selected in the Link Device Access Method setting on the MNETH utility s Driver screen 2 Troubleshooting When the PC becomes slow perform the following e Increase the link refresh interval value on the MNETH utility s Driver Screen e Setthe constant link scan in Common parameter setting of the control station e Decrease the number of link device points in Common parameter setting of the control station 14 28 14 28 14 TROUBLESHOOTING MELSEC 14 9 Information Needed when Calling with Inquiry When the troubleshooting cannot solve the problem or a board failure occurs please consult your local Mitsubishi service center or representative Inform the following conditions and situations when inquiring the problems 1 Product information 2 14 29 a b Product version Inform the model name and version of the board and utility Personal computer Inform the following descriptions Name of the personal computer manufacturer CPU Memory size Operating system c Other option board Inform the following descriptions Existence If ex
62. operate the MELSECNET H In setting of the parameters after the MELSECNET H is selected it can be set even to the details of the application functions A flow chart of the settings is shown below Board information settings 1 Channel MELSECNET H 1st board to 4th board 2 Network type MNET H mode MNET H EX mode MNET 10 mode Network settings 1 Network No 1 to 239 2 Station No 1 to 64 Optical loop 1 to 32 Coaxial bus 3 Control station Normal station settings Set the following items as necessary 4 Group No Control station No Common parameters 1 Transmission range of each station LB LW LX LY settings 2 Total number of link stations Set the following items as necessary 3 I O master station setting 4 Reserved station setting Supplementary settings Control station return setting Set the following functions as necessary Not necessary Necessary Opposite party setting when accessing a multiple system or redundant CPU system M tus eau ve Ra Ae e tis er Wie d ce chen irn oer etg Vo gr ccn Routing parameter setting transmission MELSECNET H board information update Connection of cables bee Refer to Section 6 4 When replacing a board you may need the channel numbers and parameter settings that were used before the replacement When reinstalling the software package you need to r
63. operation system and the programming language refer to the Microsoft Knowledge Base 3 Not supported by SWODNC MNETH B version 26C or later When using one of these operating system use SWODNC MNETH B version 25B or earlier SWODNC MNETH B version 25B and its supported manual are stored on the CD ROM of this product refer to Appendix 7 1 Instructions for personal computer a PCI standard Using a personal computer not compliant with the PCI or PCI Express standard may result in a problem due to poor electrical contact erroneous operation etc For details on the number of boards that can be installed installation slot and occupied slots refer to Section 3 2 b The functions being added Operating environment Supported version of SWODNC MNETH B Hyper Threading technology 11M or later Multiprocessor 19V or later 2 SYSTEM CONFIGURATION MELSEC 2 Instructions for operating system a Supported version of SWODNC MNETH B Supported version of SWODNC MNETH B Q80BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q81BD J71LP21 25 Q80BD J71LP21GE Q80BD J7 1BR11 Operating system Windows 95 Windows 98 Windows NT Windows 2000 Version 25B or earlier Version 25B or earlier Not supported From version 19V to 25B Windows XP Version 70H or later Version 19V or later Windows Server 2003 R2 32 bit version Version 19V or later Windows Server 2003 R2 64 bit version Version 23Z or later
64. personal computer enters the power save mode hibernate sleep or the fast startup function is enabled refer to Appendix 9 e If MELSECPowerManager is disabled accidentally right click MELSECPowerManager on the Services Local screen and select Start from the menu File Action View Help l 5ssIHrmi mwwnv Services Loca Services Local MELSECPowerManager Name Description Status Startup Type Log On As Media Center Extender S Allows Med Disabled Local Service Start the service Microsoft NET Framew Disabled Local System Microsoft Framew Disabled Local System Microsoft Framew ise Automatic D Local System Microsoft Framew y Automatic D Local System Microsoft iSCSI Initiator EXE Manual Local System Microsoft Software Sha Manual Local System j Multimedia Class Sched All Tasks Automatic Local System Gj Net Msmg Listener Ada Disabled Network Servic Refresh Net Pipe Listener Adapter Disabled Local Service Net Tep Listener Adapter Properties Disabled Local Service Net Tcp Port Sharing Se Disabled Local Service Netlogon Heip Network Access Protecti The Networ Manual Network Servic Network Connections Manageso Started Manual Local System Network List Service Identifies th Started Manual Local Service Network Location Awar Collects an Started Automatic Network Servic 4 Network Store Interface This service Started Aut
65. personal computer must be satisfied after installation 1 75 mm Frequenc Constant Halt Sweep count 3 y acceleration amplitude P PECIFICATION 3 SPECIFICATIONS MELSEC 3 2 Performance Specifications MELSECNET H Board performance specifications are shown below 1 Q80BD J71LP21 25 Q81BD J7 1LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J7 1LP21GE Item Q80BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J71LP21GE 8192 Points 16384 Points When in the MELSECNET 10 Mode 2 8192 Points 16384 Points When in the MELSECNET 10 Mode 2 8192 Points e MELSECNET H mode MELSECNET 10 mode LY LB 8 2 LW x 2000 bytes MELSECNET H Extended mode LY LB 8 2 LW lt 35840 bytes 25 Mbps 10 Mbps 10 Mbps Maximum links in 1 network Maximum links in 1 station Number of stations Between stations length SI optical cable H PCF optical cable 25 Mbps Broad band H PCF optical cable QSI optical cable SI optical cable H PCF optical cable TOMOS Broad band H PCF optical cable QSI optical cable 64 Stations Control station 1 Normal station 63 62 5 GI optical cable 2km 6562 ft Optical fiber cable 30km 98430 ft 200m 656 2 ft 400m 1312 4 ft 1km 3281 ft 1km 3281 ft 500m 1640 5 ft 1km 3281 ft 1km 3281 ft 1km 3281 ft 239 32 When in the MELSECNET 10 Mode 9 Duplex loop Token ring system Frame synchronization
66. single purchase Order a manual by quoting the manual number model code listed in the table above HOW TO USE THIS MANUAL How to Use This Manual differs depending on the purpose for which the MELSECNET H board is used Use this manual with reference to the following contents 1 2 5 7 8 When desiring an overview or to know the features of the MELSECNET H board Chapter 1 Chapter 1 gives an overview of the MELSECNET H board and its features When desiring to know about the system configuration Chapter 2 Chapter 2 gives the system configuration When desiring to know the specifications of the MELSECNET H board Chapter 3 Chapter 3 gives the specifications of the MELSECNET H board When desiring to know the functions of the MELSECNET H board Chapter 4 Chapter 4 gives the functions of the MELSECNET H board When desiring to know the procedure up to the point of operation of the MELSECNET H board and settings Chapter 6 Chapter 6 gives the procedures up to the point of operation and the settings When desiring to know the parameter settings for the MELSECNET H board Chapter 7 Chapter 7 gives the parameter settings When desiring to know the procedure for installing and uninstalling the software package Chapter 8 Chapter 8 gives the procedure for installing and uninstalling the software package When desiring to know the operation of each utility Chapter 9 Chapter 9 gives the o
67. 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 seven 7 years after production of the product is discontinued Discontinuation of production shall be notified with Mitsubishi Technical Bulletins etc 2 Product supply including repair parts is not available after production is discontinued 3 Overseas service Overseas repairs shall be accepted by Mitsubishi s local overseas FA Center Note that the repair conditions at each FA Center may differ
68. system NRZI encoding Non return to Zero inverted HDLC Standard Frame format CRC 1 and retry by overtime GI optical cable 2km 6562 ft Loop back function optical loop system only by abnormal detection and cable disconnection System down prevention through control station RAS Error detection by the link special relay and link special register etc Transient transmission N N communications Special cyclic transmission Low speed cyclic transmission Number of boards that can be Maximum boards installed PC PCI Express X1 X2 X4 X8 X16 slot half size PC PCI bus slot Installation slot half size PC PCI bus slot half size Exclusive slots Voltage Suitable cable size 5 V DC Internal current consumption 3 3 V DC Internal current consumption Weight 20 4 to 312 V DC 0 16 A Connector set Accessory 1 slot External power suppl PEN 0 50 to 1 25 mm AWG 20 16 0 10 kg 0 20 kg 0 11 kg PECIFICATION 3 SPECIFICATIONS MELSEC 1 The CPU usage may be higher compared to that of QB0BD J71LP21 25 Q80BD J7 1LP21S 25 Q80BDJ71LP21G Q80BD J7 1LP21GE or Q80BD J7 1BR1 1 For the solutions to slow PC performance refer to Section 14 8 2 MELSECNET H board communications rate and Mode settings are performed using the MNETH Utility For details refer to Section 9 2 3 3 L type and type of the previous optical fiber cable A 2 L1 differ
69. tables show the instruction when the screen is displayed 1 Using Windows Vista Windows Server 2008 Windows Server 2008 R2 Windows 7 Windows Server 2012 Windows 8 Screens Instructions User Account Control un An unidentified program wants access to your computer Don t run the program unless you know where it s from or you ve used it before gi Setup exe L Unidentified Publisher gt Cance I don t know where this program is from or what it s for im I know where it s from or I ve used it before Details User Account Control helps stop unauthorized changes te your computer y User Account Control X ga Do you want to allow the following program from an unknown publisher to make changes to this computer Program name Setup exe Publisher Unknown File origin Hard drive on this computer Y Show details This screen is displayed when user account control is enabled Click Allow or the button Coo m For safety use of MELSEC Interface Board the power options of Windows will be changed as follows after installing Invalidating the sleep settings Changing the settings of power button action in shutdown Do you continue the installation Click the button MELSECPowerManager is installed and the Windows Power Options settings are changed automatically For details of MELSECPowerManager refer to Appendix 1
70. test checking the LED status in the Board Information screen to confirm the execution state T PASS blinks during the test If T PASS blinks 20 times and ERROR LED does not blink the test is completed normally Also if the test ends abnormally the ERROR LED will blink as shown below to indicate the relevant error information a Optical Loop System Q80BD J71LP21 25 Q81BD J7 1LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J71LP21GE 1 TIME LED lights up The forward loop cable is broken The forward loop s transmission side and reception side cables are not connected 2 DATA LED lights up The reverse loop cable is broken The reverse loop s transmission side and reception side cables are not connected 3 OVER and AB IF LEDs light up on the F LOOP and R LOOP sides The cable is defective 4 UNDER LED lights up Hardware error The cable was disconnected during the test The cable was broken during the test b Coaxial Bus System Q80BD J71BR11 1 TIME LED lights up The connector is disconnected 2 The OVER and AB IF LEDs light up on the F LOOP and R LOOP sides The connector is defective 3 DATA and UNDER LED lights up Hardware error The connector was disconnected during the test Corrective action when the test completes abnormally Check if the cable failure is not occurred the connector is not disconnected and the wiring is appropriate I
71. the loop line using a station to station test YES Replace the faulty cable Did the data link begin gt NO Y Consult with the dealer regarding the Complete problem REMARK For the Q80BD J71LP21 25 Q81BD J71LP21 25 or Q8OBD J71LP21S 25 with the communication speed set to 25 Mbps mounting multiple boards with the same network No is not allowed Doing so may cause errors at all stations at the time of OS startup shutdown or when resetting the board If multiple boards with the same network No should be installed set the communication speed to 10Mbps 14 20 14 20 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 4 5 Flowchart to use when unable to achieve data link for specific station An error occurs 1 When a faulty station is detected check if the data link cable of the faulty station is connected properly If the data link cable is disconnected make sure to power off the personal computer and external power supply before reconnecting the cable Detect a faulty station using MNETH utility and each station status screen Is there any faulty station with error Is the parameter correct Check the control station s parameter programmable controller Is the data link disabled station PC Check the programmable controller program User program MNETH utility Check each setting for MNETH utility Check the user program Is the faulty station
72. the personal computer If any of the corrective actions above do not help refer to Section 14 9 14 7 2 Driver WDT error When the driver WDT error occurred check the following items Item Corrective action Has the error occurred due to the system overload Reset the board Refer to Section 9 2 9 temporarily Restart the personal computer Remove the factor of system overload Is the same error occurred repeatedly Disable the driver WDT function or increase the driver WDT Is the system overloaded constantly monitoring time Refer to Section 9 2 11 1 A driver WDT error may occur when the system is overloaded temporarily due to the following factors Windows start processing at the personal computer startup Operation of a device driver such as a graphic board Operation of other software applications If any of the corrective actions above do not help refer to Section 14 9 14 27 14 27 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 8 Troubleshooting for Slow PC Operation This section explains probable causes and troubleshooting when a PC becomes slow 1 Possible causes for slow PC operation The MELSECNET H driver refreshes link device data assigned to another station from the refresh data storage area on the MELSECNET H board to the MELSECNET H drive buffer and those assigned to the host station from the drive buffer to the refresh data storage area at specified intervals x If more than
73. this parameter to make the control station return as a normal station without stopping the baton pass in the system in operation The control station return setting is required only for the control station 1 When Return as control station is selected default The baton pass cyclic transmission transient transmission etc temporarily stops because the control station sends the parameters to the normal stations and returns to the network 2 When Return as normal station is selected The control station returns to the network as a normal station without stopping the baton pass in the network Board list Board information Loop monitor Each sta status history monitor Memory 140 Test Target gt Channel 51 MELSECNET H 1 slot Own Station Information Routing Param Setting Network No Group No Sta No Control Normal Sta 1 Sy 10 d Control Sta xl Routing Param Transfer LED MNET H optical fiber Board Set RUN B OG D 8 MNG Common Param Setting Bl LI S MNG Mode SW E D D T PASS s RE citer Common Param Transter E JEBENG J fem R UNDER O O UNDER R MNET H mode e 5 0 kooi Reconnect Select Retum as control station x Return as control station Return as normal station 50 RD RD Retum as control station b F LOOP R LOOP Device
74. to access the programmable controller CPU using the GX Developer MX Links and MX Component from a personal computer where the MELSECNET H board is installed 1 OVERVIEW MELSEC 4 Compatible with multiple CPU systems By using station designations of logical station No on the MNETH utility MELSECNET H board is capable of communicating with a multiple CPU system 5 Compatible with redundant CPU systems Only by specifying whether the destination is a control or standby station using the user program access is simply made without considering the current operating system state of the redundant CPU system 6 Compatible with MELSECNET H Extended mode The MELSECNET H Extended mode is the extended MELECNET H mode which is extended in the maximum number of link points per station With this mode the maximum number of link points per station can be set to 2000 bytes or more i e up to 35840 bytes This mode is suitable for the system that needs many number of link points per station 7 Drivers are provided for compatibility with each OS Each type of driver is provided so it is easy to build a system that is compatible with the user environment For details on the compatible operating system refer to Section 2 5 8 User programming functions are provided Through Microsoft Visual Basic and Microsoft Visual compatible functions it is possible to carry out remote control of a programmable controller CPU or read and wr
75. to run the utility 2 User Account Control fs y User Account Control LX M An unidentified program wants access to your computer Do you want to allow the following program from an a unknown publisher to make changes to this computer Don t run the program unless you know where it s from or you ve used it before Program name NETHUTL exe m NETHUTL exe Publisher Unknown 24 Unidentified Publisher File origin Hard drive on this computer gt Cancel Idon t know where this program is from or what it s for Y Show details Yes No Change when these notifications appear Itrust this program I know where it s from or I ve used it before Details User Account Control helps stop unauthorized changes to your computer For details on how to prevent this screen from being displayed refer to Appendix 8 TILITY OPERATION idi Z MELSEC 9 1 2 Ending a utility The following explains how to end an utility 1 To end the MNETH utility click the button at the bottom of the utility screen I MELSECNET H utility Se Board list Board information Loop monitor Each sta status history monitor Memory 1 0 Test Target 4 gt Board List Channel No Board Name IRQ No Port Memory 1 0 Port Version 1 p 17 FBE80000 lt gt FBESFFFFH 0 lt gt 2 E pce rem amp pci pre
76. to the Link Devices sssssssssssseneeneenennenee nennen rennen rnnt 12 1 12 2 Low Speed Cyclic Transmission Function sesessssseseeeeneeeen nennen nennen 12 2 12 2 1 Send range settings atat 12 3 12 222 EE L S EEE E E 12 4 12 2 3 Startup iode euentu nutu 12 7 12 3 Transient Transmission Function runer eene 12 9 128 1 Communication function RI n E HR eed EHE HR et e ce 12 10 123 2 Routing TUNCHON SS rentrer ates HERE RH TREE RR AER stead eee 12 13 12 3 3 Group f nctlOn nre terre Teese ee te enda e deed cede e e ET de even 12 21 12 9 4 SEND REGV TUNCHON 12 22 12 4 Multiplex Transmission Function Optical Loop System sss 12 25 13 ERROR CODE 13 1to 13 2 14 TROUBLESHOOTING 14 1to 14 30 14 1 Cause Determination Methods by Type of Trouble 14 2 14 2 Troubleshooting of Installation and Uninstallation eeeeennnnn 14 5 142 1 Installation failed ases 14 5 14 2 2 Uninstallation failed 14 5 14 2 3 When the instruction displayed on the screen is not effective at installation 14 6 14 2 4 When the driver is not installed nnns 14 9 14 3 When MELSECNET H Board did not Operate Normally
77. to the number of link points sent by a station set all stations including control stations and normal stations to the MELSECNET H Extended mode 2 When using the Q80BD J71LP21S 25 Use the SWODNC MNETH B version 12N or later 3 When using the Q80BD J71LP21 25 Q81BD J7 1LP21 25 or Q80BD J71LP21S 25 at a communication speed of 25Mbps errors may occur at all stations if multiple boards with the same network number are installed or the operating systems are started up shut down or the boards are reset simultaneously on the adjacent personal computers In this case set the communication speed to 10Mbps If the QnACPU or ACPU are included in the same network select MELSECNET 10 mode which is compatible with MELSECNET 10 2 SYSTEM CONFIGURATION MELSEC 2 2 Single Network System A single network system is one system that connects the control station and the normal stations with an optical fiber cable or a coaxial cable 2 2 1 Optical loop system In the optical loop system 1 control station and 63 normal stations a total of 64 stations can be connected Any station number can be assigned as the control station However only one station can be set as the control station per system In the following sample system station number 1 has been assigned as the control station Station No 1 Station No 2 Station No 64 control station normal station normal station Personal comp ter QCPU QJ71 QCPU QJ71
78. total number of transient and low speed cyclic transmissions 12 10 12 10 12 APPLICATION FUNCTIONS MELSEC 2 Transient transmission range In a multiple network system of the MELSECNET H communication can be performed with stations in a maximum of eight networks by setting the routing parameters described in Section 12 3 2 The following diagram illustrates the transient transmission range using an example where the destinations are limited to eight networks Gate 1 Gate 2 Gate 3 QCPU 1Mp1 QCPU 1Ns2 2Mp1 QCPU 2Ns2 3Ns3 QCPU 3Ns2 4Mp1 gc C Network No 1 X Network No 2 Network No 3 Network No 4 Lr 1Ns3 Gate 4 PC 7 QCPU 1Ns4 QCPU 2353 QCPU 3Me1 Network No 5 Gate 5 QCPU 5Ns2 6Me1 Network No 6 Gate 6 Network No 7 oO Gate 7 QCPU 8Mp1 QCPU 9Ns2 QCPU 8Ns4 C Network No 9 Network No 8 a 9Ns3 QCPU 9Mp1 8Ns2 QCPU QCPU 8Ns3 12 11 12 11 12 APPLICATION FUNCTIONS Transient transmission valid range The following table shows the valid ranges of send receive by transient transmission using the network configuration on the previous page In the table below and X indicate whether or not the transient transmission between the request source
79. transmission area Extended function area 1 1 i i 1 1 gt R 2 Screen settings This shows in the case where 768 points of the transmission range for each station is assigned to Low Speed LB Low Speed LW in the Common parameter setting B W Setting screen in the MNETH utility Send Range for Each Station StaN LB Lw Low Speed Ll Low Speed Li Ee 0000 00FF 0000 00FF 2000 22FF 2000 lt 22FF I 0100 lt gt 01 0100 01FF 2300 25FF 2300 25FF I 0200 lt gt 02FF 0200 02FF 2600 28FF 2600 lt gt 28 I 0300 03FF 0300 gt 0 2800 28FF 2900 2BFF I S AN 2 Send range 2000 to 3FFF 1 The total of the send ranges per station must not exceed 2000 bytes in the low speed cyclic transmission The send range for the normal cyclic transmission is not included 2 The LX and LY cannot be set as low speed cyclic devices 3 Low speed cyclic transmission function cannot be used during MELSECNET 10 mode 12 3 12 APPLICATION FUNCTIONS 12 2 2 Send timing 12 4 MELSEC The low speed cyclic transmission is executed separately from the normal cyclic transmission This section describes the setting processing interval and link cycle of the low speed cyclic transmission 1 Transmission setting The link cycle of the low speed cyclic transmission varies depending on its transmission setting The setting can be made at Specificatio
80. 0 Logical station No ection Section 9 2 11 Setting necessary A Setas necessary Setting unnecessary Driver setting 2 2 4 Usable device ranges The MELSECNET H board can be used within the following device ranges for the following devices on the MELSECNET H board Usablerange Qu to The function expansion areas of 2000H to 3FFFu are used for 16384 points the low speed cyclic transmission All areas can be used for the normal cyclic transmission The use ranges for each MELSECNET H board and network OH to 3FFFH module need to be assigned in the parameter settings for the 16384 points control station OH to 1FFFH 8192 points The use ranges for each MELSECNET H board and network module need to be assigned in the parameter settings for the Ou to 1FFFH control station 8192 points If the MELSECNET H board is used the MELSECNET 10 mode the device range for LB LW becomes to 1FFFH 8192 points 2 SYSTEM CONFIGURATION MELSEC 2 3 Multiple Network System A multiple network system is a system where multiple networks are connected by relay stations 1 The network No can be set at any desired No in the range 1 to 239 2 The MELSECNET H board cannot be used as a relay station Please use the network module as a relay station 2 3 1 Configuration The following example shows how three networks can be connected Normal station Normal station Control station 2N
81. 0 Mode is selected in the NET Mode 25 Mbps cannot be selected 10 Mbps Selected when the MELSECNET H 10 Mbps is connected 25 Mbps Selected when the MELSECNET H 25 Mbps is connected Self loopback test Transmission Speed TILITY OPERATION Z is MELSEC Selects the network where the MELSECNET H board is connected When 25 Mbps is selected in the transmission speed item above this item cannot be selected Net Mode NET mode MNET H Mode Selected when the MELSECNET H is connected MNET 10 Mode Selected when the MELSECNET 10 is connected Selected when the MELSECNET H is connected and Extended mode 1 MELSECNET H Extended mode is used Designates by station type when a control station reconnects This item is displayed on the screen and can be selected only when the MELSECNET H board is a control station Reconnect Description _ Causes the MELSECNET H board to reconnect as a control Return as control station station Causes the MELSECNET H board to reconnect as a normal station Display the operation status of the MELSECNET H board LED name LED status RUN Normal data link MNG Control station S MNG _ Sub control station D LINK During data link 2 MNET H optical fiber T PASS Baton pass execution SW E Switch setting error S MNG MIS E Duplicate error on station number and control station PRM E j Parameter error CRC Code check error OVER Data entry delay error
82. 1 Program Compatibility Assistant This program might not have installed correctly If this program didn t install correctly try reinstalling using settings that are compatible with this version of Windows Program Setup Launcher BH Publisher InstallShield Software Corporation Location E EnvMEL EnvMELENG SETUP EXE Reinstall using recommended settings This program installed correctly Cancel 14 6 If this screen is displayed during the installation or at the installation completion click This program installed correctly If this screen is displayed when the installation is aborted click the button and close the Screen Do not select Reinstall using recommended settings An incorrect module may be installed 14 6 14 TROUBLESHOOTING MELSEC Screens Instructions td Windows Security xs R Windows can t verify the publisher of this driver software Don t install this driver software You should check your manufacturer s website for updated driver software for your device See details Click Install this driver software anyway Would you like to install this device software Name Jk Publisher MITSUBISHI ELECTRIC CORPORATION Always trust software from MITSUBISHI ELECTRIC Don tinstall CORPORATION You should only install driver software from publishers you trust How can I decide which
83. 1 to No 16 2 Refer to the following manuals for details on the error code and error type of a specific transient transmission error that may be displayed Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network For QnA Q4AR MELSECNET 10 Network System Reference Manual Board list Board information Loop monitor Each sta status Err history monitor Memory 120 Target Channel 51 MELSECNET H 1 slot r Own Station Information Error Count Network No Group No StaNo Control Normal Sta Loop Switching 5 B Esse Transient Transmission o r Loop Switching FLoop R Loop Changing Changing cause Status after changed Retry 225 o 1 Reverse loop Loop back 2 EN m 1 Forward loop HAW Full duplex comm mes Tube il d 1 Indication of Loop back Communication Error 2 Indication of Loop back UNDER 0 o O A m T mn OVER 0 o Jen code Short Frame o o Abort 0 o mu RR 2Kb 0 0 DPLL Error o o Sets the channel MELSECNET H board perform error history monitor Own Station Information Displays the host information Displays the loop change factors and status after changing For optical loop Displays the station number that requested a loop switch and Loop Switching Sta No loop back Displays the factor by which loop switch and loop back were Factor e
84. 10 Section 10 2 Section 12 3 4 Chapter 13 Section 14 2 Section 14 3 1 Section 14 4 1 Section 14 4 2 Section 14 4 4 Section 14 4 5 Section 14 5 1 Section 14 5 2 Section 14 5 3 Section 14 5 4 Section 14 6 Appendix 2 Appendix 5 1 Appendix 6 Appendix 7 Appendix 8 Chapter 11 to 15 changed to Chapter 10 to 14 Section 2 6 changed to Appendix 7 and 8 Appendix 7 changed to Appendix 9 Chapter 10 Section 11 3 to 11 9 Addition Appendix 10 Appendix 11 Correction Section 2 5 Section 8 1 1 Section 8 1 3 Section 8 2 SAFETY PRECAUTIONS GENERIC TERMS AND ABBREVIATIONS Section 2 1 Section 2 4 Section 2 5 Section 3 1 Section 3 2 Section 6 4 2 Section 6 4 3 Section 8 1 2 Section 9 2 10 Sep 2013 SH NA 080128 Z Addition Section 4 3 Section 6 3 3 Section 14 2 Section 14 2 1 Section 14 2 2 Section 14 7 1 Section 14 7 2 Appendix 7 Appendix 9 3 Correction SAFETY PRECAUTIONS PRECAUTIONS FOR USE MANUALS HOW TO USE THIS MANUAL GENERIC TERMS AND ABBREVIATIONS Section 1 1 Section 1 2 Section 2 1 Section 2 5 Section 3 2 Section 4 1 Section 6 1 to 6 5 Section 7 2 6 Section 7 3 1 Section 7 3 2 Section 8 1 to 8 3 Section 9 1 to 9 2 Section 9 3 1 Chapter 10 Section 12 3 1 Section 12 3 4 Chapter 14 Appendix Section 6 6 1 to 6 6 2 changed 6 5 4 to 6 5 5 Section 8 1 3 changed 14 2 3 Section 8 2 changed 8 3 Section 10 1 to 10 2 changed Chapter10 Section 14 2 changed 14 1 Appendix 1
85. 1Ns3 1Ns4 o 1 Set the station No of the MELSECNET H board Set the station No in the Board Information screen of the MNETH utility 1 Effective setting range The effective setting range differs depending on the type of network Optical loop system 1 to 64 e Coaxial bus system 1 to 32 2 Caution a Make settings so that the same station No does not exist in more than one place in the same network 7 2 3 Control station Normal station Set the Control station Normal station setting on the MELSECNET H board Set the Control station Normal station setting in the Board Information screen of the MNETH utility 7 PARAMETER SETTINGS MELSEC 7 2 4 Group No This sets the MELSECNET H board s group No Set the group No setting in the Board Information screen of the MNETH utility 1 Valid setting range 0 No group setting 1 to 9 When in the MELSECNET 10 Mode 1 to 32 When in the MELSECNET H Mode and MELSECNET H Extended Mode 2 Cautions a Only one Group No can be set for 1 station Group No 1 Group No 2 Personal CPU computer Ns2 Persona computer 7 2 5 Mode setting This sets the MELSECNET H board s operating mode Selection item Content Normal operation return to system is selected Online auto reconnection When the system is started up data communications is started and automatic return to system operations etc are carried o
86. 1Ns3 Y X 1Ns4 e Actual I O Actual I O Actual X1000 Y1000 1 4 to to 2 X11FF YFF LLLA RO Lee 1200 Y1200 9 to to X13FF IY 13FF X1400 Y1400 e to to X15FF IY15FF Meu RU uu c 1 Y1FFF 1 O master station MNELSECNET H board 1 1 1352 1Ns3 INSA c memem xSs 1Ns8 M station L station L station L station J ea chus Lex C Network No 1 7 PARAMETER SETTINGS 2 Screen settings Common parameter settings MELSEC To set the transmission range for each station LX LY settings perform the settings in Common parameter settings in the MNETH utility Bw setting 1 setting Reserved station setting Supplementary setting m Channel 51 MELSECNET H 1 slot Block 1 setting Data Setting r Send Range Setting for Each Station Tatal Station e Sta No 4 Set Mon SM 2000 00 fisrF gt fia 15 Send Range woes eT METUS i400 fisrF lt 1400 15 r Send Range for Each Station Send Range M gt L Send Range M lt L 1 O0 11FF 1000 11FF 1000 lt gt 11 1000 lt gt 11 1200 gt 13FF 1200c 13FF 1200 lt gt 13FF 1200 13FF 1400 lt gt 15FF 1400 515FF 1400 515FF 1400 lt gt 15 Ehange Delete Setting Clear 3 Precaution
87. 2 in otk 7mm 5mm clamp and SCAN SACOM sein external conductor 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 4 Solder the contact to the internal conductor Solder here 5 Insert the connector assembly 4 into the plug shell and screw the nut into the plug shell 1 Note the following precautions when soldering the internal conductor and contact Make sure that the solder does not bead up at the soldered section Make sure there are no gaps between the connector and cable insulator or they do not cut into each other Perform soldering quickly so the insulation material does not become deformed 2 Before connecting or disconnecting the coaxial connector touch a grounded metal object to discharge the static electricity from the human body Failure to do so may result in a MELSECNET H board malfunction 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 2 Using a BNC connector manufactured by Canare Electric Co Ltd The following explains how to connect the BCP C3B BCP C5B or BCP C5FA to the cable a Structure of the BNC connector and coaxial cable Structure of the coaxial cable Components of the BNC connector External conductor SY E gt p Insulating material Outer sheath Crimp sleeve Center contact pin Internal conductor b How to connect the BNC connector and the coaxial cable 1 Thread a coaxial cable through a c
88. 67 A consumption Weight 0 11 kg 1 MELSECNET H board communications rate and Mode settings are performed using the MNETH Utility For details refer to Section 9 2 3 x2 Depending on the number of stations connected there are limits to the cable length between stations For details refer to Section 6 4 2 3 SPECIFICATIONS MELSEC 3 3 Optical Fiber Cable Specification For the optical fiber cable specification refer to Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network 3 4 Coaxial Cable Specification For the coaxial cable specification refer to Corresponding MELSECNET H Network System Reference Manual PLC to PLC network 4 FUNCTION 4 FUNCTION MELSEC This chapter explains the function of MELSECNET H board 4 1 Function List The following flowchart shows the function list for MELSECNET H board Basic Cyclic transmission function Communication LB LW functions Periodical communication Communication LX LY RAS function Automatic return function Refer to Q Corresponding MELSECNET H Network System Control station switch function Reference Manual Control station return control function PLC to PLC network Loopback function optical loop system 4 Prevention of station failure by using external power supply optical loop system Diatnostic function Section 6 5 Driver WDT function Section 4 3 Applicati
89. AM modulation 1kHz Radiated radio frequency electric field is radiated to e 80 to 1000MHz 10V m electromagnetic field the product 1 4 to 2 0GHz 3V m immunity 1 2 0 to 2 7GHz 1V m EN61000 4 4 B m AC DC power I O power and Fast transient burst Burst noise is applied to power iio unshielded lines 2kV immunity 1 lines and signal lines DC I O analog and communication lines 1kV 8kV Air discharge 4kV Contact discharge AC power AC I O power EN61131 2 AC I O unshielded lines 2kV CM 1kV DM 2007 EN61000 4 5 Lightning surge is applied to DC power and DC I O power lines Surge immunity 1 power lines and signal lines 0 5kV CM 0 5kV DM DC I O AC I O shielded analog communication 1kV CM EN61000 4 6 High frequency noise is applied 0 15 to 80MHz 80 AM modulation 1kHz Conducted RF immunity Ito power lines and signal lines 10Vrms EN61000 4 8 The product is immersed in the Power frequency magnetic magnetic field of an induction 50Hz 60Hz 30A m field immunity 1 coil 0 0 5 period starting at zero crossing Power voltage is momentarily e 0 250 300 period 50 60Hz interrupted 4096 10 12 period 50 60Hz 7096 25 30 period 50 60Hz 1 The tests were conducted installed in a control panel EN61000 4 11 Voltage dips and interruption immunity 1 5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC 5 1 2 Installation in a control panel T
90. CNET 10 Mode function compatible and performance compatible mode MELSECNET H mode Set this mode when all CPUs within the network are QCPUs The maximum number of link points per station has been increased MELSECNET H Extended compared with the MELSECNET H mode In excess of 2000 bytes a maximum of 35840 bytes can be set Set this mode when the system uses many link points per station Personal Computer MELSECNET H Board Q80BD J71BR1 1 Personal Computer MELSECNET H Board MELSECNET 10 Q80BD J71LP21 25 QCPU 1 x Mode QCPU GX Developer E A MELSECNET H 72 LH LL Tr Art QCPU QCPU AnU lo gl E 1 The multiple CPU system compatible network module is for function version B and subsequent products 2 In the multiple CPU system a network module that becomes a relay station is the same as the control CPU 1 OVERVIEW MELSEC 1 For MELSECNET H select Q compatible network modules 2 If QnACPU or ACPU are included in the same network select MELSECNET 10 mode which is compatible with MELSECNET 10 3 All of network modules and MELSECNET H boards within the same network must be set to the same mode network type 1 1 MELSECNET H mode MELSECNET H Extended mode and MELSECNET 10 mode are available 1 2 Features The features of the ME
91. CNET H board is given below Item Quantity Connector set for external power supply cable Q80BD J71LP21S 25 only F type connector AGRCON F Q80BD J71BR1 1 only Before Using the Product 1 Softwarelicense agreement S S o Software license agreement x1 Manuals are stored on the CD ROM in PDF format 1 OVERVIEW MELSEC 1 OVERVIEW This is a manual you read when using the MELSCNET H board in the MELSECNET H mode or MELSECNET H Extended mode When using the MELSCNET H board in the MELSCNET H network refer to Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network Also when using the board in the MELSECNET 10 network system refer to For QnA Q4AR Corresponding MELSECNET 10 network system reference manual 1 1 Overview The MELSECNET H is a network system which is used to connect multiple sequencer modules and personal computers and is equipped with functions and performance realized in the MELSECNET 10 for general control of a production line In the MELSECNET H there is a network system which includes an optical loop System communication rates 10 Mbps 25 Mbps and a coaxial bus system communications rate 10 Mbps enabling large volume communications at high speeds Also in order to improve the performance of the MELSECNET 10 network and achieve upward compatibility MELSECNET H supports the MELSECNET and MELSECNET H Extended modes high performance high speed mode and the MELSE
92. Control Pane Home AEG CoE E n Review your computer s status and resolve issues Tiesu WB Changs User Account Control settings Troubleshoot common computer problems Network and Internet Restore your computer to aneatliertime Hardware and Sound a preval Progrems Checfeesaltstus Allow a program through Window Firewall User Accounts and Faily Safety da System Pin C UM View amount of RAM and processor speed Che lowe Experience Index an dow emote accers See computer Dever Manager Clock Language and Region p Windows Update Ense cf Access Tum automatic updating on or off Checkfor updates View installed updates Power Options Change battery settings Require a password when the computer wakes Change whatthe power buttons Change when the computer sleep Dfa Backup and Restore Backup your computer Restore files from backup Windows Anytime Upgrade Get more features with a new edition of Windows 7 Administrative Tools Freeup diskspace Defragment your hare drve Create and format hard disk partitions View event logs 6 Schedule tasks 1 User Account Contiol Settings oee Choose when to be notified about changes to your computer User Account Control helps prevent potentially harmful programs from making changes to your computer Tellme more about User Account Control settings Always notty Never notify me when Programs try to install software or make changeste my computer
93. Duplicate link device ranges cannot be assigned to each station between block 1 and block 2 If the network module is the I O master station they must be set not to duplicate with the actual I O the range of input output numbers to which the actual module is installed of the of the CPU module mounted CPU device Link device LX LY settings 2 NN Duplicate 4 02 Duplicate 4 e Block 2 Saree 5001 usps o 1 7 PARAMETER SETTIN Z MELSEC 7 3 3 Total station This sets the total number of control stations normal stations and reserved stations in a single network Set the total number of link stations in the Common parameter settings screen in the MNETH utility Total station 8 MELSECNET H Board 1Mp1 CPU 0471 CPU 0071 1Ns2 MNs3 1 1Ns4 Lie scale n xp 1 CPU QJ71 CPU QJ71 1Ns7 1Ns5 7 3 4 Designation of the I O master station The master station in each block for 1 1 communication using LX LY can be specified as I O master station regardless of either the control station or the normal station Each of block 1 and block 2 has one I O master station which is set by the send range LX LY of each station in each block Specify the I O master station with the Common parameter setting screen of the MNETH utility if the MELSECNET H board is control station 7 3 5 Reserved station sett
94. E AND SETTINGS UP TO THE POINT OF OPERATION MELSEC NCAUTION e When installing the board take care not to contact with other boards e When mounting the board take care not to become injured by the components that are installed or surrounding materials 6 3 4 Channel No settings Channel No is set to each board in order to discriminate the board The number can be set within the range of 51 to 54 Channel No is used to specify the target board when setting parameter or executing MELSEC data link library function 1 Setting method The following explains the channel No assignment method of MELSECNET H board a Automatic assignment of channel No The channel No is automatically assign to MELSECNET H boards installed in a personal computer in the order of the PCI slot No from 51 to 54 Check your personal computer s manual concerning the order of the PCI slot numbers b User specified assignment method In user specified assignment the user changes the channel No in the Channel No Setting screen in the Board List screen of the MNETH utility After the change the set assignment in Channel No Setting becomes valid As MNETH utility products SWODNC MNETH B version 19V or later store channel numbers assigned to each MELSECNET H board these channel numbers will automatically be set when a PCI slot is changed Channel numbers will automatically be assigned as follows When using a MELSECNET H board that
95. G MELSEC When the Found New Hardware Wizard screen is not displayed automatically after the board installation update the driver on the Device Manager screen E computer Management 1 Open the Windows Device Manager screen Right click on 08 Fie Action Window elem Tatare Network Controller and select Update Driver Software 188 Computer Management Local 80 Monitors fib System Tools 55M Network adapters Event viewer Gp Other devices a 05 Shared Folders Local Users and Groups a dij Performance Logs and 28 Device Manager E 0 System devices Launches the Hardware Update Wizard for the selected device Found New Hardware Wizard 2 Click Install from a list or specific location Advanced Welcome to the Found New Hardware Wizard This wizard helps you install software for Network Controller If your hardware came with an installation CD lt gt or floppy disk insert it now What do you want the wizard to do Q a ist or specific location Advanced Click Next to continue l 3 Insert the CD ROM of the software package to the CD ROM drive Found New Hardware Wizard 4 Specify the driver software for Search for driver software in Please choose your search and installation options xt this location according to the following information and click the button For 32 bit version operating system gt Specify Driv
96. Gallery aa Windows Live Messenger Download D f gt Control Panel Network and Internet Connect to th Programs Mobile PC Recent Items Computer Network Connect To Control Panel Default Programs Help and Support Clock Language and Region Change keyboards or other input methods 2 Select User Accounts To next page App 15 App 15 APPENDIX From preceding page User Accounts Change your account picture Add or remove user accounts Change your Windows password Windows CardSpace Manage Information Cards that are used to log on to online services Programs Mobile PC User Accounts Additional Options Classic View Change your password Remove your password file encryption Change your picture Change your account name Configure advanced user Change your account type profile properties changey bi Change my environment variables Manage another account f Make changes to your user account Tum User Account Control on or off o GOJ User Accounts Turn User Account Control or Off you leave UAC turned on to help protect your computer Turn on User Account Control UAC to make your computer more secure User Account Control UAC can help prevent unauthorized changes to your computer We recommend that E Use User Account Control UAC to help pr
97. HOOTING MELSEC 14 3 When MELSECNET H Board did not Operate Normally When the personal computer on which the board is installed is not started or the system shut down or system reset is occurred check the items following the procedure shown below 1 Uninstall the board and check if the personal computer is started Checking personal computer and operating system Refer to Section 14 3 1 2 After restarting the personal computer check if there is any error Checking on Event Viewer screen Refer to Section 14 3 2 3 Install the board and restart the personal computer Checking the board installation status Refer to Section 6 3 3 Checking on the Device Manager screen Refer to Section 14 3 3 If the troubleshooting above does not help refer to Section 14 9 After starting the personal computer on which the board is installed check the items following the procedure written in Basic checking procedure Refer to Chapter 14 1 1 The system shutdown occurred when driver is uninstalled or disabled Do not uninstall or disable the driver on the Device Manager screen when the board is normally recognized If it is uninstalled or disabled the operating system may shut down blue screen 14 3 1 Checking personal computer and operating system Check if the personal computer or operating system has any problem Is the power supply ensured Check the power outlet and power cable of the personal computer Change the
98. LSECNET H board are as shown below 1 A personal computer can be incorporated into MELSECNET H By mounting the MELSECNET H board in a personal computer the personal computer can be used as a MELSECNET H or MELSECNET 10 control station or normal station Board model name Supported network Q80BD J71LP21 25 MELSECNET H Mode MELSECNET H 10 Mbps 25 Mbps Optical Q81BD J71LP21 25 MELSECNET H Extended Mode Loop System Q80BD J71LP21S 25 MELSECNET 10 Mode MELSECNET 10 Optical Loop System MELSECNET H Mode MELSECNET H 10 Mbps Coaxial Bus Q80BD J71BR11 MELSECNET H Extended Mode System MELSECNET 10 Coaxial Bus System MELSECNET H Mode MELSECNET H 10 Mbps Optical Loop MELSECNET H Extended Mode System 7 MELSECNET 10 Optical Loop System 2 By adopting the PCI PCI Express standard complicated switch settings are no longer required The system can be used simply by installing the MELSECNET H board in the personal computer then installing the software The channel No station No and other settings can be carried out easily in the MNETH Utility 3 Compatibility with the previous MELSECNET 10 board s operations is maintained a Upward compatibility of user programs Since MELSECNET H board has the same number of the maximum mountable board and channel number as the previous MELSECNET 10 board the exiting user programs can be utilized b Compatible with the GX Developer MX Links and MX Component It is possible
99. M version of the MELSECNET H board is shown on Board list tab in the MNETH utility Board list Board information Loop monitor Each sta status history monitor Memory 1 0 Test Target EG Board List Channel No Board Name IRG No Port Memory 170 Port Version reme Pal E e pem S mme rl Channel No Setting App 11 App 11 APPENDIX MELSEC 2 Checking the SWODNC MNETH B version The SWODNC MNETH B version is shown on Version tab in the MNETH utility xp Loop monitor Each sta status Err history monitor Memory 1 0 Test Target Driver SW DNC MNETH B 11 MELSECNET H utility 2004 10 28 Zn Copyright C 2000 MITSUBISHI ELECTRIC CORPORATION All Rights Reserved Appendix 6 New and Improved Functions Appendix 6 1 Change of hardware function The following table shows the new and the improved functions in the MELSECNET H board VPE First five digits of the serial Software version of p number SWODNC MNETH B MELSECNET H Extended mode 06112 or higher 11M or later Appendix 6 2 Update of software package For details of the update version software and the functions which are added or changed please consult your local Mitsubishi representative App 12 App 12 APPENDIX MELSEC Appendix 7 Restrictions for Operating System The following applicable operating system is not supported by SW1DNC MNETH B with the so
100. MELSEC Appendix 9 3 Behavior when the fast startup function is enabled 1 Target operating system The following operating systems have the fast startup function e Windows Server 2012 e Windows 8 2 Behavior when the fast startup function is enabled The following explains the behavior of the board when the fast startup function is enabled e The board is not reconnected even after the fast startup e After the fast startup 28141 9213H System sleep error occurs when accessing MELSECNET H board from the MELSECNET H utility or an application program which includes MELSEC data link library function 3 Countermeasure When the fast startup function is enabled the setting is changed to disabled by MELSECPowerManager For details of MELSECPowerManager refer to Appendix 10 App 23 App 23 APPENDIX MELSEC Appendix 10 MELSECPowerManager MELSECPowerManager is a service application which monitors the Windows Power Options settings every 30 seconds to prevent the personal computer from entering the power save mode hibernate sleep MELSECPowerManager is applicable for the following operating systems e Windows Vista e Windows Server 2008 e Windows Server 2008 R2 e Windows 7 e Windows Server 2012 e Windows 8 When a personal computer is set to enter the power save mode hibernate sleep or the fast startup function is enabled the following message is displayed and the setting is changed by
101. MELSECNET H board Connection to control system Standby system Tracking cable Personal computer p MELSECNET H board Connection to control system MELSECNET H Standby system Control system Fig 1 Route switching example 1 Tracking cable lt When standby system fault occurs gt Personal computer MELSECNET H board Connection to control system 3 Standby system error a Personal computer MELSECNET H board Connection to control system MELSECNET H Control system Tracking cable Fig 2 Route switching example 2 App 5 App 5 APPENDIX MELSEC POINT e Route switching is not executed if a communication error has already occurred at a communication start for the Redundant CPU specified for the Logical Sta No A communication error occurs If communication error has occurred refer to b in 4 Automatic switching of communication route and remove the communication disturbance 1 First communication after execution of the mdOpen function in the MELSEC data link library communication using the mdReceive mdSend mdControl mdDevRst mdDevSet mdRandR mdRandW or mdTypeRead function e f other station access including the programmable
102. MITSUBISHI Mitsubishi PC Interface Board MELSEG MELSECNET H Interface Board User s Manual For SWODNC MNETH B Q80BD J71LP21 25 Q80BD J71LP21S 25 Q81BD J71LP21 25 Mie Q80BD J71LP21G Q80BD J71BR11 e SAFETY PRECAUTIONS e Be sure to read these instructions before using the product Before using this product read this manual and the relevant manuals introduced in this manual carefully and handle the product correctly with full attention to safety Note that these precautions apply only to this product Refer to the user s manual of the CPU module for safety precautions on programmable controller systems In this manual the safety instructions are ranked as A WARNING and A ACAUTION Indicates that incorrect handling may cause hazardous conditions Zi WARNING resulting in death or severe injury Indicates that incorrect handling may cause hazardous conditions N CAUTION resulting in minor or moderate injury or property damage Note that failure to observe the CAUTION level instructions may also lead to serious results depending on the circumstances Be sure to observe the instructions of both levels to ensure personal safety Please keep this manual in accessible place and be sure to forward it to the end user Design Instructions N WARNING e Make sure to see this manual for information about each station s operating status when a communication error occurs in the network Erroneous outputs
103. N iis 2 I MELSEC 9 3 8 Tuning on off a bit device Turns on off the specified bit device 1 Selecting the menu Select Device write Bit device set reset from the menu bar 2 Dialog box xi Device Type Device 1 direct link input z Network No 1 DeviceNo amp HEX C DEC C OCT omen Enter a network number for LX LY LB and LSB a number of a device whose value is to be changed HEX Hexadecimal DEC Decimal OCT Octal NWARNING e Configure an interlock circuit in the sequence program so that the entire system works safely at all times for data change control to the programmable controller in operation Also determine corrective actions for an event of data communication error between the PC and programmable controller CPU in use 9 3 9 Switching the display form Switches the device monitoring display to the selected form The batch monitoring and 16 point entry monitor have different sets of selectable menus respectively 1 Selecting the menu Select Display switch Word bit device from the menu bar 9 UTILITY OPERATIONS MELSEC 9 3 10 Numeric value input pad A numeric value input pad is available for setting device values and other numeric parameters To display the numeric value input pad select Options Numerical pad from the menu bar 1 Click inside the numeric value input field Data Changing x Device W 0000 HEX o m 4 Can
104. NET H board s channel No Displays the model name of the connected MELSECNET H board The contents displayed on the screen and the corresponding MELSECNET H board s model name are as shown below Screen Displa Model Name MNET H Optical fiber Q80BD J7 1LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J71LP21GE MNET H Coaxial Q80BD J71BR11 Channel No Confirm Button Displays the Channel No Confirm screen For details refer to 2 Channel No Confirm Displays the Channel No Setting screen For details refer to 3 Channel No Setting Channel numbers may change due to board replacements or alternations of PC device configurations In such cases check channel numbers and parameter settings with the Board list and Board information screens Channel No Setting Button TILITY OPERATION di Z MELSEC 2 Channel No Confirm Screen Clicking the Channel No Confirm screen in the Board List screen displays the following dialog box and enables the user to check the channel No by the status of the display LED s on the MELSECNET H board MELSECNET H Channel No Confirm r Channel No Confirm Channel No can be confirmed with LED of the board LED corresponding to Channel No of the board is as follows LED return to normal status when OK button is pushed r LED Image Channel 51 2 5 5 E L eo 06 66 po Sb RD 0 RD 50 RD 50
105. OU SHOOTING MELSEC 14 4 4 Flowchart to use when unable to achieve data link for entire system An error occurs NO Is parameter set to the control station Set the parameter YES NO YES Did the data link begin Is the control station mode set to Online And is its station number set to 1 to 64 NO Correct the control station mode and station number then reset the programmable YES controller CPU and MELSECNET H board NO YES Did the data link begin Complete NO Is the watchdog time setting for parameter greater than the link scan time Correct the set value for watchdog time YES NO YES Did the data link begin Is the control station s RUN LED lit Are the RUN LEDs of the first station through the last station lit YES 1 2 3 Go to the next page Go to the next page Go to the next page 14 19 14 19 14 TROUBLESHOOTING 1 2 3 Replace the MELSECNET H board network module of the faulty station among the control station and first through last stations NO YES a Did the data link begin gt Perform self loopback tests for the control station and first through last stations YES Is there any station with error Replace the MELSECNET H board network module of the faulty station NO YES Did the data link begin gt Check
106. Points below Setting value Valid setting times Default setting Setting item Maximum no of transients in 1 scan 1 to 255 times Maximum no of transients in one station 1 to 10 times Twice B W setting XY setting Reserved station setting Supplementary setting Channel 51 MELSECNET H 1 slot gt Constant Scan ms Specification of low speed cyclic transmission Maximum No of returns to Transmit data of one station in 1 scan system stations in 1 scan 2 Station Fixed term cycle interval setting Sec With multiplex transmission C as limes There is a data link through the Iv sub controlling station when the Month Hour Min Sec controlling station is down T Secured data send Secured data receive Transient setting 4 Maximum no of transients 2 5 in 1 scan Times Maximum no of transients 2 Ti B in one station mes Transient setting 1 By increasing the number of transients multiple transient instructions can be executed at the same time in one link scan 2 If the number of transients is increased and the transient request was issued in each station at the same time the link scan time becomes temporarily longer and the cyclic transmission is also affected Do no set unnecessarily large values When the transient transmission and the low speed cyclic transmission are used at the same time these transient setting parameters limit the
107. RD LEDs are broken Did the SD RD turn on Consult with the dealer regarding the problem Complete 14 17 14 17 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 4 3 Flowchart to use when L ERR LED turns on An error occurs YES Has the MNETH utility standard Stop the user program and activate the MNETH utility v Select Board Information screen and identify the error type from LED status YES Is the error type PRM E Check for the following error causes NO 1 Duplication of station No for MELSECNET H board 2 Coexistence of any different network types within the same network 3 In the case of MELSECNET H Extended mode use of the MELSECNET H board of ROM version 2X or later For checking the ROM version refer to Appendix 5 4 Error code stored in SW0055 1 Select Loop monitor screen Remove the error cause s Is forward loop normal Check the cable for the host forward loop Check the cable for the host reverse loop NO Did the data link begin Consult with dealer regarding the problem YES Complete 1 For the error code in SW0055 refer to the Corresponding MELSECNET H Network System Reference Manual PLC to PLC network The error code in SW0085 can be also checked by monitoring SD85 with Device Monitor Utility Refer to Section 9 3 14 18 14 18 14 TROUBLESHOOTIN
108. Section 8 2 3 Section 10 3 Section 10 3 3 Section 10 3 4 Section 10 8 Section 11 3 Chapter 12 Section 14 4 Section 14 5 5 Section 14 6 Appendix 3 The manual number is given on the bottom left of the back cover Print Date Manual Number Dec 2004 SH NA 080128 G Chapter numbers of 5 to 14 were changed to 6 to 15 respectively Precautions for use Generic Terms and Abbreviations Chapter 1 Section 1 1 Section 1 2 Section 1 3 Section 2 1 Section 2 4 Section 2 5 Section 3 2 Chapter 7 Section 7 1 Section 7 2 4 Section 9 2 2 Section 9 2 3 Section 9 2 5 Section 9 2 10 Section 9 2 11 Section 10 1 2 Section 10 2 Section 13 2 1 Section 15 4 3 Addition Section 2 6 Chapter 5 Section 15 7 Jun 2005 SH NA 080128 H Model addition Q80BD J71LP21S 25 Correction SAFETY PRECAUTIONS INTRODUCTION Generic Terms and Abbreviations Product List Section 1 2 Section 2 1 Section 2 5 Section 3 2 Section 4 1 Section 6 1 Section 6 3 Section 6 4 Section 6 5 Section 6 6 Section 7 2 1 Section 8 1 2 Section 9 2 2 Section 9 2 6 Section 9 3 5 Section 11 4 Section 11 6 Section 12 3 Chapter 13 Chapter 14 Section 15 2 Section 15 4 4 Section 15 6 Section 15 7 Section 15 8 Appendix 4 Appendix 5 Addition Section 6 4 4 Section 15 6 Appendix 4 Appendix 6 2 Jul 2005 SH NA 080128 I Section 2 5 Appendix 6 2 ct 2005 SH NA 080128 J Section 2 5 Section 8 1 1 Section 8 1 2
109. Section 8 3 Section 9 1 Section 15 2 Oct ar 2007 SH NA 080128 K Generic Terms and Abbreviations Section 2 2 4 Section 2 5 Section 6 4 1 Section 6 4 2 Section 8 1 1 Section 8 1 2 Section 10 1 2 Section 10 2 Section 11 2 Section 11 6 Section 11 8 Section 15 4 5 Addition Section 11 3 5 Section 11 3 6 Section 11 7 t 2007 SH NA 080128 L Generic Terms and Abbreviations Section 1 2 Section 1 3 Section 2 5 Chapter 5 Section 8 1 1 Section 8 3 Section 9 1 Chapter 14 Section 15 2 Section 15 3 1 Section 8 1 2 changed to Section 8 1 3 Addition Section 8 1 2 Appendix 5 Jan 2008 SH NA 080128 M Generic Terms and Abbreviations Section 2 5 Section 6 5 1 Section 6 5 2 Section 6 5 3 Section 6 6 1 Section 6 6 2 Section 8 1 1 Section 8 1 3 Section 10 1 2 Section 10 2 Section 11 6 Section 11 7 The manual number is given on the bottom left of the back cover Print Date Manual Number May 2008 SH NA 080128 N Model addition Q81BD J71LP21 25 Correction SAFETY PRECAUTIONS Precautions for Use INTRODUCTION Generic Terms and Abbreviations Product List Section 1 2 Section 1 3 Section 2 1 Section 2 5 Section 3 1 Section 3 2 Section 6 3 Section 6 4 1 Section 6 4 3 Section 6 5 1 Section 6 5 2 Section 6 5 3 Section 6 6 1 Section 6 6 2 Section 8 1 1 Section 8 1 3 Section 8 2 Section 8 3 Section 9 1 Section 9 1 1 Section 9 2 2 Section 9 2 6 Section
110. TA LED lights up The reverse loop cable is broken The reverse loop s transmission side and reception side cables are not connected 3 The CRC OVER and AB IF LEDs light up on the F LOOP and R LOOP sides The cable is defective 4 UNDER LED lights up Hardware error The cable was disconnected during the test The cable was broken during the test b Coaxial Bus System Q80BD J71BR1 1 1 TIME LED lights up The connector is disconnected 2 The CRC OVER and AB IF LEDs light up on the F LOOP and R LOOP sides The connector is defective 3 DATA and UNDER LED lights up Hardware error The connector was disconnected during the test Corrective action when the test completes abnormally Check if the cable failure is not occurred the connector is not disconnected and the wiring is appropriate If there is any error correct the connection When the cable has been disconnected replace the cable When the hardware error has occurred replace the board For the error occurred in the other station check the other station 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 5 5 Forward loop Reverse loop test Using the forward loop reverse loop test you can check the Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J71LP21GE network module and cable hardware after all the stations have been connected with optical fiber cable and can also check
111. URE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 4 3 Connecting the connector for the coaxial cable The following section explains how to attach the BNC connector connector plug for the coaxial cable to the cable 1 Using a BNC connector manufactured by DDK Ltd The following explains how to connect the BNC P 3 NiCAu or BNC P 5 NiCAu to the cable NCAUTION Correctly solder coaxial cable connectors Incorrect soldering may result in malfunction a Structure of the BNC connector and coaxial cable Parts comprising the BNC connector Structure of the coaxial cable SD e e External conductor Nut Washer Gasket Insulating material Outer sheath Plug shell 2 Clamp Contact Internal conductor b How to attach the BNC connector and the coaxial cable 1 Cutthe portion of the outer sheath of the coaxial cable as shown in the figure below EN g NEN Q 3C 2V 15mm 0 59 in _ 5C 2V 5C 2V CCY 10mm 0 39 in Cut this portion of the outer sheath 2 Fitthe nut washer gasket and clamp onto the coaxial cable as shown below and then loosen the external conductor Gasket 3 Cutthe external conductor insulation material and internal conductor to the dimensions shown below However cut the external conductor to the same dimension as the tapered section of the clamp and smooth it down to the clamp Internal Insulation conductor material 6mm 3mm 3C 2N 0 24 in 0 1
112. W1DNC CCIEF B 2 1 02C or later MELSEC Data Link Library Reference Manual 1 Depending on other installed software packages the manuals shown above may also be displayed In this case refer to MELSEC Data Link Library Reference Manual 2 When SW1DNC CCIEF B Version 1 02C or later is installed MELSEC Data Link Library Programmer s Reference is deleted c Driver When installing the board on the personal computer after the installation of the software package the driver is installed automatically DA 1 For Windows XP and Windows Server 2003 R2 the driver is required to be specified on the Found New Hardware Wizard screen Refer to 14 2 4 When the driver installation is completed normally the following driver is displayed on the Device Manager screen of Windows MELSECNET H Device PCI MELSECNET H Controller d Service application To prevent a personal computer entering the power save mode hibernate sleep MELSECPowerManager is installed automatically under the specific operating system For details of MELSECPowerManager refer to Appendix 10 3 When installation is aborted or failed When the installation is aborted or failed take corrective actions following the troubleshooting Refer to Section 14 2 1 8 INSTALLING AND UNINSTALLING SOFTWARE PACKAGE 8 3 Uninstallation MELSEC This section explains a procedure for uninstalling the software package 1 Uninstallation procedure Uninstall the softwar
113. ansfer intermediate Intermediate network No station No to network No 1 2 1 to network No 3 network No station No Stations for which the routing parameters are set 1 The bridge function refers to sending data via an adjacent network 12 14 12 14 12 APPLICATION FUNCTIONS MELSEC 2 Routing parameter settings a Setting screen A maximum of 64 Transfer to Network No can be set on the Routing Parameter Setting of the MNETH utility Note that the same Transfer to network number cannot be designated more than once multiple Therefore the host can become the request source or can be accessed to other station through the host with 64 types of different Transfer to Network No Setting item Valid setting range Transfer to Network No 1 to 239 Intermediate Network No 1 to 239 Intermediate Station No 1 to 64 MELSECNET H Routing Parameter Setting Data Setting Transfer to Intermediate Intermediate No Network No Network No Sta No ip 4 b A 1 n 3 d Set r Setting Data No Transferto Network No Intermediate Network Intermediate Sta Change 1 1 2 1 3 2 2 3 2 3 3 4 1 3 Delete p Channel 51 MELSECNET H 1 slot Composition without MELSECNET 10 network Cancel Manual b Setting method Set the routing parameters according to the procedure described below
114. ard System Configuration MELSEC The system configuration when the MELSECNET H board is mounted to a personal computer is shown below Install Personal Computer Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Install SWODNC MNETH B Q80BD J71LP21G Q80BD J71LP21GE Q80BD J71BR11 f Optical fiber cable Type of cable SI H PCF Broad band H PCF QSI Optical fiber cable Type of cable Gl 4 Optical fiber cable Type of cable 62 561 Ci Coaxial cable MELSECNET H mode MELSECNET H Extended mode MELSECNET H Optical loop system ii MELSECNET 10 Optical loop system MELSECNET 10 mode MELSECNET H mode MELSECNET H Extended mode MELSECNET H Optical loop system MELSECNET 10 Optical loop system MELSECNET 10 mode MELSECNET H mode MELSECNET H Extended mode MELSECNET H Optical loop system MELSECNET 10 Optical loop system MELSECNET 10 mode MELSECNET H mode MELSECNET H Extended mode MELSECNET H Coaxial bus system Type of cable 3C 2V 5C 2V 5C FB MELSECNET 10 Coaxial bus system MELSECNET 10 mode 2 SYSTEM CONFIGURATION MELSEC 1 When using the MELSECNET H Extended mode a Use the MELSECNET H board of ROM version 2X or later and SWODNC MNETH B version 11M or later b When assigning 2000 bytes or more
115. ase of using MELSECNET H board with communication rate of 25 Mbps MELSECNET H mode Abbreviation in case of using MELSECNET H board and network module with MELSECNET H MELSECNET H Extended mode Abbreviation for the extended MELSECNET H mode which is extended in the maximum number of link points per station MELSECNET 10 mode Abbreviation in case of using MELSECNET H board and network module with MELSECNET 10 Board WDT Abbreviation for the watchdog timer that monitors the operation of network board Driver WDT Abbreviation for the watchdog timer that monitors the communication status between a network board and a personal computer or operating status of a personal computer MEANING AND CONTENTS OF THE TERMS This section describes meaning and contents of the terms in this manual 1 Abbreviations for control station and normal station and symbol format This section explains abbreviations for control station and normal station and symbol format to be used in this manual a Abbreviation Abbreviation MP Control station Normal station Station that can serve as a control station b Symbol format Mpo o0 Group number 1 to 32 GO Station number 1 to 64 Abbreviation Network No 1 to 239 Example 1 Network No 3 control station station number 6 3MP6 2 Network No 5 normal station station number 3 5Ns3 PACKING LIST The packing list of the MELSE
116. assed Windows Logo t testing to verify its compatibility with this version of Windows Tell me why this testing is important Continuing your installation of this software may impair or destabilize the correct operation of your system either immediately or in the future Microsoft strongly recommends that you stop this installation now and contact the software vendor for software that has passed Windows Logo testing Continue Anyway 7 Instructions Click the button This screen is displayed at the first installation Click the Continue Anyway button The operation test has been conducted by Mitsubishi Problems do not occur after the installation The following screen may appear behind another screen Then press the Alt Tab keys to bring it to the front 14 TROUBLESHOOTING MELSEC Screens Instructions For Windows Server 2003 R2 one of the screens shown on the left is displayed at the first installation Click the button Security Alert Driver Installatit t The driver software you are installing for H winDriver has not been properly signed with Authenticode TM technology Therefore Windows cannot tell i the software has been modified since it was published The publisher s identity cannot be verified because of a problem The installed INF file does not contain digital signature information Do you still want to install this driver software
117. atus Link Scan Time R ee FF RS During datalink Maximum Reason for Transmission TERNI ms Interruption inem Normal comm Rieason for Transmission Ston Current E Normal comm ms 7 Sets the channel MELSECNET H board perform loop monitor Displays the host information Displays the host s loop status using characters and graphics Also images are changed as shown below according to the connection status For Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J71LP21GE Forward loop Normal Forward loop Normal Forward loop Abnormal Reverse loop Normal Reverse loop Abnormal Reverse loop Normal zd _ c Rm ER pi 11 LE Forward loop Abnormal Reverse loop Abnormal Display the same regardless of the loop status Displays current loop status Displays the current data link status 9 UTILITY OPERATIONS 9 2 7 Each station status screen operation MELSEC This screen displays communication status and loop status for each station Board list Board information Loop monitor Each sta status history monitor Memory 1 0 Test Target 7 Channel 51 MELSECNET H 1 slot r Own Station Information Network Mo Group No StaNo Control Normal Sta p juni Control Sta
118. bleshooting above does not help refer to Section 14 9 14 1 14 1 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 1 Cause Determination Methods by Type of Trouble When an error occurs use the table below to find the section that describes an appropriate method to determine the cause Error detail Cause determination method Corrective action MELSECNET H board did not operate normally upon startup When executing a user program system down blue Refer to Section 14 3 Screen or system reset occurred on the operating system Data link is not achieved after the MELSECNET H board and control station as well as other normal stations were Refer to the flowchart in Section 14 4 connected An error occurred while conducting data link 14 1 An unexpected value is input to a specific link device B W X Y 2 Data cannot be written or read even though device access has been performed using communication functions with the user program 3 Communication is occasionally disabled while running the user program The external power supply function does not work Refer to Section 14 6 properly The personal computer has slowed down Refer to the flowchart in Section 14 5 1 Operations with the mouse or keyboard are slow 2 Operations of other applications are slow Refer to Section 14 8 3 The CPU usage is high 4 Operations by the sound function are unstable 6 The software is normally installed Refer to Se
119. ccurred ashin 9 Check L ERR LED SD LED and RD LED L ERR Operating system startup error has occurred SD ON Driver WDT error has occurred Refer to 14 7 2 RD ON PCI bus error has occurred c When checking channel number The status is displayed as shown below according to the current channel number while opening the Channel No Setting screen Refer to 9 2 2 Channel No 51 52 5 p y vs vs vu LED m m m m m 2 External power supply indicator LED Display the status of external power supply EXT PW O EXT PW External power supply is being supplied External power supply is not supplied 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 3 Installation This section explains precautions when handling the MELSECNET H board and the installation environment 6 3 1 Handling precautions The following are precautions to be noted when handling the MELSECNET H board e Do not directly touch the conductive section of the board NCAUTION Doing so could result in malfunctioning or breakdown of the board e Before handling the board touch a grounded metal object to discharge the static electricity from the human body Failure to do so may cause failure or malfunction of the board e Handle the board in a location where there is no static electricity Static electricity could result in failure or malfunctioning e The board is packed in a bag for preventing
120. cel 2 The numeric value input pad is displayed Use the buttons to enter a desired value and then click the button Numerical Pad x RAAE AE en BEIE 3 The value is entered in the system Device Vw 0000 C HEX DEC 20 i NI 9 UTILITY OPERATIONS MELSEC 9 3 11 Other operations Double clicking the device number on the screen while monitoring changes data in word device and turns on off the bit device 1 Word device The following explains how to change the word device Only when the display form is 16 bit 1 Double click the number of the word device to be changed 2 As the following dialog box is displayed set a desired value Click the button Device W 0017 C HEX 123 4 cmn 3 Select in the dialog box shown below if the change is acceptable Select to cancel the operation Device Monitor Utility Change the device W 0017 to 123 All right Yes NWARNING e Configure an interlock circuit in the sequence program so that the entire system works safely at all times for data change control to the programmable controller in operation Also determine corrective actions for an event of data communication error between the PC and programmable controller CPU in use TILITY OPERATION din 2 2 MELSEC 2 Bit device The following explains how to turn on off the bit device However this operation i
121. ching of the communication route is referred to as route switching The following describes the route switching conditions how to check for route Switching occurrence and access to the control system by route switching a Route switching conditions When access is being made under the following conditions access to the Redundant CPU is continued by route switching if a communication error occurs Conditions for continued access Operation mode Backup mode Separate mode Target system Control system Standby system System A System B However if a tracking error had already occurred at a start of communication access to the control system is not continued by route Switching even if tracking is recovered after that 1 Includes the status in which either Redundant CPU is powered off or reset b How to check whether route switching occurred or not and examples of access by route switching 1 How to check whether route switching occurred or not When communication is being made in Target system whether communication is continued by route switching due to communication error can be estimated Create a program that will monitor the following special relay and special registers Special relay and special registers to be monitored and estimated possibility of route switching SM1600 SD1590 sD1690 Possibility of route switching OFF Either is other than 0 Since a system switching request from
122. chips or wiring debris from getting on the board Failure to do so can result in fire breakdowns or malfunction 2 Precautions on communication cable wiring N CAUTION Solder the coaxial cable properly If the soldering is incomplete it may cause the module malfunction e For the communication cable specialized skills and tools are required to connect the plug and cable The connector plug itself is a custom part When purchasing consult your local Mitsubishi representative If the connection is incomplete this can result in a short fire or malfunction Be sure to fix communication cables connecting to the board by placing them in the duct or clamping them Cables not placed in the duct or without clamping may be hang freely and accidentally pulled which may cause damage to the board or cable or malfunction due to bad cable contacts Refer to Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network for details of each communication cable 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 3 Precautions on external power supply cable wiring e Verify the rated voltage and pin assignment of the product and connect the external NCAUTION power supply cable properly Connecting a power supply with a different voltage rating imperfect cable crimping or faulty wiring may cause a fire or failure e Use a specified tool for crimping of the cable and contacting pin Imperfect crimpin
123. come injured by the components that are installed or surrounding materials e Always make sure to touch the grounded metal to discharge the electricity charged the body etc before touching the board Failure to do so may cause a failure or malfunctions of the board e When installing the board take care not to contact with other boards Wiring Instructions N WARNING e Be sure to shut off all phases of the external power supply used by the system before performing work such as installing the board and wiring If all power is not turned off there is a risk of electric shock or damage to the product e When turning on the power and operating the module after having installed the board and doing the wiring always attach the cover for the device module in which the board is installed There is a risk of electric shock if the module cover is not attached N CAUTION e Properly solder the parts of a soldering type coaxial cable connector Incomplete soldering may result in malfunction e Crimp the parts of a crimping type coaxial cable connector with proper force at a proper position Failure to do so may cause drop of the cable or malfunction e For the communication cable specialized skills and tools are required to connect the plug and cable The connector plug itself is a custom part When purchasing consult your local Mitsubishi representative If the connection is incomplete this can result in a short fire or malfunc
124. convenient when sending data that does not require high speed transfer to other stations in a batch mode using the cyclic devices LB LW A station can transmit data only once in a single link scan Simultaneous data transmission from multiple stations requires more scan time than the following Low speed cyclic link scan time normal link scan time number of send stations 1 In the low speed cyclic transmission send range for each station is set with the Common parameters setting B W setting screen of the MNETH utility B W setting XY setting Reserved station setting l Supplementary setting l j Channel 51 MELSECNET H 1 slot gt Data Setting r Send Range Setting for Each Station Total Station 4 StaNo Pairing Mo Pairs __se__ Low Speed Monitoring 2000 Send Range for LB 0000 JO0FF LB 2000 20FF Wh Each Station pw o000 ocFF zorF Send Range for Each Station tam te Tow Speed LB Low Speed tw 4 j1 o000 00FF 0000 lt gt 00 2000 20FF 2000 20FF I Change j 2 0100 01FF 0100 lt gt 1 2100 21FF 2100 21FF I s 0100 lt gt 01 0100 lt gt 01 2100 21FF 2100 lt gt 21 Delete 4 0200 gt 02FF_0200 gt 02FF 2200 22FF 2200 22FF I Setting Clear Low speed cyclic send range for each station The sending to other stations can be activated by three methods 1 Transmit data
125. crosoft Windows 95 Operating System Microsoft Windows 98 Operating System Microsoft Windows 98 Second Edition Operating System Microsoft Windows NT Workstation Operating System Version 4 0 Service Pack3 or higher z Microsoft Windows 2000 Professional Operating System Microsoft Windows XP Professional Operating System Microsoft Windows Server 2003 R2 Standard Edition Operating System Microsoft Windows Server 2003 R2 Enterprise Edition Operating System Microsoft Windows Server 2003 R2 Standard x64 Edition Operating System Microsoft Windows Server 2003 R2 Enterprise x64 Edition Operating System Microsoft Windows Vista Home Basic Operating System Microsoft Windows Vista Home Premium Operating System Microsoft Windows Vista Business Operating System Microsoft Windows Vista Ultimate Operating System 2 Microsoft Windows Vista Enterprise Operating System Microsoft Windows Server 2008 Standard Operating System Microsoft Windows Server 2008 Enterprise Operating System Microsoft Windows Server 2008 Standard x64 Edition Operating System Microsoft Windows Server 2008 Enterprise x64 Edition Operating System Microsoft Windows Server 2008 R2 Standard Operating System Microsoft Windows Server 2008 R2 Enterprise Operating System Microsoft Windows 7 Home Premium 32 bit version 64 bit version Operating System Microsoft Windows 7 Professional 32 bit version 64 b
126. ction 14 2 1 7 Uninstallation is not executed normally Refer to Section 14 2 2 14 2 14 2 14 TROUBLESHOOTIN OU SHOOTING MELSEC Error detail Cause determination method Corrective action The driver is not normally installed A mark is displayed next to the icon of the driver on Refer to Section 14 3 3 the Windows Device Manager screen An error message is displayed in utility 1 It failed to read the utility file version is displayed It failed to read the driver package version is Logon as a user with administrator authority and displayed execute utility It is failed to write the board setting data is Refer to POINT in Section 9 1 or reinstall the displayed operating system It is failed to write the target setting data is displayed The password is requested on the User Account Control When the utility is activated and if the following User screen when the utility is activated Account Control screen is displayed requesting a selection of user with administrator authority and User Account Control x password entry 1 the user who is logging on to the 6 An unidentified program wants access to your computer system does not have an administrator authority Don t run the program unless you know where it s from or you ve used it Log off the system and login again as a user with before ioi TR 2 administrator authority and activate the utility Unidentified Publishe
127. d data linking continues by communicating only using the transmission path on one side of either the forward or reverse loop or by switching to the communication using loopback The transmission speed in this case is 10 Mbps or 25 Mbps Loopback pacan daone noie o ue Forward loop IN UT IN R 4Ns5 1Ns4 gt Reverse loop Loopback The multiplex transmission function is effective only in reducing the link scan time when the number of connected stations is 16 or more and the link devices assigned with common parameters is 2 048 bytes or more The link scan time will be 1 1 to 1 3 times faster compared to when the multiplex transmission function is not used 12 25 12 APPLICATION FUNCTIONS MELSEC MEMO 12 26 12 26 13 ERROR CODE i Mise MELSEC 13 ERROR CODE For details of error codes displayed on the error messages of the utility refer to the following manual MELSEC Data Link Library Reference Manual For details of error codes displayed on the Error history monitor screen Section 9 2 8 of the utility refer to the following manual Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network For QnA Q4AR MELSECNET 10 Network System Reference Manual 13 1 13 1 13 ERROR CODE MELSEC MEMO 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 TROUBLESHOOTING This section explains the identification of the causes and troubleshooting when an error
128. d on Board information screen of MELSECNET H utility CRC An error has occurred by a fault such as a cable fault and noise OVER This error occurs when the next data is received before the last received data is loaded into the module and the previous data is lost It is caused by hardware failure in the receive area of the network module AB IF This error occurs when the number of receive bit data indicating 1 in the frame is more than or equal to the specified number of data or when the receive data is shorter than the specified data length TIME This error occurs when a baton pass was not handed to the host station within the monitoring time DATA This error occurs when abnormal code data is received UNDER This error occurs when the internal processing of the send data was not executed at a fixed interval LOOP This error occurs when the forward loop line or reverse loop line is faulty and the power to the adjacent station which sends data to the host station is turned off or the hardware of the sending station part in the loop is faulty Sena data OFF Not sending data iso sre data OFF Not receiving data 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC b When the RUN LED is flashing An error which is peculiar to boards has occurred Check on the Event Viewer screen and take corrective action Refer to Section 14 3 2 RUN Flashi One of the following error has o
129. d other optional board are installed and where the resources were allocated automatically by Plug and Play is used Action 1 Change the positions where the MELSECNET H board and other optional board are installed 2 In the BIOS setup exchange the IRQs between the MELSECNET H board and other optional board or change their IRQs 14 25 14 25 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 6 When External Power Supply Function does not Work Properly When the external power supply does not operate properly check the following items Item Corrective action Review the wiring of the external power supply cables Inset the Is the LED of external power supply OFF connectors and contacts until they click Refer to 6 4 4 Set the voltage between the pins of the connector cable side is within the range of the specification Section 3 2 Check the external power supply Is the voltage output to the connector of the external power supply cable If any of the corrective actions above do not help refer to Section 14 9 14 26 14 26 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 7 Troubleshooting for WDT Error Occurrence 14 7 1 Board WDT error When the board WDT error occurred check the following items Is the board installed properly Check the board installation status After formatting the HD install the operating system again Does the board operate on other personal computer Repair or replace
130. destination listed in the column at the left and the request destination source listed in the row at the bottom is possible For example the valid range between 9Ns2 of network number 9 and 1Ns2 of network number 1 is indicated by 1 communication is possible by designating a network module that is close to the request source of the same programmable controller Request source gt 9Ns2 0 1 destination 4 777777777 o Possible Possible by setting the routing parameter X Not possible Request destination source MELSEC 1 Communication is possible by designating a network module that is close to the request source of the same programmable controller 1MP1 ms o 132 Host Network No 1 etwork No 1Ns3 Host 1Ns4 Host 2MP1 Host Host Network No 2 2Ns2 Q Host 2Ns3 3MP1 Network No 3 3Ns2 3Ns3 8 1 8321 1 Host Network No 8 o olol Host 8Ns4 Host OMet oO Cv CO CI C a aol 3 CX y v Host Host Network No 9 9Ns2 x Host 9Ns3 OQ host Mp1 4Ns2 1Ns3 1Ns4 2Me4 2Ns2 2Ns3 3Mr1
131. device to install Confirm the publisher is MITSUBISHI ELECTRIC CORPORATION and click the Install button This screen may be displayed a couple of times 16 Bit Application Support You are attempting to run SETUP EXE In order to run 16 bit applications 16 bit application support must be enabled You can find more information here Diable Disable 16 bit application support to prevent 16 bit applications from running When installing Environment of MELSOFT this screen may be displayed Click the Enable button jj FAEnvMELVEnvMELENGASETUP EXE is 16 bit application You do not have permissions to execute 16 bit applications Check your permissions with your system administrator Environment of MELSOFT is a 16 bit application Execute EnvMEL EnvMELENG SETUP EXE in the CD ROM after searching 16 bit Application Support on the control panel and setting to Enable 2 Using Windows XP Windows Server 2003 R2 Screens ReadOnly Fle Detected x option you selected requires that files be installed to your system or files be uninstalled from your system or both read only file CAWINNT System32 Drivers 4Mneth2k sys was found while performing the needed file operations on your system To perform the file operation click the Yes button otherwise click No s ni Software Installation t The software you are installing has not p
132. e Wizard Please choose your search and installation options Se S Search for the best driver in these locations Use the check boxes below to limit or expand the default search which includes local paths and removable media The best driver found will be installed O Search removable media floppy CD ROM 7 Include this location in the search D Drivers x86 Don t search will choose the driver to install Choose this option to select the device driver from a lst Windows does not guarantee that the driver you choose will be the best match for your hardware End 14 9 1 The Found New Hardware Wizard screen is displayed after installing the board and starting up the personal computer Select Install from a list or specific location Advanced and click the button 2 Select Search for the best driver in these locations For 32 bit version operating system gt Check Include this location in the search and specify Drivers x86 of the CD ROM drive to be used Example DADrivers x86 For 64 bit version operating system gt Check Include this location in the search and specify Drivers x64 of the CD ROM drive to be used Example DADrivers x64 1 The operating system can be checked by Windows system information For details refer to the Microsoft Knowledge Base http support microsoft com kb 827218 As of August 2013 14 9 14 TROUBLESHOOTIN OU SHOOTIN
133. e ana Trene Connect to theInternet Appearance and Personalization Ry Change the theme Change desktop background View network status and tasks Adjust screen resolution Choose homegroup and sharing options Clock Language and Region Hardware and Sound TW oesciesters View devices and printers Programs Ka il g Uninstall a program E 2 Select Administrative Tools Control Pane Mj Action Center CORONEL Review your computer s status end resoh Change User Account Control settings Troubleshoot commen computer prob your computer to an carier time Network andere Hardware and Sound Windows Firewall Checkfirevallstatus Allow a program through Windows Firewall Programs User Accounts and Famil En EE p Allow remeteaccess See the name of this computer Device Manager Personalization Windows Update Tur automatic updating on Checkferupdotes 1 installed updates P Power Options Change when the computer sleeps Clock Language and Region Ease of Access Ma Backup and QD back up your computer Restore files from backup BitLocker Drive Encryption nputer by encrypting data on your disk Manage BitLocker Srentyourhard dive Create and format hard dsk portions l oe Hug SEES 3 Double click Services nome s of Favorites om Type BE Deskto
134. e eae 9 24 ESAMI ME 9 24 9 3 2 Setting as batch monitoring 0 0 ee eee eee eee eect cece eee ceeeeeeeseeseeeseeeeeeeseeseeeseeeseeeseeeseeeseaseaeseeeeneeeaes 9 25 9 3 3 Setting as 16 point entry monitor rennen nnns 9 26 9 3 4 Setting the monitoring destination sssssseseeneeenennennenee nennen nnns 9 27 9 3 5 Setting the device to be monitored sssssssseseeeneeeeneeneenenn ennemis 9 28 9 3 6 Changing word device values ssssssssssseseeneeeneeeenne nennen nnne nnne nnns 9 29 9 3 7 Changing word device values continuously essen 9 30 9 3 8 Tuning on off a bit device rennen rennen etre nnns 9 31 9 3 9 Switching the display etsi 9 31 9 3 10 Numeric value input pad nennen 9 32 9 3 11 Other Operatlons 5 1 oir eor DOT ARIS RID 9 33 10 MELSEC DATA LINK LIBRARY 10 1to 10 2 11 PROGRAMMING 11 1to11 6 11 1 Gautions in Programmlng nein ite teinte e e e E i eir e RE NR 11 1 11 1 1 Interlock related signals ennaa nennen nnne nnne 11 1 11 2 Cyclic Transmission iini iine iie tice eh e ER D nen B D d da V Dn E a n 11 3 11 2 1 Block guarantee of cyclic data per station sss 11 4 11 3 Link Special Relays SB Registers 11 5 12 1 Direct Access
135. e interval When System times is set Transmission processing interval in 2 Specified time 12 6 12 6 12 APPLICATION FUNCTIONS MELSEC 12 2 3 Startup 1 Sending of data for one station per link scan default The low speed cyclic data for a maximum of one station is sent in one link scan of the normal cyclic transmission Setting method 1 Click Transmit data of one station in 1 scan to select r Specification of low speed cyclic transmission Transmit data of one station in 1 scan C Fixed term cycle interval setting 600 Sec System times 0 0 11 50 ao The fastest link scan time in the low speed cyclic transmission can be calculated by the following equation LSL LS X number of stations LS LS X number of stations 1 LSL The fastest link scan time in the low speed cyclic transmission LS Normal link scan time 2 Fixed term cycle interval setting The low speed cyclic data is sent in the link cycle of the designated time frequency Valid setting frequency 1 to 65535 s 18 h 12 min and 15 s Setting method 1 Click Fixed term cycle interval setting to select 2 Setthe time in seconds the screen shows a value of 600 Specification of low speed cyclic transmission Transmit data of one station in 1 scan Fixed term cycle interval setting 600 Sec C System times 12 7 12 7
136. e package from the control panel of Windows If the dialog box confirming the deletion of common files appears at uninstallation make the setting to keep all common files If deleting common files other applications may not operate normally MELSECPowerManager may not be uninstalled depending on the installation state which affects the other installed software packages For details of MELSECPowerManager refer to Appendix 10 2 When uninstallation is completed normally When the uninstallation is completed normally the icons registered in the Windows Start menu are deleted 3 When uninstallation is failed When the installation is aborted or failed take corrective actions following the troubleshooting Refer to Section 14 2 2 TILITY OPERATION idi Z MELSEC 9 UTILITY OPERATIONS 9 1 Starting and Ending Utility The following explains the operating method to start end the utility 9 1 1 Starting a utility Start the utility by clicking the icon registered in the start of Windows 1 Start screen All apps or Start All Programs Utility to setting board and displaying MELSECNET H Utility Section 9 2 MELSEC status Utility to monitoring devices and Device Monitor Utility Section 9 3 changing the device value When a utility is run while user account control UAC is available the following warning screen appears Select Allow or YES button
137. e same operation is performed when the line being changed is double clicked Button Select the line to be deleted When this button is clicked the registered logical station No can be deleted TILITY OPERATION idi Z MELSEC 9 2 11 Driver screen operation This operation sets the combination settings between the MELSECNET H board and MELSECNET 10 board and sets the link device access method and the time for each type of monitoring E Version 41 Loop monitor Each sta status Err history monitor Memory 1 0 Test Target 1 Channel 51 MELSECNET H 1 slot Link Device ccess Method Setting Link Refresh Interval 1 Link Scan Times C Direct Access Transient Timeout Monitoring Time Setting Current Value Setting Value 15 sec sec Driver WDT Monitoring Time Use driver WDT function Set Current Value Setting Value 8 ms 8m Default Value Channel sets the channel MELSECNET H board which sets the link device access method Link Device Access Method Sets the access method to link devices LX LY LB LW Refer to 1 in this section Setting When Link Refresh is selected specify the link refresh interval Transient Timeout Monitoring Displays the current value for the transient time out monitoring time and inputs the setting Time Setting value Select Use driver WDT function to enable the function Driver WDT Monitoring Time Displa
138. ection 2 5 Driver installation and updating Do not install or update the driver other than the method written in the troubleshooting in this manual The consistency between the driver and utility cannot be identified and CC Link IE Controller Network board may not operate properly INTRODUCTION Thank you for purchasing the Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J71LP21GE Q80BD J71BR11 MELSECNET H Interface Board Before using this product please read this manual and the relevant manuals carefully and develop familiarity with the functions and performance of the Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J71LP21GE Q80BD J71BR11 MELSECNET H Interface Board to handle the product correctly CONTENTS SAEETX PRECAUTIONS 2i in d Re ten n beoe A 1 CONDITIONS OF USE FOR THE PRODUCT Trupia a E E EEEE nennen nennen enne A 5 REVISIONS 6 PRECAUTIONS FOR USE 11 iai i dia eiecit ido eda a cda eL eda ed eda eL eia si d ein n e A 10 INTRODUC TION rep A 11 CONTENT AO RANS 11 MANUAL tente cm rid ed em EDO dive Hane iii OECD GO A 16 HOW TO USE THIS MANUAL a mane NA WA ee a A eee ec eee A 17 GENERIC TERMS AND ABBREVIATIONS sssseeeeeeeeeenee eene en nnne nnne enne enn nnns A 19 MEANING AND CONTENTS OF THE TERMS ssss
139. ector F type connector TENOR Coaxial cable Terminal resistor Terminal resistor Coaxial cable A6RCON R75 A6RCON R75 sold separately T type gt A6BR10 4 T type sold separately connector 2 A6BR10 accessory x PA A6BR10 accessory Terminal resistor A6RCON R75 sold separately For details about the repeater module A6BR10 refer to the following user s manual attached to the product Model AGBR10 A6BR10 DC MELSECNET 10 Coaxial Bus System Repeater Module User s Manual IB 66499 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 3 With a repeater module branch connection Normal station Normal station Control station Station No 2 Station No 3 Station No 1 QJ71BR11 QJ71BR11 Personal computer F type connector F type connector F type connector T type connector A6BR10 accessory f Terminal resistor Coaxial cable A6BR10 Coaxial cable A6RCON R75 sold separately sold separately Normal station Normal station Station No 4 Station No n n lt 32 QJ71BR11 QJ71BR11 Terminal resistor A6RCON R75 sold separately F type connector F type connector T type connector A6BR10 accessory Coaxial cable Terminal resistor A6RCON R75 sold separately By setting stations that will be connected in future stations that are included i
140. ernal power supply Refer to 2 in this Section LED Connector for connecting external power supply cable The cable terminal assignment is as shown below With the board top facing Ll supply cable EXT PW External power CLASS2 ONLY connector rt rt 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 1 The jumper is provided for all of the Q80BD J71LP21S 25 Q81BD J71LP21 25 and the Q80BD J71LP21 25 and Q80BD J7 1LP21G of the following serial No Serial No Check the Serial field Q80BD J7 1LP21 25 The sixth digit from the left of the serial No is 7 or higher 7 Q80BD J7 1LP21G Q80BD J7 1LP21GE The sixth digit from the left of the serial No is 4 or higher The serial No of the board can be verified at the part shown in the illustration 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 1 Indicator LED Display the operating status of the MELSECNET H board status L RUN ERR O C X9 SD RD a When the RUN LED is ON or OFF The same LED display as a network module Operating normally One of the following error has occurred Board WDT error Hardware failure Board resetting The driver is not started Communication error One of the following error has occurred Confirm the error with LED status displaye
141. ers x86 of the CD ROM drive to be used Example D Drivers x86 g Search for the best driver in these locations Use the check boxes below to limit or expand the default search which includes local paths and removable media The best driver found will be installed Search removable media floppy CD ROM Include this location in the search D Drivers x86 O Don t search will choose the driver to install Choose this option to select the device driver from a list Windows does not guarantee that the driver you choose will be the best match for your hardware lt For 64 bit version operating system Check Include this location in the search and specify Drivers x64 of the CD ROM drive to be used Example D Drivers x64 1 The operating system can be checked by Windows system information For details refer to the Microsoft Knowledge Base http support microsoft com kb 827218 As of August 2013 lt Back J Nes Cancel i End If the troubleshooting above does not help refer to Section 14 9 If Block Never install unsigned driver software is selected under Control Panel System Hardware Driver Signing the driver may not be installed Select Ignore Install the software anyway and don t ask for my approval or Warn Prompt me each time to choose an action and install the driver 14 10 14 10 14 TROUBLESHOOTIN OU S
142. esaeeecesseeecesaeeesessaeeeseeteeeesaes App 27 Appendix 11 1 Q80BD J71LP21 25 Q80BD J7 1LP21G Q80BD J71LP241GE App 27 Appendix 11 2 80 711 215 25 27 Appendix 11 3 Q80BD J71BR141 a aa sintassi nas App 28 Appendix 11 4 81 711 21 25 28 MANUALS The following table lists the manuals relevant to this product You can order them as necessary Relevant Manuals Manual Name Manual Number Model Code Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network This manual explains the system configuration performance specification function handling wiring and 13JF92 troubleshooting for MELSECNET H network system Option For QnA A4AR MELSECNET 10 Network System Reference Manual 26606 This manual explains the system configuration performance specification function handling wiring and 1 3JF78 troubleshooting for MELSECNET 10 network system Option MELSEC Data Link Library Reference Manual P SH 081035ENG This manual explains the programming function specifications and sample programming of the 13JV25 MELSEC data link library Option REMARK MELSEC Data Link Library Reference Manual is stored on the CD ROM of software package with PDF file Manuals in printed form are sold separately for
143. eset the channel numbers and the parameter settings Be sure to record channel numbers and parameter settings when you have set parameters 7 PARAMETER SETTINGS MELSEC Data links can be executed even if the parameters are not set In that case the MELSECNET H board operates with the default state displayed in the Board Information screen for the channel network type network No station No control station normal station settings and group No When the network type of the control station is the MELSECNET H Extended mode the following condition occurs in a normal station with no parameters set In the case of a programmable controller LINK PARA ERROR occurs In the case of a MELSECNET H board L ERR LED lights up In such a case set parameters to the normal station 7 1 Board Information Settings This sets the channel and network type for the MELSECNET H board that is being used Perform the settings in the Board Information screen of the MNETH utility 1 Channel Select the MELSECNET H board for which settings are performed in the MNETH utility A maximum of 4 MELSECNET H boards can be installed in one personal computer The channels that are assigned to each MELSECNET H board can be checked by clicking the Channel No Confirm button in the Board List Screen 2 Network type The settings in the mode for the network system where the MELSECNET H board is connected can be changed Corresponding netw
144. et station is a board For details refer to the RECV function 12 22 12 22 12 APPLICATION FUNCTIONS MELSEC 5 The multiple network modules are installed on the target station Specify the network number and station number of the network module which is to be received request from the own station Specify 1Ns2 in the following example 2MP1 cannot be specified Own station Target station Specify 1Ns2 as the target station Network No 1 2MP1 cannot be specified L 3 4 6 When the target network is CC Link IE Controller or CC Link IE Field Network specify the transmission data within the range of 2 to 960 byte When the data larger than 960 byte is transmitted an error will be occurred on the receive side even though the transmission completed normally on the transmit side For the errors refer to the following table Network No received data error 47H CC Link IE Controller Network module error E274H Transient data improper D25DH Board CC Link IE Field No received data error 47H Transient data improper D25 2 RECV function The RECV function reads data received by the board from the other station using the mdReceive function lt RECV function overview gt Driver User application Reception buffer of driver Received data of Channel 3 Received data storage data
145. f Do Pairs is selected settings for the next station No become the same as those for the current one being displayed with its Send Range for Each Station area masked e Pairing is not available if the last station No is selected for Sta No button Registers the set contents in each station s transmission range Send Range for Each Station Displays the set data contents up to the present time in one list Select the line to change then when the button is clicked the data which are registered can Change button be changed If the line to be changed is double clicked the same operation can be performed Select the line to change then when the button is clicked the data which are set can be Delete button deleted Settings Clear Clear Button Inilializes the contents of all the B and W settings registered in the Common parameter setting screen TILITY OPERATION di Z MELSEC 2 X Y setting screen Bw setting setting Reserved station setting Supplementary setting r Channel 51 MELSECNET H 1 slot Block 1 setting es do Send Range Setting for Each Station Total Station 4 StaNo 4 Set Monitoring Send Range 2000 fM LI LY SX 1200 irr gt 1200 izrF Send A 1 0 Master Sta 2 ie like LY 1200 lt r Send Range for Each Station Send Range M L Send Range M L Uri Lxi Lyf 1000 lt gt 10FF
146. f the update program not to start automatically e Check if the display settings on the Device Manager or other relevant functions are correct and install an appropriate display driver Or update the Windows operating system e The language switching function of the operation system set by Regional and Language Options on the Control Panel screen is not supported The installation or uninstallation may not work normally if the language setting is changed e Default settings are set to the channel numbers and the parameters at the installation Therefore when a reinstallation of the software package is required record the existing settings in advance and reset the settings after the reinstallation Refer to Chapter 7 e A network drive cannot be specified as the installation destination 8 INSTALLING AND UNINSTALLING SOFTWARE PACKAGE MELSEC 8 2 Installation This section explains a procedure for installing software package 1 Installation 1 Insert the CD ROM to the CD ROM drive 2 Double click the Setup exe file on the CD ROM 3 By following the on screen instructions select or enter the necessary information When the instruction displayed on the screen is not effective refer to 14 2 3 4 Restart the personal computer 2 When installation is completed normally When the installation is completed normally the following utilities are registered a Utility When the installation is completed normally the utili
147. f there is a possibility of adding more stations to expand the existing system the cables should be installed by considering restriction 1 mentioned above in advance When using a repeater module models A6BR10 or A6BR10 DC use the station to station cable length for 10 to 33 stations regardless of the number of stations connected or the number of repeater modules b Cable installation precautions 1 2 Install the coaxial cables at least 100 mm 3 94 in away from other power cables and control cables Consider to use double shielded coaxial cables in locations where there is excessive noise Double shielded coaxial cable Mitsubishi Cable 5C 2V CCY n Ground gt 5C 2V connector plug can be applied to double shielded coaxial cable Connect the plug to the coaxial cable inside the double shielded coaxial cable Ground the shielded section external part of the double shielded coaxial cable as shown above 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC c When connecting a coaxial cable the following restrictions on the bending radius must be observed Allowable bending radius Connector Cable type r ENS in A mm in 2 2V 23 2309 91 Bos 2V 55 2 17 30 1 18 5 FB d Do not pull any of the connected coaxial cables This may cause a faul
148. f there is any error correct the connection When the cable has been disconnected replace the cable When the hardware error has occurred replace the board 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 5 2 Internal self loopback test In this section a check of the hardware including the transmission and reception lines in the transmission on the MELSECNET H board itself is conducted 1 Optical fiber cables are not connected to the Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J71LP21GE for the optical loop system However be careful that no external light enters from outside the connectors In the case of the Q80BD J71BR11 for the coaxial bus system do not connect terminal resistors to the two Type F connectors In the case of the Q80BD J71LP21 25 Q81BD J71LP21 25 In the case of the Q80BD J71BR11 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J71LP21GE for the coaxial bus system for the optical loop system o e Do not connect anything deg DIET TERTIO CC getting in 2 Setthe mode setting in the Board Information screen of the MNETH utility on Internal self loopback test 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION 3 4 MELSEC Click the Board Set button in the Board Information screen of the MNETH utility to run the Internal self loopback test checking the LED status in the Board Informat
149. ffer of the driver and all areas of 128 data are occupied In this case the received data of other channels cannot be read because the driver automatically discards subsequent data received by the board When attempting data read by executing the mdReceive function immediately after the send data completion at the sending station an error 71 0047H No reception data error occurs because the driver has not completed the RECV function and thus the receive data have not yet stored to the reception buffer of the driver Retry the operation after waiting for a while 12 24 12 APPLICATION FUNCTIONS MELSEC 12 4 Multiplex Transmission Function Optical Loop System 12 25 The multiplex transmission function allows high speed communications using duplex transmission paths both the forward and reverse loops in the optical loop system In order to execute the multiplex transmission function setting for the Supplementary settings of the common parameters is required Note that this setting is not allowed unless the total number of link stations is four stations or more 1 Using the multiplex transmission function the high speed communication is performed using both the forward and reverse loops effectively 1Ns3 IN OUT Forward loop IN OUT OUT IN OUT IN R 1Ns6 1Ns5 1Ns4 EIL 2 If an error occurs in the transmission path while the multiplex transmission function is use
150. fiber cable and can also check if the IN and OUT cables have been connected correctly The test modes are equivalent to offline The data link cannot be executed if one station is set to the test mode during data link Set the mode to Online auto reconnection when performing data link 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 5 1 Self loopback test In this section a check of the hardware including the MELSECNET H board itself the transmission and reception lines in the transmission system and the cable is conducted 1 Connect optical fiber cables to the IN and OUT connectors of the Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J7 1LP21GE In the case of the Q80BD J71BR11 for the coaxial bus system connect terminal resistors to the two Type F connectors In the case of the Q80BD J71LP21 25 Q81BD J71LP21 25 In the case of the Q80BD J7 1BR11 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J71LP21GE for the coaxial bus system for the optical loop system iT Terminal Resistors VOLL e 2 Setthe mode setting in the Board Information screen of the MNETH Utility on Self loopback test 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 3 Click the Board Set button in the Board Information screen of the MNETH 4 utility to run the self loopback
151. fiber cable to from the module make sure to power off the personal computer and external power supply 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION 2 Cable connection a How to connect the cable MELSEC Connect the IN and OUT terminals with optical fiber cables as shown below Stations do not have to be connected in the order of station numbers Any station number can be assigned as the control station Control station Station No 1 Personal computer Q80BD 71LP21 2 1 17 Power supply Normal station Station No 2 Normal station Station No n lt 64 Power supply b Installing the optical fiber cable The following shows how to install the optical fiber cable Start Installation Power off the personal computer and external power supply Insert the plug by aligning the groove of the plug with the projection of the jack Push the plug in until the plug fixing hole catches the hook of the jack Pull the plug lightly in the direction of the arrow to make sure that it is securely connected Complete Jack Projection Q80BD A J71LP21 25 c Removing the optical fiber cable The following shows how to remove the optical fiber cable Start Removal Power off the personal computer and external power supply Press the fixed sections of the plug in the directions of the arrows and pull
152. from error of the relevant module by user Bit status Module No for Module No for b15to bit to bibo 0 OFF network module network module sp1690 O jt 010 1 SD1690 requesting route requesting route T Module No 0 Invalid as CPU module EAT uses 2 slots Switching in other switching in other Module No 1 Indicates the module to system system to the right of CPU module Module No 11 Indicates the module at the right end of a 12 I O slot base Q312B Refer to SD1590 for module No for network module requesting route switching in host system App 6 App 6 APPENDIX MELSEC Appendix 2 Host Station Status at Power ON OFF When Using Q80BD J71LP21S 25 When using the Q80BD J71LP21S 25 the host station status varies depending on the ON OFF status of the external power supply and personal computer as shown below 1 When the system is started Host station status External PC No Status OWer icati p Communication Data link 3 1 supply power Loop status status Loopback Abnormal External power supply OFF before ON Disconnected Not executed ET External power supply ON before PC EA al tart ON startup power Normal Abnormal N texec ted PC startup power ON before Disconnected MELSECNET H driver startup communication When the personal computer is started External Host station status Status power 1 Communication power Loo
153. ftware version 26C or later When using the following operating system install SW1DNC MNETH B version 25B 1 Operating systems which are not supported by version 26C or later The following operating systems are not supported e Windows 95 e Windows 98 e Windows 9 NT e Windows 2000 2 Installation method for supported version Install SW1DNC MNETH B with the software version 25B by double clicking Setup exe stored in the following folder on the CD ROM of software package CD ROM drive Win9x NT 2k 3 Manual For the function and handling method for SW1DNC MNETH B with the software version 25B refer to the manual SH 080128ENG Y of the product The manual is stored in the following folder on the CD ROM of software package CD ROM drive Win9x NT 2kManual App 13 App 13 APPENDIX MELSEC Appendix 8 Warning Message Appears on Windows Appendix 8 1 Overview of warning message When an operating system with the user account control function is used a warning message appears when you run the MELSECNET H utility or the Device monitor utility Refer to Section 9 1 3 r User Account Control Ea 5 User Account Control EJ 4 An unidentified program wants access to your computer O Do you want to allow the following program from an 7 unknown publisher to make changes to this computer Don t run the program unless you know where it s from or you ve used it before Cal NETHUTL e
154. g may cause malfunction e Verify the pin assignment and fully insert the crimped contacting pin into the connector Imperfect insertion may cause failure or malfunction e Insert the wired external power supply cable into the external power supply cable connector until a click is heard Imperfect insertion may cause failure or malfunction e Keep the external power supply cable away from the main circuit cable power cables and or load cables connected to other than programmable controllers Ensure a distance of 100mm between them Failure to do so may result in malfunction due to noise surge or induction 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION 6 4 1 Optical loop system MELSEC The precautions for connecting the optical fiber cable with Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J71LP21GE in an optical loop system are given below 1 Precautions for connecting a The types of optical fiber cables that can be used vary depending on the distance between stations Distance between stations m Type SI type optical fiber cable Old type 2 Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21G Q80BD J71LP21GE Q80BD J71LP21S 25 10Mbps fixed 10Mbps fixed 500 1640 5 ft 200 656 2 ft 300 984 3 ft 100 328 1 ft SI optical fiber cable 500 1640 5 ft 200 656 2 ft AR allowe H PCF optical fiber cable 1000 3281
155. g data link Baton pass normal including reserved Baton pass abnormal including reserved stations during online stations during offline and stations having test and stations having numbers higher than the numbers higher than the maximum station number maximum station number Executing data link including reserved stations and stations having numbers higher than the maximum station number Station not executing data link 11 2 11 PROGRAMMING MELSEC 11 2 Cyclic Transmission 11 3 The link scan of the MELSECNET H and the programmable controller of the user program operate asynchronously Depending on the timing of the user program execution link data with data types of more than 32 bits two words such as the ones below may be broken up into new and old data which may coexist in 16 bit one word units Floating point data Current values of positioning module command speed The MELSECNET H provides the following functions for making handling of the link data easy 32 bit data guarantee Refer to Q corresponding MELSECNET H network system reference manual PLC to PLC network for details Block guarantee of cyclic data per station Refer to Section 11 2 1 Block guarantee of cyclic data per station for details 11 3 11 PROGRAMMIN MELSEC 11 2 1 Block guarantee of cyclic data per station By enabling the parameter settings shown below handshaking for the cyclic data is
156. h network number and station number Logical Sta No Set the logical station number 1 In case of accessing to the multiple CPU select other station and enter to the network No and value of logical station number which set in the MNETH utility to the station number 2 When own station is selected in the network setting network No 0 and station No 255 are displayed as the network status 9 UTILITY OPERATIONS MELSEC 9 3 5 Setting the device to be monitored Set the device to be monitored 1 Selecting the menu Select Setting Device setting from the menu bar 2 Dialog box For batch monitoring For 16 point entry monitor xi xi p Device Type Device Type ER extension file register X z PANE Network No po L DeviceNo r DeviceNa 000 F C HEX amp DEC C OCT p i IS 1 Register Device List MENU m esq ort device hange ae Cancel Set a type of devices to be monitored Enter a block number for ER Enter a network number for LX LY LB LW LSB and LSW Enter a value of start I O number divided by 16 in decimal for SPG Device No Set the head number of the device to be monitored HEX Hexadecimal DEC Decimal OCT Octal Register Device List Displays a list of the devices entered button Enters the item set in Device type and Device number then adds it to List of devices entered e
157. hannel numbers and parameter settings that were used Chapter 7 PARAMETER SETTINGS before the replacement Section 9 22 Board list screen operation i Power OFF Power OFF the personal computer l Uninstall the board Remove the target board from the personal computer i Install the board Install the target board to a slot of the personal computer Fix the board Fix the board to a slot on the personal computer using the board fixing screws l Wire the external power supply cables For the board with external power supply function wire the external Section 6 4 4 External power supply power supply cables cable wiring Power ON the personal computer Set the Channel No Set the channel No recorded before the replacement e e Section 6 3 4 Channel No Settings Check the board Test the hardware of the installed board Section 6 5 Test Wire the cables Wire the network cables for the installed board e e Section 6 4 Wiring 8 8 APPENDIX MELSEC Set the parameters Set the parameters recorded before the replacement e Chapter 7 PARAMETER SETTINGS Check the network Test the cable connection and data link on the network e Section 6 5 Test Execute a user program Execute a user program or utility 2 Precautions When a MELSECNET H board is replaced channel numbers are automatically re assigned For details on the channel number to be ass
158. has not assigned channel numbers e Channel numbers will be assigned in a PCI slot number order When using a MELSECNET H board that has assigned channel numbers e Previously used channel numbers will be assigned e f previously used channel numbers are used already unused channel numbers will be assigned As the utility software stores channel numbers corresponding to a MELSECNET H board if the utility software is reinstalled the board will be the status that any channel numbers are not assigned 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 4 Wiring This section explains precautions when connecting cables to MELSECNET H board 1 Precautions on general wiring NWARNING e Be sure to shut off all phases of the external power supply used by the system before performing work such as installing the board and wiring If all power is not turned off there is a risk of electric shock or damage to the product e When turning on the power and operating the module after having installed the board and doing the wiring always attach the cover for the device module in which the board is installed There is a risk of electric shock if the module cover is not attached NCAUTION e When removing the cable from the board do not pull the cable Pulling the cable that is still connected to the board may cause damage to the board or cable or malfunction due to bad cable contacts e Prevent foreign matter such as
159. he CPU module The link refresh is executed by the END processing of the CPU module Sequencescan 0 END Ho END Ho END Ho END Link refresh Link refresh Link refresh Link scan 3 Link data when a communication error station or communication stop station occurs on the network When a communication error or communication stop station occur on the network during the data link the receive data from those stations immediately before the error occurrence is retained A communication stop station refers to a station whose cyclic transmission has been stopped by a peripheral device a The receive data from a communication error station or communication stop station is retained by a normally communicating station b Thereceive data from other station is retained by a communication stop station Example When a communication error has occurred to 1Ns2 due to cable disconnection Communication Cable disconnection error station 1Ns3 Cable disconnection d Link data status after disconnection 4 FUNCTION MELSEC 4 SB SW when a communication error station communication stop station occurs on the network The status of whether there are any communication error communication stop stations on the network can be checked with the link special relay register SB SW Use them as interlocks for programs For interlock program examples refer to the following manual Q Corresponding MELSECNET H Ne
160. he installation in the control board ensures safety as well as effective shielding of personal computer emitted electromagnetic noise 1 Control panel a b c d e Use a conductive control panel Mask off the area used for grounding when securing the top or bottom plate to the control panel using bolts To ensure electrical contact between the inner plate and the control panel mask off the bolt installation areas of an inner plate so that conductivity can be ensured in the largest possible 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 If the diameter is larger than 10cm electromagnetic wave may be emitted 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 by Mitsubishi were conducted using a control panel having the damping characteristics of 37dB maximum and 30dB average measured at 3m distance 30 to 300MHZ 2 Wiring power and ground cables The power supply cable and ground cable for a personal computer should be laid out as follows b Provide a ground point to the control panel near the power supply module Ground the LG and FG terminals of the power supply
161. he link device access method and each monitoring time Section 9 2 11 Displays the utility version po Device Monitor button Starts device monitor utility Exit button Ends the MNETH utility t Manual button Displays this manual du The common screens configuration for other setting are as shown below MELSECNET H Channel No Setting MELSECHET H Channel No Setting E Supplenena seting Channel No al Staion m e GE si s wpa woo Value lend Range Setting for Each TI 1 Adobe Reader is required Adobe Reader can be downloaded from the Adobe Systems Incorporated web site 9 4 9 4 TILITY OPERATION ii Z MELSEC 9 2 2 Board list screen operation This operation displays the hardware information and confirms and sets the channel No set in the MELSECNET H board 1 Board List Screen Board information Loop monitor Each sta status Err history monitor Memory 1 0 Test Target 4 gt r Board List Channel No Board Name IRQ No Port Memory 140 Port Version ip p re e p e perpe por precem reme Channel No Confirm Channel No Setting Channel No Displays the MELSEC
162. how details v Detail J Fonts W Detais 13 tems User Account Control helps stop unauthorized changes to your computer Chinge when these notifications appese E E Eile Action View Help es 0X B Security Settings Name Description Account Policies Local Policies Windows Firewall with Advanced Sec gt Public Key Policies Software Restriction Policies amp IP Security Policies on Local Compute 5 Select Local Policies Account Policies Password and account lockout policies Windows Firewall with Adv Windows Firewall with Advanced Security F Public Key Policies Software Restriction Policies SP Security Policies on Local Internet Protocol Security IPsec Administratio cores icy cun File Action View Help 6 Select Security Options B Security Settings Name Description Audit Policy Audit Policy 4 li with Advanced Sec CAUStRights Assignment User Rights Assignment 1 Windows Firewall with Advanced Security Options gt Public Key Policies Software Restriction Policies b amp IP Security Policies on Local Compute 19 19 APPENDIX Ele Action View LI JE Account Policies 4 T Local Policies Audit Policy
163. if the IN and OUT cables have been connected correctly The forward loop reverse loop test can be used only when the Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G or Q80BD J71LP21GE is used as the control station If it is a normal station carry out the test from the control station of the network where the normal station is connected This section explains concerning the MELSECNET H board Refer to the following manuals concerning network module settings Q corresponding MELSECNET H Network System Reference Manual PLC to PLC network QnA Q4AR Corresponding MELSECNET 10 Network System Reference Manual 1 Test mode settings If you are performing the forward loop test set the station executing the forward loop test on Forward loop test in the mode settings in the Board Information screen of the MNETH utility Also for stations other than the station where the test is being run treat them as Online If you are performing the reverse loop test set the station executing the forward loop test on Reverse loop test in the mode settings in the Board Information screen of the MNETH utility Start of the test Set the mode setting on Forward loop test Reverse loop test or Online then click the Board Set button This operation is performed in the order of control station normal station 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION 3 MELSEC Checking the te
164. ification of low speed cyclic transmission Maximum 2 n Transmit data of one station in 1 scan system stations in 1 scan Station Fixed term cycle interval setting with multiplex transmission System times There is a data link through the sub controlling station when the Year Month Day Hour Min Sec controlling station is down 1 Secured data send i Secured data receive l Transient setting p I L Maximum no of transients 5 in 1 scan Times Maximum no of transients 2 in one station Times B Channel Selects the channel MELSECNET H board performing the settings Sets a constant link scan Setting range 1 to 500 ms If it is not run do not Constant scan E input anything Maximum No of returns to system stations Sets the number of stations with transmission errors that can undergo 1 scan return to system in 1 link scan With multiplex transmission Set when running the multiplex transmission function There is a data link th hth b controlli idi d gt iHd Pd Set when executing the control station move function station when the controlling station is down Secured data send Set when preventing data separation of link data in station units in cyclic Secured data receive transmissions 1 Sets the number of transients that can be executed in one link scan by one network total for 1 network
165. igned refer to Section 6 3 4 As parameter settings Refer to Chapter 7 correspond to channel numbers the replaced board works with the parameter settings shown below e When un used channel numbers are newly assigned Works with the default status e When channel numbers that were used are assigned Works with the parameter settings corresponding to the channel numbers When replacing a MELSECNET H board check the parameter settings with the Board information setting screen App 9 App 9 APPENDIX MELSEC Appendix 4 Combinations of Boards with Existing Software There is no restriction when using MELSECNET H board with other MELSEC interface boards or MELSOFT products on the same personal computer For the restrictions of the applicable operating environment and applicable access target refer to the manual of each product App 10 App 10 APPENDIX MELSEC Appendix 5 Checking Serial Number and Function Version This section explains how to check serial number the function version and ROM version of the MELSECNET H board and the SWODNC MNETH B version 1 Checking serial number function version and ROM version of the MELSECNET H board a Checking serial number and function version The function version of the MELSECNET H board can be checked at Serial section as shown below k k k k k k k k k D Serial No Function version b Checking ROM version The RO
166. ing The reserved station designation function is used to prevent stations to be connected in future stations that are not actually connected but included in the total number of slave stations of a network from being treated as faulty stations The reserved stations do not affect the link scan time they do not slow down the network even if used as reserved stations Specify the reserved station with the Common parameter setting screen of the MNETH utility 7 3 6 Pairing Setting In the pairing setting station numbers of network modules composing a redundant CPU system can be set as pairs Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network 7 PARAMETER SETTINGS MELSEC 7 4 Supplementary Setting The supplementary settings are included in the common parameter settings They can be used when more specific applications are required The default settings should normally be used The supplementary settings common parameter settings are required only for the control station The parameters are sent from the control station to normal stations when the network starts up Perform the supplementary settings with the Common parameter setting screen of the MNETH utility 7 PARAMETER SETTINGS MELSEC 7 5 Control Station Return Setting This parameter is used to designate the type of station used by the control station when returning to the network in the control station return control Select
167. intenance User Accounts Add or remove user accounts Check this computer s security status Allow a program through Windows Ease of Access Play CDs or other media automatically N Let Windows suggest settings Appearance and j Personalization Change desktop background Customize colors Adjust screen resolution Ji Clock Language and LY Region Change keyboards or other input methods Optimize visual display Additional Options lt Ill i Control Panel Home Classic View 7 G Add Administrativ AutoPlay ackupand Color Deteand Default Hardware eTools Restore C Management Time Programs Device Folder Manager Options 2 Game Indexing Internet Controllers Options Options iSCSlIitiator Keyboard Mouse Offline Files Penand People Near Performance Personali Phoneand Power Modem Options al and Scanners and Language Cameras 4 L TabletPC Taskbar and Settings Start Menu Hj g Windows Windows Windows Defender Firewall Mobilit Input Devices Me Informatio Ey d amp Printers Problem Programs Network and Reports Features Sharing Ce a Speech Sync Center System Recogniti 5 8 Welcome Windows Windows Center CardSpace Exp Eu Windows Windows Windows Sidebar SideShow Update
168. ion screen to confirm the execution state T PASS blinks during the test If T PASS blinks 20 times and ERROR LED does not blink the test is completed normally Also if the test ends abnormally the ERROR LED will blink as shown below to indicate the relevant error information a Optical Loop System Q80BD J71LP21 25 Q81BD J7 1LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J71LP21GE 1 The CRC OVER AB IF TIME DATA and UNDER LEDs light up Hardware error b Coaxial Bus System Q80BD J71BR1 1 2 The CRC OVER AB IF TIME DATA and UNDER LEDs light up Hardware error Corrective action when the test completes abnormally Replace the MELSECNET H board If an error occurs in the coaxial bus system the M S E LED or PRM E LED may light up besides the OVER AB IF TIME DATA and UNDER LEDs lighting up When requesting repairs of the MELSECNET H board be sure to inform the service technician of the LED lighting state 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 5 3 H W test This test checks the internal hardware on the MELSECNET H board 1 Connect the optical fiber cables to the IN and OUT sides of the Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G and Q80BD J71LP21GE for the optical loop system In the case of the Q80BD J71BR11 for the coaxial bus system do not connect a Type F connector or any terminal resistors
169. ional 14 25 14 6 When External Power Supply Function does not Work 14 26 14 7 Troubleshooting for WDT Error Occurrence ssesssesseeeeeeeeennen nennen nennen 14 27 14 7 1 Board WDTEettOr iei enean tenerte t mtem nd etwa oo aot 14 27 14 7 2 Driver WDT errori nct net te eei e tette ore Pa OU ERN eee re ERE Le Yu TER TREE re dua A 14 27 14 8 Troubleshooting for Slow PC Operation sse nennen 14 28 14 9 Information Needed when Calling with Inquiry sseseennennenn 14 29 Appendix 1 Cautions for Accessing Redundant CPU System App 1 Appendix 2 Host Station Status at Power ON OFF When Using Q80BD J71LP218 25 App 7 Appendix Procedures for Replacing Boards cccscceeecceeeeeeeeeeeceeeeeeeeeesaceeeneeseaeeseaeeseaeeesieeeeeaeeaes App 8 Appendix 4 Combinations of Boards with Existing Software sssssssssssssseeene App 10 Appendix 5 Checking Serial Number and Function Version sssssssssssseeeeeeenes App 11 Appendix 6 New and Improved Functions sess App 12 Appendix 6 1 Change of hardware function sse enne App 12 Appendix 6 2 Update of software package ssssssssssssssseseeeeeee nere App 12 A
170. ise filter is effective for reducing conducted noise in the 10MHz or less frequency Use of a noise filter can suppress noise The installation precautions are described below 1 Do not bundle the cables on the input side and output side of the noise filter If bundled the output side noise will be induced into the filtered cable on the input side Input side Input side power supply side power supply side Induction Filter Filter Output side device side Output side device side Noise will be induced when the input Separately install the input and and output cables are bundled output cables 5 5 5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC 2 Ground the ground terminal of the noise filter to the ground point of the control panel with the shortest ground wire possible approximately 10cm 5 2 Requirements for Conformance to Low Voltage Directive The MELSECNET H board is out of the requirement for conformance to the Low Voltage Directive since it does not use the power supply in the range of 50 to 1000V AC and 75 to 1500V DC 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION This section explains the operating procedure up to the point the MELSECNET H board is operated 6 1 Procedure Up to the Point of Operation An outline of the procedure up to the point of MELSECNET H board operation is
171. ist type the number of boards and so on Situation checked with disconnecting other option boards Failure content a Failure description details Example The LINK LED does not turn on even though the computer is turned on b Occurrence frequency c Occurrence condition If the failure occurs only in the specific case inform the occurrence condition noticed c Troubleshooting result Inform the following descriptions The result of troubleshooting performed The situation when checking with other boards or computers Example Event ID 295 The Board WDT error had occurred error is displayed on the event viewer when the personal computer is started It also occurs when mounting the problem board with another computer Other boards mounted with the computer works properly 14 29 14 TROUBLESHOOTING MELSEC MEMO 14 30 APPENDIX MELSEC APPENDIX Appendix 1 Cautions for Accessing Redundant CPU System This section explains the cautions for accessing a Redundant CPU system using the MELSECNET H board Access to Redundant CPU system 1 Redundant CPU specify When the system control system standby system System A System B of the Redundant CPU is specified to access the Redundant CPU the Logical Sta No set on the target screen of the MELSECNET H utility is used for access Refer to Section 9 2 10 for the setting of the Logical Sta No Board information Loop monitor Each sta statu
172. it version Operating System Microsoft Windows 7 Ultimate 32 bit version 64 bit version Operating System Microsoft Windows 7 Enterprise 32 bit version 64 bit version Operating System Microsoft Windows Server 2012 R2 Standard Operating System Microsoft Windows 8 32 bit version 64 bit version Operating System Microsoft Windows 8 Pro 32 bit version 64 bit version Operating System Microsoft Windows 8 Enterprise 32 bit version 64 bit version Operating System Display Resolution 800 x 600 dot or higher Recommended 1024 x 768 dot Available hard disk space 1GB or more CD ROM disk drive PCI Express Bus specifications Operating system English version dii 2 SYSTEM CONFIGURATION MELSEC Microsoft Visual Basic 5 0 Microsoft Visual Basic 6 0 Microsoft Visual Basic NET 2003 Microsoft Visual Studio 2005 Visual Basic Microsoft Visual Studio 2008 Visual Basic Microsoft Visual Studio 2010 Visual Basic Programming language 2 Microsoft Visual Studio 2012 Visual Basic English version Microsoft Visual 5 0 Microsoft Visual 6 0 Microsoft Visual NET 2003 Microsoft Visual Studio 2005 Visual Microsoft Visual Studio 2008 Visual Microsoft Visual Studio 2010 Visual Microsoft Visual Studio 2012 Visual 1 Windows XP 64 bit version and Windows Vista 64 bit version are not supported 2 For a combination of the
173. ite to devices and user programs can be created easily 1 OVERVIEW 9 Control station Station No 1 MELSEC External power supply allows continuous network communication even during power off of personal computer Function of the Q80BD J71LP21S 25 Since power is supplied externally the Q8OBD J71LP21S 25 can continue network communication baton passing even if a personal computer is powered off and data link cannot be performed Therefore a normally operating station connected between other stations with power off computers will not be disconnected from the data link Another advantage is that the link scan time is stabilized since loopback can be also prevented Normal station Normal station Station No 2 Station No 3 Personal External power supply Personal Normal station Station No 6 Data link continued Normal station Station No 4 Personal computer CPU LP21 25 Normal station Station No 5 External power supply When station No 3 and No 5 use MELSECNET H boards without the external power supply function and if their personal computers are powered off station No 4 is cut off from the network as well as No 3 and No 5 Personal computer Station No 1 Station No 2 CX Station No 3 Station No 6 ey Station No 5 Station No 4 Disconnected Personal computer 2 SYSTEM CONFIGURATION 2 SYSTEM CONFIGURATION 2 1 MELSECNET H Bo
174. iver WDT error Refer to Section 14 7 2 295 1274 The Board WDT error had occurred driver side 296 1284 The CLOCK STOP error had occurred Replace the MELSECNET H board 297 1294 The Target Abort error had occurred on the PCI bus 304 1304 The Data Parity error had occurred on the PCI bus Entering sleep mode or hibernation mode or fast startup is detected 305 1314 The board is not operated normally because the sleep mode hibernation mode and fast startup is not supported by the board 33027 8103s The driver is not yet started or an error occurred while Correct the cause of the driver error then restart opening the driver the PC An error occurred while resetting the MELSECNET H board One of the following two conditions is suspected as the cause 1 The common memory area used by the MELSECNET H board may be in contention with other device 2 No response was received from the MELSECNET H board 1 If an event error occurs in event viewer make the following setup setting on the PC Limited to the PC includes those setup setting items Change the power option not to enter the sleep mode hibernation mode or disable the fast startup function and restart the personal computer 1 Check for overlapping setting with other optional board 2 Perform memory and I O diagnosis using the MNETH utility If the error persists replace the MELSECNET H board 33029 81054 Example BIOS Setup
175. iving station 5 The BO information in the link data storage area LB is stored in the refresh data storage area LB 6 Byalink refresh the BO information is stored in the device memory storage area B of the CPU module 7 BO on the receiving station turns on 7 Sending station Personal computer Receiving station Programmable controller Personal computer MELSECNET H board Network module QCPU i i 1 1 BO turns i 4 ON Link scan i i i i i MELSECNET H 2 Refresh data Link data 4 i Link data Refresh data Device driver buffer storage area storage area 1 1 storage area storage area memory Writing 2 3 0 3 i 3 storage area Sequence scan i User program Link refresh Link refresh 4 1 The link refresh interval is set on the Driver screen in the MNETH Utility 2 Set by the GX Developer s Station Inherent Parameters If not set they are stored in the common parameters state 3 If the MELSECNET H board is a control station it is set in the Common Parameter Setting screen in the MNETH Utility If the network module is a control station it is set in the GX Developer s Common Parameters 4 Set the GX Developer s Network Refresh Parameters 4 FUNCTION MELSEC 2 Link scan and link refresh The link scan is executed asynchronous with the sequence scan of t
176. lic 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 REVISIONS The manual number is given on the bottom left of the back cover Print Date Manual Number Nov 2000 SH NA 080128 A First printing Mar 2001 SH Jun 2001 SH J an 2002 SH 1 3 Dec 2002 SH May 2004 SH NA 080128 B NA 080128 C NA 080128
177. llers Ensure a distance of 100mm 3 94 in between them Failure to do so may result in malfunction due to noise surge or induction e Always ground the personal computer Failure to do so may cause malfunction Startup Maintenance Instructions N WARNING e Do not attach or remove the communication cable while the power supply is on This may result in malfunctioning e Tighten the board fixing screws after turning off the power supply There is a risk of electric shock if the screws are tightened while power is on N CAUTION e Thoroughly read the operating manual and carefully check to make sure everything is safe before performing operations such as making changes to the program while the module is operating forced outputs RUN STOP and PAUSE Operation errors will result in damage to the equipment or accidents e Do not dismantle or rebuild the board This will result in breakdowns malfunctioning injury or fire e Be sure to shut off all phases of the external power supply used by the system before installing or removing the board If all power is not turned off this will result in failure of the board or malfunctioning e The board internal microprocessor reaches very high temperatures when it is running Do not touch it directly when replacing the board This will result in breakdowns malfunctioning or injury e Always make sure to touch the grounded metal to discharge the electricity charged in the body etc bef
178. n network number 3 must be set for the request source The route for reaching the request destination network number 3 must be set for relay station 1 The route for reaching the request source network number 1 must be set for relay station 2 al all exe Relay station 1 Relay station 2 Network No 1 E mo Network No 2 E C Network No 3 d Multiple network system four networks Set the routing parameters for the request source station and the relay stations The route for reaching the request destination network number 4 must be set for the request source station The route for reaching the request destination network number 4 must be set for relay station 1 the relay station that is closest to the request source The route for reaching the request source network number 1 must be set for relay station 2 the relay station that is closest to the request destination The routes for reaching the request destination network 4 and the request source network number 1 must be set for relay station 3 relay station other than 1 and 2 Request source Relay station 3 Relay station 2 Relay station 1 Network No 1 2 I Network No 3 J m Network No 4 1 Request destination Request destination
179. n the number of stations but not actually connected as reserved stations a communication error can be prevented and the link scan time will not be affected The two connectors of the F type connector are not dedicated to IN and OUT A coaxial cable can be connected to either of them A terminal resistor can be placed on either side of the F type connector 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC b Installing the coaxial cable The following shows how to install the coaxial cable Start Installation Power off the personal computer Plug Insert the plug by aligning the groove of the plug with the projection of the jack Q80BD J71BR11 Projection Groove Rotate the plug in the direction of the arrow clockwise securely to the position shown in the second figure from above Complete Removing the coaxial cable The following shows how to remove the coaxial cable Start Removal y Power off the personal computer v Rotate the plug in the direction of the arrow and unhook it Hold the plug by hand and pull it out in the direction of the arrow as shown in the bottom diagram Complete Q80BD J71BR11 d Terminal reisistor Coaxial bus system needs the terminal resistor at the both ends of the network The user need to arrange the terminal resistor AGRCON R75 as it is not included in Q80BD J71BR11 6 PROCED
180. n 8 Relay station Network No 9 Network No QCPU 9Ns3 QCPU 9Mr1 8Ns2 12 Request destination 11 Relay station 10 Request source a Setting example The routing parameter must be set for request source 10 10 Request source 11 Relay station 12 Request destination ETE oe No Transfer to network Intermediate Intermediate network No station No 10 Requestsource 1 w j a 12 19 12 19 12 APPLICATION FUNCTIONS MELSEC b Setting example B The routing parameters must be set for the request source1 relay station 2 relay station 3 relay station 4 relay station 5 relay station 6 relay station 7 and relay station 8 In addition there are two types of routing parameter settings one is used when sending data from the request source to the request destination when sending a request and the other is used when returning from the request destination to the request source when sending a response Either one of them or both must be set for each station 1 Request source 2 Relay station 3 Relay station 4 Relay station 7 Relay station 6 Relay station 5 Relay station 8 Relay station 9 Request destination 7Ns2 8MP1 Transfer to network Intermediate Intermediate 1 Request source No network No station No Used when sending a reques al a ion Used when sendi
181. n of low speed cyclic transmission on Supplementary setting Refer to Section 12 3 1 The following lists the setting options Setting item Transmit data of one station Low speed cyclic data of max one station are sent during in 1 link scan one link scan of normal cyclic transmission Fixed term cycle interval Low speed cyclic data are sent at a specified time setting interval 1 System times Low speed cyclic data are sent at a specified time 1 1 Maximum no of stations capable of sending data during 1 link scan of normal cyclic transmission varies depending on the Maximum no of transients in 1 scan setting Refer to Section 12 3 1 for the Maximum no of transients in 1 scan setting 12 APPLICATION FUNCTIONS MELSEC 2 Transmission processing interval The following system configuration example is used for subsequent explanations Mp1 Ns2 Ns3 Ns4 control normal normal normal station station station station E a When Transmit data of one station in 1 link scan Fixed term cycle interval setting Maximum no of transients 1 and System times Maximum no of transients 1 are set F 2 Low speed cyclic transmission Low speed data Z Low speed data gt 2 Low speed data Low speed data N s S 9 Me1 sending 2 LW o a s E 1 9 Ns2 sending 2
182. nafter 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 three years 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 42 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
183. nd 960 byte for the configuration which is including MELSECNET 10 differs depending on the network system configuration the data will be missed at transmission via MELSECNET 10 9 9 9 9 TILITY OPERATION ii Z MELSEC 9 2 5 Common parameter setting screen operation This operation sets the common parameters necessary for establishing data links Display is possible only when the MELSECNET H board is in the control station 1 B W setting screen Bw setting XY setting Reserved station setting Supplementary setting r Channel 51 15 1 slot Data Setting r Send Range Setting for E ach Station Total Station 4 Es fi Pairing No Pairs zi Low Speed Monitoring 5 Send Range for LB 0000 o OFF LB 2000 OFF Timefmsl Each Station Lw 0000 oor pw 2000 arr Send Range for Each Station Stano tw Low Speed LB Low Speed Lw m 0000 lt gt 00 0000 gt 00FF 2000 20FF 2000 20FF Change 0100 01FF O100 O1FF 2100 lt gt 21 _ 2100 lt gt 21 3 010 lt gt 01 0100 gt 01 2100 gt 21 2100 lt gt 21 Delete 0200 gt 02 200 2FF 2200 22FF 2200 lt gt 22FF Setting Clear Input the total number of stations including the control station in the network that the MELSECNET H board is the control station for Set whether pairing is enabled or not e I
184. nformation screen Is T PASS LED of YES Baton passing of current station normal current station lit END Current station normal Select Each station status screen nix Can data link be achieved for the entire system Refer to Section 14 4 4 Flowchart to use when unable to achieve data link for entire system Can data link be achieved for a specific station Refer to Section 14 4 5 Flowchart to use when unable to achieve data link for for specific station END Refer to the following when the T PASS LED lights up and goes out randomly Cause The line may have been in an unstable condition Action 1 Check the connector for disconnection and the cable for breakage 2 Verify that the specified cable is used 3 Check that the overall extension cable length and station to station distance is within the specified range 14 15 14 15 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 4 1 Flowchart to use when RUN LED is unlit An error occurs Did the LED turn off even when communication with other station was being performed NO The RUN LED has been off since the power was turned on 4 Is there a WDT 288 error log remaining YES Lengthen the driver WDT monitoring time Refer to Section 14 7 Complete Did the RUN LED turn on after replacing the MELSECNET H board
185. ng a reques Used when sending a request Used when sending a response 2 Relay sta 3 Relay station I Used when sending a reques 3 Used when sending a response 4 Relay station Se Used when sending a reques Used when sending a response Used when sending a request Used when sending a response 5 Relay station 6 Relay station I Used when sending a request Used when sending a response 7 Relay station Sa ion Ii Used when sending a response 8 Relay sta 12 20 12 20 12 APPLICATION FUNCTIONS MELSEC 12 3 3 Group function The group function is used to group the target stations of a transient transmission and send data to all of the stations in a group with a single instruction One network may have a maximum of 32 groups By setting a group designation to the target station number in the control data of a dedicated instruction stations with the matching group number retrieve the transient data Note that whether or not the transient transmission is normally completed cannot be verified because the data are transmitted to multiple stations 1 Visual representation of the function The following figure shows an example of grouping When a transient transmission is executed by designating group No 1 all of the three stations 1Ns3 1Ns5 and 1Ns6 retrieve the transient data Group No 1 1MP1 1Ns2 Group N
186. ng example shows send range for each station LB LW settings when each of 512 points is assigned to station numbers 1 to 8 1 Setting example 1MP1 1Ns2 1Ns3 1Ns4 C Network No 1 E 1Ns8 1Ns7 1Ns6 1Ns5 Send range for each station 1 1 1 52 1Ns3 1Ns8 Host s send range D Host s 1 52 A send range un Host s 1Ns3 1Ns3 send range 1Ns4 1Ns4 1Ns4 1Ns5 15 1Ns5 1 56 1Ns6 1Ns6 1 7 an7 1N7 1Ns8 iin c Ras Host s send range 1Ns8 1Ns8 7 PARAMETER SETTIN MELSEC 2 Screen settings Common parameter setting screen Perform the setting of each station s transmission range LB LW settings in the Common parameter setting screen in the MNETH utility Bw setting XY setting Reserved station setting Supplementary setting r Channel BI MELSECNET H 1 slot v Data Setting m Send Range Setting for Each Station Total Station Sta No 8 Pairing Pairs ow Spee Monitoring 2000 Send Range for LB 000 JOFFF LB Timelms Each Station pw oEon OFFF LW IL UL Send Range for Each Station B jw Low Speed LB Low Speed DW T 0000 gt 01 0000 lt gt 01 2 200
187. nized normally y Device Manager File Action View e HB ss a i Computer ey Disk drives Display adapters 3 24 DVD CD ROM drives Floppy disk drives cH Floppy drive controllers 4 IDE ATA ATAPI controllers IEEE 1394 Bus host controllers 4 Jungo Keyboards 2 1 MELSECNET H Device J PCI MELSECNET H Controller g Status after the installation of a f Mice and other pointing devices the MELSECNET H board Monitors Do not uninstall or disable the driver of the board on the Device Manager when the board is normally recognized If it is uninstalled or disabled the operating system may shut down blue screen 14 14 14 14 14 TROUBLESHOOTIN OU SHOOTING MELSEC 14 4 Flowchart to Use when Data Link is not Achieved The following describes a flowchart that must be checked when no data link is achieved after the MELSECNET H board and Control station as well as normal stations were connected START y Check the MELSECNET H board LED Is the RUN YES LED unlit i NO Refer to Section 14 4 1 Flowchart to use when RUN LED is unlit Does the SD RD LED YES remain unlit Y NO Refer to Section 14 4 2 Flowchart to use when SD RD LED does not turn on YES Is the L ERR LED lit Refer to Section 14 4 3 Flowchart to use when L ERR LED turns on Start the MNETH utility and select 8Board I
188. not bunch the control wires or communication cables with the main circuit or power wires or install them close to each other They should be installed 100 mm 3 94 inch or more from each other Not doing so could result in noise that would cause malfunctioning Installation Instructions N CAUTION e Use the board in an environment as described in the general specifications listed in this operating manual If the board is used in an environment outside the ranges described in the general specifications it may result in an electric shock fire malfunctioning damage to or deterioration of the product e Be sure to shut off all phases of the external power supply used by the system before installing or removing the board If all power is not turned off this will result in failure of the board or malfunctioning e Install the board to a personal computer which is compliant with PCI standard or PCI Express standard Refer to Section 2 5 Operating Environment Failure to do so may cause a failure or malfunction e Securely mount the board to the PCI slot of the mounting device If the board is not mounted correctly this may lead to malfunctioning failure or cause the board to fall e Insert the communication cable securely into the board connector After it has been inserted check to make sure that it is not being lifted up A faulty connection can lead to faulty input or output e When mounting the board take care not to be
189. ntered data List of devices entered The only devices that may be monitored using the 16 point entry monitor are those that have random access capability If a device that is not capable of random access is specified a device type error 3 will occur Refer to MELSEC Data Link Library Reference Manual to determine whether or not a device has random access capability TILITY OPERATION idi Z MELSEC 9 3 6 Changing word device values Changes the specified word device value 1 Selecting the menu Select Device write Data changing from the menu bar 2 Dialog box Data Changing Device Device Type ER extension file register b Block No 1 DeviceNo C HEX DEC C oct o Setting Data C HEX DEC 4 Item Content Device Type Set a type of a device whose value is to be changed Enter a block number for ER Enter a network number for LW and LSW Enter a value of start I O number divided by 16 in decimal for SPG Device No Set a number of a device whose value is to be changed HEX Hexadecimal DEC Decimal OCT Octal Setting Data Enter a value to be changed HEX Hexadecimal DEC Decimal NWARNING e Configure an interlock circuit in the sequence program so that the entire system works safely at all times for data change control to the programmable controller in operation Also determine corrective actions for an event of data communication error
190. nts at the access target It is accessible to all device numbers Use extended functions when creating a new program Refer to MELSEC Data Link Library Reference Manual for the details of the functions 10 1 10 10 MELSEC DATA LINK LIBRARY MEMO MELSEC 11 PROGRAMMIN iis x MELSEC 11 PROGRAMMING 11 1 Cautions in Programming This section explains concerning cautions in the case that a program is created using data on a network 11 1 1 Interlock related signals Show a list of the interlock signal devices used in the user program For other hosts and other stations refer to the Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network about the operating status and setting status etc 11 1 11 1 11 PROGRAMMING MELSEC Assignment of link special relays SB and link special registers SW when multiple boards are installed Off 0 On 1 sB20 Module status Indicates the communication status between Normal Abnormal MELSECNET H board and personal computer 11 2 Baton pass status of host Data link status of host Baton pass status of each station Data link status of each station Baton pass status of each station per station number Data link status of each station per station number Indicates the baton pass status of the host It is in a status that the cyclic transmission and transient transmission can be performed when it is no
191. o 1 Group No 1 2 Setting method Set the group number of the MELSECNET H board using the Board information screen of the MNETH utility Setting range 1 to 32 Default 0 no group designation Board list Board information Loop monitor Each sta status history monitor Channel 51 MELSECNET H 1 slot Own Station Information a StaMo Control Normal Sta fi Control Sta Set the desired group number 3 Transient transmission instructions that allows group designation Use mdSend to execute the transient transmission instruction in the user program A CAUTION Precautions when executing the transient transmission by a group function When a group is designated the execution of the transient transmission cannot be verified When this mode of transient transmission is executed successively a no reception buffer space error error code F222 may occur Design the system thoroughly to allow for a sufficient interval between executions and make sure to test debug to confirm that successive executions can be performed without generating any error 12 21 12 21 12 APPLICATION FUNCTIONS MELSEC 12 3 4 SEND RECV function The SEND RECV function sends receives data to from other station s programmable controller using the MELSEC data link library function This function supports the SEND RECV instruction of link dedicated instruction 1 SEND function The SEND functi
192. o 51 MELSECNET H 25 Mbps Network No 1 to 2 Setting screen Board information screen Board list Loop monitor Each sta status Err history monitor Memory 1 0 Test Target m Channel 51 MELSECNET H 1 slot r Dwn Station Information Routing Param Setting Routing Param Transfer Network No Group Control Normal Sta fi 0 2 fi Control Sta LED MNET H optical fiber Board Set RUN B G GO MNG Common Param Setting GOS MNG Mode SWE BENE Online auto reconnection MEE E gt Param Trandter CAC O O CRE PENES El OvER OOGover R ABIFOOABIF E R TIME OOTIME F NET Made QO DATA OODATA JO MNET H mode UNDER C UNDER F DT Reconnect Bun I Retum control station LOOP Loop 50 OO SD 7 PARAMETER SETTIN SEL MELSEC 7 3 Common Parameters The common parameters are used to set the cyclic transmission ranges of LB LW LX and LY that can be sent by each station in a single network The common parameter settings are required only for the control station The data of the common parameters are sent to the normal stations when the network starts up 7 3 1 Send range for each station LB LW settings Assign the send ranges of the link devices LB LW for each station in 16 point units for LB start 000 0 to end OOD F and in one point unit for LW The followi
193. odules other than QCPU Q mode cannot be CPU modules other than QCPU cannot be accessed accessed to the 64 bit version of user application Use 32 bit version of user application 1 Check if the display settings on the Device Manager or other relevant functions are correct and install an appropriate display driver The utility screen is not displayed properly d Or update the Windows operating system The operations of utility cannot be performed er 2 Close the other applications 3 Change the Hardware accelerator setting of the display setting When transmitting the data using SEND function of mdSend function the transmission is completed normally however the data is not received at the destination Refer to section 12 3 4 1 Install the board The driver does not start up 2 Check if the board is recognized normally on the Device Manager screen Refer to Section 14 3 3 14 4 14 4 14 TROUBLESHOOTING MELSEC 14 2 Troubleshooting of Installation and Uninstallation The following explains the troubleshooting for error at installation and uninstallation 14 2 1 Installation failed When the installation is aborted or failed reinstall the utility by the following procedure 1 Check the installation and uninstallation precautions Refer to Section 8 1 2 Restart the personal computer 3 If the utility can be uninstalled uninstall it After the uninstallation restart the personal computer
194. of the driver When 128 received data are already stored in the reception buffer of the driver the subsequent data are received by the board once but the driver automatically discards those received data at the time of storage to the reception buffer of the driver When the sending side sent data with arrival acknowledgment execution type the process of send data is completed normally at the sending side but data are discarded Sending station Data sent from other station by the SEND instruction Driver Reception buffer of driver Received data of Channel 3 Received data of Channel Board 7 1 1 Channel 2 Received datait Channel a Channel 3 Received data of C 4 Channel 4 Received data of Channel nanne Channel 5 Channel 6 Channel 7 Received data of Channel 2 Channel 8 M Received data can be stored up to 128 disregarding the channel numbers X Received data of Channel 6 Discards received data Precautions for using RECV function gt When receiving data to the multiple channels of the board create a user program to read data from all channels that receive data If a channel from which data are not read exists in the channel from which data are received the received data of the channel from which data are not read are accumulated in the reception bu
195. omatic Local Service 4 Office Source Engine Manual Local System 3 Offline Files The Offline Started Automatic Local System Parental Controls This service Manual Local Service Manual Local System X Extended Standard App 26 App 26 APPENDIX MELSEC Appendix 11 External Dimensions Appendix 11 1 Q80BD J71LP21 25 Q80BD J71LP21G Q80BD J71LP21GE 147 5 79 153 6 02 140 5 51 unit mm inch 153 6 02 147 5 79 153 6 02 140 5 51 La Ml 42 1 65 unit mm inch App 27 App 27 APPENDIX MELSEC Appendix 11 3 Q80BD J71BR11 153 6 02 147 5 79 141 5 55 1 TIT T CERERI TIR UL unit mm inch 147 5 79 153 6 02 140 5 51 unit mm inch App 28 App 28 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 herei
196. ome to the Found New Hardware Wizard This wizard helps you install software for Network Controller If your hardware came with an installation CD or floppy disk insert it now What do you want the wizard to do O irsal from a ist or spectc location Advanced Click Next to continue 14 8 For Windows Server 2003 R2 the screen shown on the left is displayed Click the Yes button and continue installing For operating system of Windows XP Service Pack2 or later the confirmation screen for connection to Windows Update may be displayed Select No not this time and click the button The Found New Hardware Wizard screen is displayed after the board installation Refer to Section 14 2 4 and install the driver When the utility has been started up restart the utility after installing the driver 14 8 14 TROUBLESHOOTING 14 2 4 When the driver is not installed MELSEC The driver is installed automatically when installing the board on the personal computer after installing the software package For Windows XP and Windows Server 2003 R2 the following operation is required Found New Hardware Wizard Welcome to the Found New Hardware Wizard This wizard helps you install software for Network Controller If your hardware came with an installation CD or floppy disk insert it now What do you want the wizard to do Click Next to continue Found New Hardwar
197. on Direct access to link devices nn eee nnne nennen enne Section 12 1 functions Cyclic transmission function Low speed cyclic transmission m Section 12 2 Periodical communication Transient transmission function 1 Communication function Section 12 3 1 Non periodical communication i Routing function m mem eee eene ene Section 12 3 2 Group aoa Section 12 3 3 Multiple transmission function optical loop system mmm Section 12 4 4 1 4 1 4 FUNCTION MELSEC 4 2 Specifications of the Link Data Sending Receiving Processing Time This section explains the link data sending receiving processing in the MELSECNET H network system with MELSECNET H board 4 2 1 Link data sending receiving processing 1 Link data sending receiving processing In the cyclic transmission communication is performed using the LB LW LX LY devices of the network module and MELSECNET H board This section explains the case when the link relay B is used on the personal computer side 1 BO the sending station personal computer turns on 2 Byalink refresh the BO information is stored in the refresh data storage area LB of the MELSECNET H board 3 The BO information in the refresh data storage area LB is stored in the link data storage area LB 4 Byalink scan the BO information in the link data storage area LB is stored in the link data storage area LB of the network module on the rece
198. on sends data from the own station to the specified channel of the specified station using the mdSend function Two execution types arrival acknowledgment and no arrival acknowledgment are available for the SEND function When sending data with no arrival acknowledgment execution type all stations in group numbers can be specified as target stations CPU module Target station Board Driver User application Channel 1 Channel 2 Channel 3 Channel 4 RECV Channel 5 Channel 6 Channel 7 Channel 8 Channel 1 main Channel 2 Channel 3 Channel 4 Channel 5 mdSend path 255 gt gt Channel 6 D Channel 7 Channel 8 mdOpen 51 1 amp path mdClose path 1 An error occurs when data are sent to the same channel which is being used CPU module Target station Driver User application Channel 1 Channel 1 main Channel 2 Channel 2 Channel 3 Channel 3 mdOpen 51 1 amp path Channel 4 Channel 4 Channel 5 Channel 5 mdSend path 255 Channel 6 Channel 6 Uc Channel 7 Channel 7 Channel 8 Channel 8 mdClose path 2 Only an even number byte can be specified for a send data size 3 Logical station numbers cannot be specified 4 Even if the process of data send is completed normally with arrival acknowledgment execution type data may not be received when the targ
199. ore touching the board Failure to do so may cause a failure or malfunctions of the board Disposal Instructions N CAUTION e When disposing of this product treat it as industrial waste e CONDITIONS OF USE FOR THE PRODUCT e 1 Mitsubishi programmable controller the PRODUCT shall be used in conditions 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 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 pub
200. ork MNET 10 mode MELSECNET 10 MNET H mode MNET H EX mode MELSECNET H 3 Precautions a b c Set an identical network type for stations within the same network If any different network type is included the system does not operate normally For the MELSECNET H Extended mode use the MELSECNET H board of ROM version 2X or later and the SWODNC MNETH B of version 11M or later When a MELSECNET H board incompatible with the MELSECNET H Extended mode is used the system does not operate normally When connecting a QnA or A series MELSECNET 10 network module use it in the MELSECNET 10 mode If used in any other mode the system does not operate normally Set a transmission speed matched with that of the network When an incorrect transmission speed is set the system does not operate normally 7 PARAMETER SETTINGS MELSEC 7 2 Network Settings 7 2 1 Network No 7 2 2 Station No These are the parameters used to build the MELSECNET H network The MELSECNET H board s network No station No control station normal station setting and group No are set Set the Network No of the network which the MELSECNET H board is connected to To set the network No set it in the Board Information screen in the MNETH utility 1 Valid setting range 1 to 239 2 Caution a Set the same network No to all of the devices connected to the same network Network Network CPU QJ71 CPU QJ71 QJ71 1Mp2
201. osis Displays the address where the diagnosis is being performed the number of times it is Diagnosis NR performed and the status Start Button Starts the memory I O Starts the memory VOdiagnosis Stop Stop Button Stops the memory I O diagnosis Board Reset Button Resets the MELSECNET H board TILITY OPERATION idi Z MELSEC 9 2 10 Target screen operation This operation sets the logical station No for access to a multiple CPU system or Redundant CPU system Board information Loop monitor Each Err history monitor Memory 1 0 Test Target Driver yA r Channel 51 MELSECNET H 1 slot Logical Sta Na 56 Set Network No 1 a Sta No 3 zi Multiple PLC specify Mo Specification MELSECNET H Redundant PLC specify Standby system m Target Setting List Multiple PLC gp n No Specification Control Change Delete di Input the station No of the network module controlled by the multiple CPU system or Sta No redundant CPU system Multiple PLC specify Specify a target programmable controller CPU No in the multiple CPU system Redundant PLC specify Specify a target redundant CPU in the redundant CPU system Button Registers the setting contents in the list of external devices Select the line to change When this button is clicked the data that are registered can be Button changed Th
202. otect your computer l Setting completion App 16 MELSEC 3 Select User Accounts 4 Select Turn User Account Control on or off 5 Deselect Turn on User Account Control UAC to make your computer more secure and click the button App 16 APPENDIX MELSEC b Using Windows 7 Windows Server 2012 Windows 8 Getting Started n Connect to a Projector Calculator Documents Sticky Notes a y Paint Q Snipping Tool 9 XPS Viewer Pictures Computer Control Panel Windows Fax and Scan Devices and Printers Remote Desktop Connection 29 Default Programs Magnifier Help and Support gt AllPrograms 88 Conte Pan Adjust your computer s settings View by Category Y e System and Security 9 User Accounts and Family Safety MB Review your computers status or remove user accounts B setup pror Find an fx proolems Appearance and Personalization Network and Internet As Charge the theme Vien network status ond tasks Adjust sereen resolution Choose homegroup and sharing options E hardware and Sound E Clock Language and Region Change keyboards or other input methods suggest settings Optimize visual display Programs C Mee amm KL gt System and Security v p Conrat Pare
203. out the plug v Put the covers which were attached to the plug before installation back on both the plug and jack to store v Complete Data link operation may be executed even if IN and IN or OUT and OUT are connected with an optical fiber cable However the loopback function the network diagnostic function and some of other functions do not operate normally So make sure to connect IN and OUT 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION 6 4 2 Coaxial bus system MELSEC This section explain precautions for connection of the coaxial cable and Q80BD J71BR11 in the coaxial bus system 1 Precautions in connecting a Restrictions on the cable length between the stations 1 When connecting between the network modules the cable lengths indicated in the table below should be used according to the number of stations connected A communication error may occur if a cable length other than the lengths indicated in the table is used Number of stations connected 2 to 9 stations 10 to 33 stations Station to station cable length Cable type Oto 1m 3 28 ft X cable less than 1m 3 28 in in length cannot be used 1 8 28 ft to 5 m 16 4 ft CN PEERS CNN o o o 17 5578 25 o o x zquseexomgas o o Jol o 300 98438 500 16405 1 x x o 2 3 Allowed X Not allowed I
204. ower save mode standby hibernate check and change the setting for when the computer s power button is pressed or the settings of the uninterruptible power supply system UPS on the control panel App 21 App 21 APPENDIX MELSEC Appendix 9 2 Behavior when the personal computer enters the power save mode hibernate sleep 1 Target operating system The following operating systems have the power save mode hibernate sleep e Windows Vista e Windows Server 2008 e Windows Server 2008 R2 e Windows 7 e Windows Server 2012 e Windows 8 2 Behavior when entering the hibernation mode sleep mode The following explains the behavior of the board when the power save mode hibernate sleep is entered on the personal computer e The MELSECNET H board stops its operation and is disconnected from the network e The board is not reconnected even after the personal computer returns from the power save mode hibernate sleep e After the personal computer returns from the power save mode hibernate sleep 28141 9213H System sleep error occurs when accessing MELSECNET H board from the MELSECNET H utility or an application program which includes MELSEC data link library function 3 Countermeasure When the personal computer is set to enter the power save mode hibernate sleep the setting is changed by MELSECPowerManager For details of MELSECPowerManager refer to Appendix 10 App 22 App 22 APPENDIX
205. p Component Services Shortcut 28 Recent Places GH Data Sources ODBC Shortcut 28 E Event Viewer Shortcut C3 libraries iSCSI hitiator 2008 0 54 PM Shortcut Documents B Local Security Policy 2011230 2M Shortcut Music ledormance Menitor 009 9 5 PM Shortcut E Pictures gagement 2011 2 30 Shortcut Videos 7 13 2000 54 PM Shortcut Re Configuration 7 13 2009653 PM Shortcut m 18 Computer 9 Task Scheduler 7 13 2009 9 54 PM Shortcut 28 pm d Windows Frewali with Advanced Securty 713 20000510 Shortcut 2e x 2003364 jp D af Windows Memory Diagnostic 7 13 2009 9 53 PM Shortcut 2KB Date Disk E 4B Windows Powershell Modules 7 13 2009 10329 Shortcut 2008 264 en F ca 2008R2 964 jp 8 a Network 14 items 1 To next page App 25 App 25 APPENDIX MELSEC From preceding page 4 Check if MELSECPowerManager is registered i Services Loca MH SECPowerManager Started A Beended Standard Setting completion e When MELSECPowerManager is disabled the personal computer may enter the power save mode hibernate sleep automatically depending on the settings on the personal computer Do not disable MELSECPowerManager because the MELSECNET H board does not function normally if the personal computer enters the power save mode hibernate sleep For the behavior of the board when the
206. p status 2 Data link supply status 5x4 PC power OFF before PC startup ON OFF Normal Not executed power ON communication PC power startup power ON or restart Abnormal ES before MELSECNET H driver startup n A Normal Disconnected Not executed communication When the system is shut down External Host station status Status power 1 Communication A power Loop status x2 Data link supply status PC power OFF before external power ON OFF Normal Normal Not executed supply OFF communication Loopback Abnormal EX External power supply OFF Disconnected Not executed 1 The status be checked on the network monitor screen of the MELSECNET H utility the Network diagnostics of GX Developer connected to other station s PLC or at areas SW91 to SW9A 2 The status can be checked on each station status screen of the MELSECNET H utility the Network diagnostics of GX Developer connected to other station s PLC or at areas SW70 to SW73 k3 The status can be checked on the Network diagnostics of GX Developer connected to other station s PLC or at areas SW74 to SWTT 4 This status is irrelevant when rebooting the personal computer without turning off its power App 7 App 7 APPENDIX MELSEC Appendix 3 Procedures for Replacing Boards This section explains the procedure to replace a MELSECNET H board 1 Replacement procedure Record the settings before the replacement Record the c
207. package for MELSECNET H interface board MNETH utility Abbreviation for MELSECNET H utility GX Developer General product name for product model names SW8D5C GPPW E SW8D5C GPPW EA SW8D5C GPPW EV and SW8D5C GPPW EVA MX Links General product name for product model names SWnD5F CSKP E n denotes the version number MX Component General product name for product model names SWnD5C ACT E SWnD5C ACT EA n denotes the version number MELSECNET 10 Abbreviation for A7OBDE J71QLP23 A70BDE J71QLP23G E A70BDE J71QBR13 A70BDE J71QLR23 MELSECNET 10 interface board ACPU Generic term for the CPU of MELSEC A series QnACPU Generic term for the CPU of MELSEC QnA series QCPU Generic term for the CPU of MELSEC Q series QJ71LP21 Abbreviation for QJ71LP21 QJ71LP21G Q71LP21GE QJ71LP21 25 QU71LP21S 25 MELSECNET H network module However if shown for a particular model QJ71LP21 QJ71LP21G Q71LP21GE QJ71LP21 25 QJ71LP21S 25 is entered QJ71BR11 Abbreviation for QJ71BR11 MELSECNET H network module Network module Generic term for QJ71LP21 QJ71BR11 MELSECNET H Abbreviation for Q corresponding MELSECNET H network system MELSECNET 10 AnU corresponding QnA Q4AR corresponding MELSECNET 10 network system MELSECNET H 10 Mbps Abbreviation in case of using MELSECNET H board with communication rate of 10 Mbps MELSECNET H 25 Mbps Abbreviation in c
208. pecial Relays SB Registers SW 11 5 The data linking information is stored in the link special relays SB registers SW They can be used by the user program or used for investigating faulty areas and the causes of errors by monitoring them The following table shows which SB and SW can be used to check which information For more details refer to Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network 1 To know the information about the host Personal computer status of the host pu u 004 SW004Bu normal abnormal 5 004 The external power supply status of the host 5 0042 Communication status between MELSECNET H 0020 Sw00201 board and personal computer 5 0040 to 44H SW0040n to 46H Setting status of the MELSECNET H board E to G irse to 68u Running status of the MELSECNET Hboard status of the MELSECNET H board 5 0047 49 to 49H SWO0047H to to 4AH 2 To know information about the entire network CPU and personal computer status of each station 5 0080 5 0080 to 83H normal abnormal 5 0088 SW0088 to 8 CPU personal computer operation status of 580084 SW0084 to 87 each station RUN STOP B TR Cyclic transmission status of each station SB0074u SW0074 to 77H The external power supply status of each station SBO008CH SW008Cu to 8FH 5 0068 Link scan communication mode e SW0068 to 6DH Setting information of the network
209. peration methods for each utility 9 When desiring to know about the MELSEC data link library Chapter 10 Chapter 10 gives overview concerning the MELSEC data link library 10 When desiring to know the interlock related signals Chapter 11 Chapter 11 gives the interlock related signals 11 When desiring to know the application functions Chapter 12 Chapter 12 gives the MELSECNET H board s application functions 12 When desiring to know about troubleshooting Chapter 14 Chapter 14 gives information on troubleshooting GENERIC TERMS AND ABBREVIATIONS Unless otherwise specified this manual uses the following generic terms and abbreviations to describe MELSECNETHH interface board Generic Term Abbreviation Description Q80BD J71LP21 25 Abbreviation for Q80BD J71LP21 25 MELSECNET HH interface board Q80BD J71LP21S 25 Abbreviation for Q80BD J71LP21S 25 MELSECNET HH interface board Q80BD J71LP21G Abbreviation for QB0BD J7 1LP21G MELSECNET H interface board Q80BD J71LP21GE Abbreviation for Q80BD J71LP21GE MELSECNET H interface board Q80BD J71BR11 Abbreviation for Q80BD J71BR11 MELSECNET H interface board Q81BD J71LP21 25 Abbreviation for Q81BD J7 1LP21 25 MELSECNET H interface board MELSECNET H board Generic term for QB0BD J71LP21 25 Q81BD J71LP21 25 080 0 711 215 25 Q80BD J71LP21G Q80BD J71LP21GE and Q80BD J71BR11 SWODNC MNETH B Product name of the software
210. power cables and or load cables connected to other than programmable controllers Ensure a distance of 100mm 3 94 in between them Be sure to twist the external power supply cable 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 5 Test Before executing the data link operation check the MELSECNET H board and the cables Select a test item using the mode setting switch on the Board information screen in the MNETH Utility The MELSECNET H board test has the following five types Test type Board This test checks the hardware of the internal circuits Section 6 5 1 confirmation Self loopback test including the send receive circuit of the MELSECNET H board as well as the cables This test checks the hardware of the internal circuits Section 6 5 2 Internal self loopback test including the send receive circuit of the MELSECNET H board This test checks the hardware inside the MELSECNET H Section 6 5 3 Hardware test board oard Network This test checks the hardware of the MELSECNET H Section 6 5 4 Test between master station confirmation board network modules and cables between two adjacent Test between slave station stations can be checked This test checks the Q80BD J71LP21 25 Q81BD Section 6 5 5 J71LP21 25 Q80BD J71LP21S 25 Q80BD J7 1LP21G Forward loop test Q80BD J71LP21GE network module and cable hardware Reverse loop test after all the stations have been connected with optical
211. ppendix 7 Restrictions for Operating System ssssssssssssssssssssssses eene App 13 Appendix 8 Warning Message Appears on Windows sssssssssseneenemenennennns App 14 Appendix 8 1 Overview of warning message sssssssssssssseseeeeeeeeneee nennen nnns App 14 Appendix 8 2 Methods for preventing the warning message sssssssssseee App 15 Appendix 9 Behavior When Personal Computer Enters Power Save Mode or Fast Startup App 21 Appendix 9 1 Behavior when the personal computer enters the power save mode standby hibernate sesssssssssssssssssseseeeeen eene tenerent App 21 Appendix 9 2 Behavior when the personal computer enters the power save mode hiberriate Sleep ettet IB bem detail debe x App 22 Appendix 9 3 Behavior when the fast startup function is App 23 Appendix 10 MELSECPowerManagger sse nennen nennen nennen nennen nnns App 24 Appendix 10 1 Installing MELSECPowerManaget cccecceeeeeeeceeeeeeeeneeeeaeeeeaeeeeaeeeseneeteaeensieeess App 24 Appendix 10 2 Uninstalling App 24 Appendix 10 3 Checking MELSECPowerManager ssssssssses seen App 25 Appendix 11 External DiMe nsions ccccccccsccccsssceceeseeeecssseeecesseeeccssaeeece
212. puter enters the power save mode differs according to the operating system For details of error codes and messages when the power save mode set by a user or a program is entered refer to Appendix 9 3 Instructions for user program a Supported version of SWODNC MNETH B User program Supported version of prog SWODNC MNETH B 32 bitversionuserprogaam bit version user 32 bitversionuserprogaam All versions 64 bit version user program Version 23Z or later R4 Programs can be created and executed on the 64 bit version operating system 2 Programs can be created on the 32 bit version operating system however the following dialog box appears and cannot be executed When using Windows XP 32 bit version C MELSEC MTEST exe C MELSEC MTEST exe is not a valid Win32 application When using Windows 7 32 bit version C MELSEC MTEST exe a The version of this file is not compatible with the version of Windows you re running Check your computer s system information to see whether you need an x86 32 bit or x64 64 bit version of the program and then contact the software publisher b User programs created in the Japanese environment work only in the Japanese environment c User programs created in the English environment work only in the English environment 2 SYSTEM CONFIGURATION MELSEC MEMO PECIFICATION 3 SPECIFICATIONS MELSEC 3 SPECIFICATIONS
213. r To continue type an administrator password and then click OK Password Ad Caps Lock is on User Account Control helps stop unauthorized changes to your computer r y User Account Control Exm i Do you want to allow the following program from an 7 unknown publisher to make changes to this computer Program NETHUTL exe Verified publisher Unknown File origin Hard drive on this computer To continue type an administrator password and then click Yes Admin 29 Show details 1 If only one user account with administrator authority is available the User Account Control screen requests the password entry of its user only 2 For details on how to prevent this screen from being displayed refer to Appendix 5 14 3 14 3 14 TROUBLESHOOTIN OU SHOOTING MELSEC Error detail Cause determination method Corrective action System standby error or system hibernation error is displayed E supported for MELSECNET H board The device driver for the PCI MELSECNET H Controller device is preventing the machine Configure the settings of the Power Options in the 1 from entering standby Please close all applications and try again If the problem parasts yos may nesd to update thie diyer control panel to avoid the computer from activating d the power save mode stand by hibernate The power save mode stand by hibernate is not CPU m
214. ram Setting SWE a PORR Oniine auto reconnection MSE E CU NEN Common Param Transfer hos agaaa UNDER OO uNpER R NETH mode M LOOP O O LOOP SD 5 Reconnect F pE Retum as control station Channel Sets a channel MELSECNET H board to be used Own Station Information Displays information and changes setting on the host Resets the MELSECNET H board to renew the information of the MELSECNET H board Board Set buon selected in Channel Performs mode setting for the MELSECNET H board and displays the present value Mode Description Online auto reconnection Used for normal communication Enters the state in which there is no connection to the Offline network Forward loop Check the forward loop status Check the reverse loop status Perform station to station test Test between master station i Select at control station Perform station to station test Test between slave station Select at normal station Check the hardware including the cable and communication circuit for transmission system by the MELSECNET H board Intamalissfidoop back test Check the hardware including the communication circuit p for transmission system by the MELSECNET H board HM test Check the hardware of the MELSECNET H board Selects the transmission speed When the Q80BD J71LP21G Q80BD J71LP21GE and Q80BD J71BR11 is used and when MNET1
215. rimping sleeve as shown in the figure below When using a cable with aluminum tape cut the tape as shown in the figure below Crimp sleeve Unit mm inches When cutting the tape make a clean cut without leaving any stray pieces or loose strands Failure to do so may cause a short circuit or result in an improper crimp Cut the aluminum tape up to here 2 Insert a center contact pin into the internal conductor Crimp the pin using a crimp tool to seal the gap between the center contact pin and the insulating material Center contact pin 1 1 Use a crimp tool specified for a BNC connector 2 Do not crimp the junction of the insulating material and the center contact pin 3 Horizontally insert the center contact pin into the insulating material and crimp the pin If the pin is on the tilt straight it 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 3 After the crimp check the crimp height of the crimp part When the crimp height at the measurement position is between 1 4mm and 1 5mm the pin is properly crimped If the crimp height is not between 1 4mm and 1 5mm adjust the crimp tool and crimp the center contact pin again Measurement position of Cross section of crimp height the measurement position i A i 1 5mm to 2 0mm e stb w GE j A B M Crimp height value 5 mm Crimp part 4 Hold the root of the coaxial cable and fully insert the cable into a plug
216. rmal Indicates the data link status cyclic transmission status of the host Indicates the baton pass status of each station including the host Reserved stations and stations having numbers higher than the maximum station number are not included This device turns off when SW70 to 73 are all 0 Indicates the data link cyclic transmission status of each station including the host Reserved stations and stations having numbers higher than the maximum stations number are not included This device turns off when SW74 to 77 are all 0 Stores the baton pass status of each station including the host b13 b12 b4 b3 b1 b0 14 13 5 4 2 1 30 29 21 20 18 17 46 45 37 36 34 33 62 61 53 52 50 49 Numbers 1 to 64 in the table denote station numbers Stores the data link cyclic transmission status of each station Including the host b4 5 4 2 b3 b1 21 20 37 36 34 53 52 50 Numbers 1 to 64 in the table denote station numbers 18 Abnormal Host disconnected Normal Data link enabled Data link being executed Data link being stopped Set after refresh completion Executing cyclic transmission One or more stations are All stations normal abnormal All stations executing data link All stations executing cyclic transmission One or more stations are not executin
217. rn to normal Check the link cables before and after the faulty station using a station to Complete station test Replace the faulty link cable Did the data link return to normal Consult with the dealer regarding the problem Complete 14 22 14 22 14 TROUBLESHOOTING MELSEC 14 5 Flowchart to Use when Error Occurred During Data Link The following explains corrective actions when an error occurred during data link 14 5 1 Flowchart to use when unexpected value is input to specific link device Check the following items 1 Check for a station with link error using the each station status screen 2 Check the parameter assignment range at the control station 3 Check the device range used in the programmable controller program at the programmable controller 4 Check in the user program argument data for the Data Link function accessing the specific link device 14 5 2 Flowchart to use when data cannot be written or read in user program Is the communication YES function s return value abnormal Check the error with the error code table Refer to MELSEC Data Link Library Reference Manual Monitor the device to be accessed from the device monitor utility Also perform a data change to see if data can be written Can the device be monitored YES Was the data written Check the user program YES Did an error occur Check the er
218. rompt for administrators in Admin Approval Mode Prompt for consent User Account Control Behavior of the elevation prompt for standard users User Account Control Detect application installations and prompt for elevation User Account Controk Only elevate executables that are signed and validated User Account Control Only elevate UlAccess applications that are installed in secure locations User Account Controk Run all administrators in Admin Approval Mode User Account Control Switch to the secure desktop when prompting for elevation User Account Control Virtualize file and registry write failures to per user locations Prompt for credentials Enabled Disabled Enabled Enabled Enabled Enabled n App 20 l User Account Control Behavior of the elevation prompt for ad Sammie Local Securty Setting Explain User Account Control Behavior of the elevation prompt for administrators in Admin Approval Mode Prompt for credentials Prompt for consert lt E 1 Setting completion MELSEC 7 Select User Account Control Behavior of the elevation prompt for administrators in Admin Approval Mode Prompt for consent 8 Select Elevate without prompting on the Local Security Setting gt gt tab and click the OK button App 20 APPENDIX MELSEC Appendix 9 Behavior When Personal Computer Ente
219. ror with the error code table Refer to MELSEC Data Link Library Reference Manual YES Was it host access Check the MELSECNET H board is overlapping with the system and other boards Check according to the flowcharts in Section 14 4 14 23 14 23 14 TROUBLESHOOTING MELSEC 14 5 3 Flowchart to use when communication is disabled from time to time during user program execution Did the user program return an error code Start MNETH utility and check the each station status Is there any faulty station Set a system configuration that includes only the control station and host station Is the link normal Add adjacent stations one after the other and perform link monitor for a sufficient period 14 24 Confirm the definition of the error using the error code table and check the user program and access station Refer to MELSEC Data Link Library Reference Manual Replace the link cable or faulty station Replace the link cable or additional station connected 14 24 14 TROUBLESHOOTING MELSEC 14 5 4 Precautions for installing other optional board Executing user programs including the device monitor utility for each board simultaneously under the following condition may cause an error When an error occurs in the user program take the action shown below Condition A personal computer into which the MELSECNET H board an
220. rs SW For more information of each link special registers SW refer to Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network Link special Item Error cause Corrective action register Loop Switching SWOOCEH Power ON OFF status of the station cable fault noise etc X2 Confirm the error code of Power ON OFF status or CPU module error of the external the transient transmission station cable fault noise etc error and then take the corrective action SWO00Ca8H Retry Power ON OFF status of the station cable fault noise etc 2 SWO00C9H SWOOCCH ON OFF status of the adjacent station cable fault noise Link Trouble 2 SWO00CDH etc SWOOB8H UNDER Power ON OFF status of the adjacent station cable fault etc 2 SWOOCOH SWOOB9H Disconnection status of the station that sends data to the SWOOC1H corresponding station cable fault hardware error noise etc SWOOBAH OVER SWOOC2H Cable fault Hardware error noise etc SWOOBBH Short Frame SWO00C3H ABS SWOOBCH Disconnection status of the station that sends data to the SWO00CAH corresponding station cable fault hardware error noise etc SWOOBDh Time Out Insufficient data link monitor time cable fault noise etc SWO00C5H SWOOBEH Exceeding 2Kb 2 SWO00C6H Cable fault Hardware error noise etc SWOOBFH DPLL Error SW00C7H 2 Basically the number of times for each error occ
221. rs Power Save Mode or Fast Startup MELSECNET H board does not support the power save mode standby hibernate sleep and the fast startup function The following explains the behavior of the personal computer when the personal computer enters each mode Appendix 9 1 Behavior when the personal computer enters the power save mode standby hibernate 1 Target operating system The following operating systems have the power save mode standby hibernate e Windows 9 XP e Windows Server 2003 R2 2 Behavior when entering the standby mode hibernation mode When the personal computer enters the power save mode standby hibernate the following message appears and the power save mode standby hibernate is disabled The MELSECNET H board continues its operation and the data link remains normal When entering the standby mode System Standby Failed The device driver For the PCI MELSECNET H Controller device is preventing the machine from entering standby Please close all applications and try again If the problem persists you may need to update this driver When entering the hibernation mode System Hibernation Failed The device driver For the PCI MELSECNET H Controller device is preventing the machine from entering hibernation Please close all applications and try again If the problem persists you may need to update this driver 3 Countermeasure When the personal computer is set to enter the p
222. s history monitor Memory 1 0 Test Target Driver yA k r Channel 51 MELSECNET H 1 slot x r Logical 66 Set Network No fi j Sta No f Multiple PLC specify Ho Specification v MELSECNET H Redundant PLC specify Control system Y r Target Setting List Logical Network No 5taNo Multiple PLCE Redund 4 Change No Specification Control Delete App 1 App 1 App APPENDIX MELSEC 2 Operation at occurrence of system switching Before system switching Personal computer MELSECNET H board Station No 3 After system switching Personal computer When system switching occurs during access to the Redundant CPU access to the Redundant CPU set for the Logical Sta No is continued Example When the following Logical Sta No 66 was specified for access Logical Sta No 66 Network No 1 Sta No 1 Multiple PLC specify No specification Redundant PLC specify Control system MELSECNET H Network No 1 Control system J Standby system Tracking cable Station No 1 Station No 2 Station No 3 MELSECNET H board MELSECNET H Network No 1 Control system p A Standby system I Control system Tracking cable Station No 1 Station No 2
223. s NO RUN LED lit Is the faulty station a PC v Refer to the Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network Refer to Section 14 4 1 Did the data link return to normal Complete NO Is the link mode set to ONLINE NO YES 1 2 3 Go to the next page Go to the next page Go to the next page 14 21 14 21 14 TROUBLESHOOTIN OU SHOOTING MELSEC MNETH utility User program Set to ONLINE in the Stop the user program and Board information setting perform the same operation Screen as for the MNETH utility Set the PLC data link mode to ONLINE and reset reset NO YES Did the data link return to normal Complete Is the station number set correctly User program Power off the PC then set the correct station number Power on the power again MNETH utility Power off the PC then set the correct station number Power on the power again Power off the PLC then set the correct station number Power on the power again NO YES Did the data link return to normal Check with a self loopback test at the faulty station Complete NO Is there any error Replace the MELSECNET H board YES network module of the faulty station NO YES Did the data link retu
224. s available only when the display orientation is Portrait 1 Double click the number of the bit device to be changed 2 Select in the dialog box shown below if the change is acceptable Select to cancel Device Monitor Utility Change the device X 0017 to ON All right Yes NWARNING Configure an interlock circuit in the sequence program so that the entire system works safely at all times for data change control to the programmable controller in operation Also determine corrective actions for an event of data communication error between the PC and programmable controller CPU in use 10 MELSEC DATA LINK LIBRARY MELSEC 10 MELSEC DATA LINK LIBRARY 10 1 This chapter describes the functional overview offered by the library These functions are used when creating a user program that communicates with a programmable controller CPU With the functions the user can perform communication without being conscious of the hardware type on the opposite side or the communication protocol The following table lists the MELSEC data link library that is provided with the MELSECNET H board mdReceiveEx Batch reads devices Extended function 1 mdControl Remote operation of programmable controller CPU RUN STOP PAUSE mdSend mdReceive Batch reads devices ImdDevSet Sets a bit device 1 A function in which the access range is extended according to the extension of the device poi
225. s2 Control station 1Ns2 2MP1 1 1 Personal QCPU QJ71 QJ71 Personal computer 2 LP21 LP21 computer J71LP21 25 J71LP21 25 Network No 1 Network No 2 gt gt SIQCPU QJ71 a ne a LP21 25 Normal station p ontrol station p 2Ns3 2 1 o a a 1Ns3 Network No 3 Normal m station gt gt amp QCPU QJ71 Q80BD amp QCPU QJ71 a BR11 J71BR11 BR11 2 Personal 2 3Ns2 3Ns3 3Ns4 Normal station Normal station Normal station 2 SYSTEM CONFIGURATION 2 3 2 Setting items MELSEC Setting items in the case that the MELSECNET H board is used as a control station or normal station in a multiple network system are explained below MELSECNET H board settings are performed by the MNETH Utility Secon 92 2 Network No us SACO Station no O O f Section 9 2 3 omswe mess o Mode mese a 72118 Parameter Section 9 2 5 E NE Supplementary setting A x Opposite party setting Section 9 2 10 CIT station No Driver Driver setting Section 9 2 11 2 3 3 Usable device range The same device range as is used for a single network system section 2 2 4 can be used 2 SYSTEM CONFIGURATION MELSEC 2 4 If used in a Multiple CPU System or Redundant CPU System
226. sseseeeeenen nennen rennen nnnm A 20 PAGKING LIST 1 itudin eredi LP dt Ld ied e de ede ed Le ded te A 20 1 1 1 1 12 3 1 2 2 1 MELSECNET H Board System Configuration esssssssesseeeeeenen nennen nennen 2 1 2 2 Single Network System ted d e RU RE HERR 2 3 2 2 1 Optical loop system enne inneren nenne tnnt nnne n nenne neris nnns 2 3 2 2 2 Coaxial bus systemi i capt e in ado pete fe set ad o apte de D st ade ig 2 3 2 2 9 OGUN ox isnt LUE i emi tate E Desa i e EE d 2 4 2 2 4 Usable device ranges siia icd tee nudae een a e eae ren 2 4 2 3 Multiple Network System sssssssssssssseeeeeee nennen nnne nnne nnen nre ne nnne nre 2 5 2 3 1 2 2 5 2 39 2 oie cece elec is ertet Per e E en 2 6 2 3 9 Usable device range s cede th e t de tt or pet do e t d de te PER 2 6 2 4 If used in a Multiple CPU System or Redundant CPU System sssssseeeeene 2 7 2 5 Operating Environmleht e nete e ee ER e Hee ree Re telae 2 8 3 1 General PARANA TI EATR R RAI ENN RAREN Aai a 3 1 3 2 Performance
227. st results Click the Board Set button in the Board Information screen in the MNETH utility to run the forward loop reverse loop test and check the execution state by the status of the LED s in the Board Information screen If T PASS blinks 20 times and ERROR LED does not blink the test is completed normally Also if the test ends abnormally the ERROR LED or the L ERR LED will blink as shown below to indicate the relevant error information 1 TIME DATA and UNDER LED s blink on the F LOOP and R LOOP sides The cable or the other station is abnormal and loop back occurred 2 The CRC OVER and AB IF LED s blink on the F LOOP and R LOOP sides The cable is defective 3 TIME and DATA LED s blink on the F LOOP and R LOOP sides The wiring is wrong Check and correct the cable connections before and after the station where the error occurred Corrective action when the test completes abnormally Check if the cable failure is not occurred the connector is not disconnected and the wiring is appropriate If there is any error correct the connection When the cable has been disconnected replace the cable For the error occurred in the other station check the other station 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC MEMO 7 PARAMETER SETTIN MELSEC 7 PARAMETER SETTINGS It is necessary to set the MELSECNET H board s parameters using the MNETH utility in order to
228. static electricity Always place the board in this bag when storing or transporting Otherwise failure or malfunctioning may result Take care that foreign objects such as chips or wiring debris do not get into the PC This could result in fire breakdowns or malfunctioning Do not dismantle or rebuild the board This will result in failure malfunctioning injury or fire e When disposing of the product handle it as an industrial waste Do not drop the board or subject it to strong impact This will result in failure or malfunctioning of the board 6 3 2 Installation environment Refer to the instruction manual accompanying the PC module regarding installation of the PC module in which the MELSECNET H board is mounted 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 3 3 Board installation The following flowchart shows the board installation procedure Start Power OFF Power OFF the personal computer Install the board Install the board to a slot on the personal computer i Fix the board Fix the board to a slot on the personal computer using the board fixing screws Wiring the external power supply cable For the board with external power supply function wire the Refer to Section 6 4 4 external power supply cable l Power ON the personal computer i End For the installation method of the board to a slot refer to the instruction manual provided with the personal computer
229. system any stations that are not tested should be switched to offline or powered off Station to Station to Offline or execute test be tested powered off j 2 Test mode settings 3 In the mode settings in the MNETH utility s Board Information screen set the Station No n Station No n 1 stations respective Test between master station and Test between slave station settings Start of inter station test Set the mode setting on Test between master station or Test between slave station and click the Board Set button This operation is performed in the order of control station normal station 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 4 Click the Board Set button in the Board Information screen of the MNETH S utility to run the station to station test checking the LED status in the Board Information screen to confirm the execution state If T PASS blinks 20 times and ERROR LED does not blink the test is completed normally Also if the test ends abnormally the following ERROR LED or L ERR LED will blink as shown below to indicate the relevant error information a Optical Loop System Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G Q80BD J7 1LP21GE 1 TIME LED lights up The forward loop cable is broken The forward loop s transmission side and reception side cables are not connected 2 DA
230. t entry monitor from the menu bar Selectable at batch monitoring only 2 Display screen amp Device Monitor Utility Tx Menu Setting Device Write DataFormat Option Help 0000 0001 0002 W 0003 Www 0004 0005 W 0006 W 0007 0008 0009 000A 000 000C 000D 000E OOOF z3 oo olm g oloo oloa r 51 MELSECNETMO JH 1 slot j Data Format The Channel Information in the Current Display Network No 0 Stetion No 255 Mena DEC 16bit Refer to Section 9 3 9 on how to change the display form Refer to Section 9 3 4 on how to set the network 3 Data format Shows the display form and device types being displayed word device and bit device Refer to Section 9 3 5 on how to change the device type And refer to Section 9 3 9 on how to change the display form TILITY OPERATION idi Z MELSEC 9 3 4 Setting the monitoring destination Sets the network to be used for device monitoring Set the destination when starting the device monitor utility 1 Selecting the menu Select Setting Network Setting from the menu bar 2 Dialog box Network Setting x Channel 54 MELSECNET O H 1 slot r Network Setting C OwnSta Other Sta Network No ay Sta No D channel set the channel to be used Network Setting Set the own and other stations along wit
231. tatus SW1FC to SW1FF Control or Standby of each station Control system 1 Standby system Each bit corresponds to each station status 1 Stations in other than the redundant CPU system configuration are OFF 4 FUNCTION MELSEC 4 3 Driver WDT function Driver WDT function monitors the operation of the software operating system driver inside the hardware by the timer function on MELSECNET H board When the driver cannot reset the timer of the board within the specified driver WDT monitoring time MELSECNET board detects driver WDT error Driver WDT function detects driver operation delay due to the access error from the driver to MELSECNET H board or system high load 1 Driver WDT settings For the setting method refer to section 9 2 11 The driver WDT function is set to invalid as a default 2 When the driver WDT error has occurred The following shows the operation when driver WDT error has occurred 1 MELSECNET H board and the driver stop communication and are disconnected from the network in order to avoid an erroneous output A CPU stop error occurs when checking the MELSECNET H board from other station on which the driver WDT error has occurred 2 RUN LED flicks and SD LED turns ON on the MELSECNET H board 3 28158 9202H Driver WDT error occurs when accessing MELSECNET H board from the application program in which the MELSECNET H utility and MELSEC data link library function are used 1 When the m
232. th 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 manufacture of the machinery must determine the testing method for compliance and declare conformity to the EMC Directive 5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC 5 1 1 EMC Directive related standards The standards applicable to the EMC Directive are listed below All test items were tested by installing each device on a personal computer bearing a CE certification logo 1 Emission requirements 30M 230MHz QP 40dB V m 10m in measurement range 230M 1000MHz QP 47dB V m 10m in measurement range CISPR16 2 3 The electromagnetic wave which the product emits to the EN61131 2 external space is measured 2007 Radiated emission 1 CISPR16 2 1 The noise level which the CISPR16 1 2 product emits to the power line Conducted emission measured 0 15 to 0 5MHz QP 79dB Mean 66dB 2 0 5 to 30MHz 73dB Mean 60dB 1 The tests were conducted installed in a control panel x2 QP Quasi peak value Mean Average value 2 Immunity requirements Standard Test description Value specified in standard EN61000 4 2 An electrostatic discharge is Electrostatic discharge applied to the enclosure of the immunity 1 equipment EN61000 4 3 80
233. the network module was 2 Fig 1 detected route switching may have been executed Since an other system fault occurred route switching may BELTE been executed Since an other system fault occurred or a system switching ON Either one is other than O request from the network module was detected route switching may have been executed App 4 1 Even if SM1600 is ON route switching does not occur when the CPU is not accessed via the tracking cable x2 When using SM1600 501590 and 501690 to estimate whether route switching has occurred or not for the Redundant CPU connected to MELSECNET H check the following items in the redundant setting of the network parameter dialog box of GX Developer e Issue a system switching request at disconnection detection Issue a system switching request at communication error Check the following based on the statuses of the above special relay and special registers and remove the error cause e Check the Redundant CPU for an error e Check the tracking cable status and whether the tracking cable is correctly connected e Check the relevant network module for an error and the network where the relevant network module is connected for an error App 4 APPENDIX MELSEC 2 Examples of access by route switching The following shows examples of route switching during access to the control system When system switching occurs at communication error Personal computer
234. ties shown below are registered in the Start of Windows 1 Start screen All apps or Start All Programs Utility name MELSECNET H Utility Utility to setting board and displaying status MELSEC Device Mentoruny Y to monitoring devices and changing the Device Monitor Device vontoruwiy devi i evice value b MELSEC Data Link Library When the installation is completed normally the manual of MELSEC data link library is registered in the Start of Windows MELSEC data link library is used for the following software packages in common When the utilities are installed on the same personal computer the newer MELSEC data link library of the software package is enabled In order to view the manuals Adobe Reader is required Adobe Reader can be downloaded from the Adobe Systems Incorporated web site When using 64 bit version operating system the icon may not be displayed even when Adobe Reader is installed 8 INSTALLING AND UNINSTALLING SOFTWARE PACKAGE MELSEC Software package SWODNC NETH B 22Y or earlier MELSEC Data Link Function HELP 23Z or later MELSEC Data Link Library Reference Manual SW1DNC CCBD2 B 1 10L or earlier MELSEC Data Link Function HELP 1 11M or later MELSEC Data Link Library Reference Manual SW1DNC NETG B 1 11M or earlier MELSEC Data Link Function HELP 1 12N or later MELSEC Data Link Library Reference Manual 1 00A MELSEC Data Link Library Programmer s Reference S
235. tility The following explains how to set and operate the device monitor utility In the device monitor utility SB Link special relay and SW Link special register are indicated as SM and SD respectively 9 3 1 Overview 1 Overview Device monitor utility is a utility to monitor devices and change current values 2 Operation procedure The following explains how to operate the device monitor utility Select Setting Network setting from the menu bar and set the channel to be used ipte cen Refer to Section 9 3 4 Set the device to be monitored Refer to Section 9 3 5 Change the monitoring method device value or display Refer to Section 9 3 2 9 3 3 format as necessary 9 3 6 9 3 11 3 List of the functions The following explains the functions of the device monitor utility Batch monitor Batch monitors one type of devices Section 9 3 2 l Monitors multiple devices simultaneously in units of 16 16 point register monitor m Section 9 3 3 points Exits the device monitor utility Section 9 1 2 Sets a programmable controller CPU or board to be Network Setting Section 9 3 4 Setting monitored Device setting Set devices to be monitored Section 9 3 5 Data changing Changes word device values Section 9 3 6 i Continuous Change in Data Changes sequenced word devices to a same value Section 9 3 7 Device Write Bit device set Turns bit devices ON Tums bit devies ON Sec
236. tion Be sure to fix communication cables connecting to the board by placing them in the duct or clamping them Cables not placed in the duct or without clamping may be hang freely and accidentally pulled which may cause damage to the board or cable or malfunction due to bad cable contacts e When removing the cable from the board do not pull the cable Pulling the cable that is still connected to the board may cause damage to the board or cable or malfunction due to bad cable contacts e Prevent foreign matter such as chips or wiring debris from getting on the board Failure to do so can result in fire breakdowns or malfunction Verify the rated voltage and pin assignment of the product and connect the external power supply cable properly Connecting a power supply with a different voltage rating imperfect cable crimping or faulty wiring may cause a fire or failure e Use a specified tool for crimping of the cable and contacting pin Imperfect crimping may cause malfunction Verify the pin assignment and fully insert the crimped contacting pin into the connector Imperfect insertion may cause failure or malfunction e Insert the wired external power supply cable into the external power supply cable connector until a click is heard Imperfect insertion may cause failure or malfunction e Keep the external power supply cable away from the main circuit cable power cables and or load cables connected to other than programmable contro
237. tion 9 3 8 Bit device reset Turns bit devices OFF Changes a display format of word devices j Data Format Section 9 3 9 Changes a display format of bit devices Numerical Pad Enables disables the setting to use the numerical pad Section 9 3 10 Displays the help screen Displays the version information e TILITY OPERATION idi Z MELSEC 9 3 2 Setting as batch monitoring Monitors only one device that has been specified 1 Selecting the menu Select Menu Batch monitoring from the menu bar Selectable for 16 point entry monitor only 2 Display screen Device Monitor Utility Menu Setting Device Write DataFormat Option Help ST MELSECNET 1O JH 1 slot r Data Format The Channel Information in the Current Display Bit device Vertical indication Network No 0 Station 255 Refer to Section 9 3 9 on how to change the display form Refer to Section 9 3 4 on how to set the network 3 Data format Shows the display form and device types being displayed word device and bit device Refer to Section 9 3 5 on how to change the device type And refer to Section 9 3 9 on how to change the display form TILITY OPERATION iis _ nis MELSEC 9 3 3 Setting as 16 point entry monitor Monitors up to five bit devices and one word device simultaneously 1 Selecting the menu Select Menu 16 poin
238. ts the transient transmission Designate the network number 3 of the Transfer to the relay station 1Ns4 and the relay network number 1 to the relay station 2 Setting for 1Ns4 that functions as a bridge Designate the network number 3 of the Transfer to the relay station 2Ns4 and the relay network number 2 to the relay station It is not necessary to set the return route because it is designated in the setting for 2Ns4 12 13 12 APPLICATION FUNCTIONS MELSEC 3 Setting for 2Ns4 that function as a bridge It is not necessary to set the routing to the Transfer to because the host is on the same network as the destination transfer 3 However it is necessary to set the Transfer from network number 1 as the Transfer to network number to designate the relay station 2Mp1 and the relay network number 2 to the relay station in order to trace a route back to the request source Routing parameter setting Transfer The setting is required t Intermediate Intermediate network No station No only for the transfer to network No network No 3 3 1 4 Request source we Network No 1 rL 1Ns6 1Ns5 1Ns4 2MP1 Routing parameter setting 1Mp1 1Ns2 3Ns2 Network No 3 ERES 2Ns4 3Ns5 3Ns4 3Ns3 Request X destination Routing parameter setting Network No 2 2Ns2 2Ns3 Transfer intermediate Intermediate Tr
239. ts up Reverse loop broken line check error 4 Corrective action when the test completes abnormally Replace the MELSECNET H board 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 6 5 4 Station to station test In the station to station test the hardware of the MELSECNET H board network modules and cables between two adjacent stations can be checked The following explains how to conduct the station to station test This section explains concerning the MELSECNET H board Refer to the following manuals concerning network module settings Q corresponding MELSECNET H Network System Reference Manual PLC to PLC network QnA Q4AR Corresponding MELSECNET 10 Network System Reference Manual 1 Connecting the cable a Optical loop system Connect IN and OUT of network modules Q80BD J71LP21 25 Q81BD J71LP21 25 Q80BD J71LP21S 25 Q80BD J71LP21G or Q80BD J71LP21GE with an optical fiber cable Station to execute test Station to be tested Optical fiber cable b Coaxial bus system Connect network modules or Q80BD J71BR11 with a coaxial cable Station to execute test Station to be tested Station No n Station No n 1 Side Side Coaxial cable Terminal Terminal resistor resistor 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC Before conducting the station to station test when three or more stations are connected by the coaxial bus
240. twork System Reference Manual PLC to PLC network Link special relays and registers Link special UR Signal status Description relaylregister Indicates the communication status between MELSECNET H board and personal computer Shows the baton pass execution status of the The baton pass is The baton pass is Abnormal host being executed stopped SB49 Shows the cyclic transmission status of the host Shows the baton pass execution status of all j The baton pass is Occurrence of stations including the host However it only SB70 being executed on communication shows the status for the number of stations set all stations stop station with parameters Shows the baton pass execution status of each station The baton pass is The baton pass is SW70 to 73 Each bit corresponds to the status of each being executed stopped station Shows the cyclic transmission status of all SB74 stations including the host However it only All stations Occurrence of shows the status for the number of stations set normal abnormal station with parameters Shows the cyclic transmission status of each sw74to77 812007 Abnormal Each bit corresponds to the status of each station Shows the low speed cyclic transmission status SB7A 7B The transmission completion is indicated by the on off status of either bit SB7A or 7B A Low speed cyclic interval Shows the redundant CPU system s
241. ty contact and cable disconnection or damage the Q80BD J7 1BR11 e n the coaxial bus type network system be sure to connect terminal resistors in both end terminals in the network f There is a possibility that of a white oxidation product forming on the type F connector due to the use environment but it does not occur on the portions that are fitted together so functionally there will be no problem g When attaching or detaching the coaxial cable to from the module make sure to power off the personal computer 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 2 Cable connection a Connection method Connect the coaxial cable as shown below Always install a terminal resistor sold separately AGRCON R75 to the stations connected at both ends The F type connector comes with the Q80BD J71BR11 1 Without a repeater module Normal station Normal station Station No 2 Station No n n lt 32 Control station QJ71BR11 QJ71BR11 Station No 1 Personal computer F type connector F type connector F type connector Terminal resistor Terminal resistor A6RCON R75 Coaxial cable A6RCON R75 sold separately sold separately 2 With a repeater module series connection Normal station Normal station Normal station Control station Station No 2 Station No 3 Station No n nz32 Station No 1 QJ71BR11 QJ71BR11 Personal computer F type connector F type conn
242. uantity 11782883 St Contacting pin 175218 2 AWG 20 16 3 1 spare Cable Use an external power supply cable with heat resistant vinyl sheath of 0 50 to 1 25mm AWG 20 16 c Tool Be sure to use the following specified tool Applicable cable size 91558 1 AW G 20 16 Tyco Electronics 6 PROCEDURE AND SETTINGS UP TO THE POINT OF OPERATION MELSEC 3 Making external power supply cable Make an external power supply cable as follows a Crimping to the contacting pin Using a crimping tool crimp the cable and contacting pin Set the contacting pin and cable in the grooves of the crimping tool and squeeze the handle tightly For details refer to the instructions of the crimping tool Check the crimped condition Check if the cable including a part of the sheath is evenly crimped to the contacting pin If only wire part is crimped and not the sheath part or if the cable is stuck out the cable can be cut off or malfunction may occur Contacting pin Cable Connecting to the connector Connector According to the following pin assignment fully insert the crimped cable to the connector until a click is heard Contacting pin Connecting external power supply cable to board Properly insert the completed external power supply cable to the external power supply cable connector of the Q80BD J71LP21S 25 until a click is heard Keep the external power supply cable away from the main circuit cable
243. uble clicked the same operation can be performed Select the line to change then when the button is clicked the data which are set can be Delete button deleted Button Initializes the contents of all the X and Y settings registered in the Common parameter setting screen Setting Clear Setting Clear Clear TILITY OPERATION di Z MELSEC 3 Reserved station setting screen Bw setting XY setting Reserved station setting Supplementary setting r Channel 51 MELSECNET H 1 slot Sta Mo Sta No Sta No Sta No Sta No Sta No Sta No Sta No DATES i 49 sr EXE ig Ie 26 34 42 sor ser 3 fie 19 ey E 35 437 5 T sar 4 M i r aur IE gp 36 GET 60 B dr Te E e E 29 ar ar 53 ia em Ip 30 r 46 er E iE ger a a E 39 47 7 55 7 63 16 1 aU m 8g pi ar ar 56 64 7 r Explanation Setting Status Reserved Station Specified Reserved Station Not Specified Channel Selects the channel MELSECNET H board performing the settings Sta N This sets reserve stations If a check mark is placed in the check box that station is set as a reserve station TILITY OPERATION di Z MELSEC 4 Supplementary setting screen Bw setting XY setting Reserved station setting Supplementary setting p Channel 51 MELSECNET H 1 slot Constant Scan ms m Spec
244. ultiple applications in which MELSEC data link library is used are executed driver WDT error is returned to all the programs However only the MELSECNET H board in which the driver WDT error has occurred is recognized as an error station on the network When using driver WDT function set the monitoring timer considering the margin of the personal computer load 2 For the troubleshooting refer to section 14 7 2 4 FUNCTION MELSEC MEMO 5 EMC AND LOW VOLTAGE DIRECTIVE MELSEC 5 EMC AND LOW VOLTAGE DIRECTIVE Compliance with the EMC Directive which is one of the EU directives has been mandatory for the products sold within EU member states since 1996 as well as compliance with the Low Voltage Directive since 1997 To prove the compliance manufactures must issue an EC Declaration of Conformity and the products must bear a CE marking 1 Sales representative in EU member states The authorized representative in EU member states will be Company name Mitsubishi Electric Europe BV Address Gothaer Strasse 8 40880 Ratingen Germany 5 1 Measures to comply with the EMC Directive The EMC Directive sets two requirements for compliance emission conducted and radiated electromagnetic energy emitted by a product and immunity the ability of a product to not be influenced by externally generated electromagnetic energy This section summarizes the precautions for machinery constructed with the MELSECNET H board to comply wi
245. urrence does not matter However following corrective actions are required if the count value raises frequently during operation 1 Confirm the power ON OFF statuses of the host station and other station 2 3 4 5 Wire the cable again with reference to the network module manual and MELSECNET H board manual In addition Check the cable and connector connector disconnection loose connection cable breakage cable length etc Conduct self loopback test internal self loopback test and hardware test Conduct station to station test and forward reverse loop test install the devices again with reference to the user s manual for the CPU module TILITY OPERATION ii Z MELSEC 9 2 9 Memory I O Test screen operation This operation diagnoses between the MELSECNET H board and personal computer 1 If you are starting the diagnosis do so after disconnecting the external cables 2 If you desire to switch screens during the diagnosis click the button switching screens after stopping the diagnosis Board list Board information Loop monitor Each sta status history monitor Memory 1 0 Test Target 4 r Channel S MELSECNET H 1 slot Diagnosis Address Count Port Memory F5380000 lt gt F539FFFFH 11 140 Port lt gt 11 Status Mormal Board Reset Channel the channel MELSECNET H board perform the memory I O diagn
246. ut Operation stop disconnecting the station is selected Handshake and data communications with other stations is not done The connection state with the forward loop side s optical fiber cable is checked The Forward loop test hardware test operation is selected For details refer to section 6 5 5 Forward loop Reverse loop test The connection state with the reverse loop side s optical fiber cable is checked The Reverse loop test hardware test operation is selected For details refer to section 6 5 5 Forward loop Reverse loop test __ Selects the control station side for performing the hardware test for checking the lines Test between master station between two stations For details refer to section 6 5 4 Station to station test Selects the normal station side for performing the hardware test for checking the lines between two stations For details refer to section 6 5 4 Station to station test Selects a hardware test of the MELSECNET H board itself with the connection cables Test between slave station Self loopback test RAPERE For details refer to section 6 5 1 Self loopback test For details refer to section 6 5 2 Internal self loopback test For details refer to section 6 5 3 H W test 7 PARAMETER SETTIN MELSEC 7 2 6 Parameter setting example An example of setting the MELSECNET H board parameters is shown below 1 System example Control Station 1Mp1 Port N
247. xe Program name NETHUTL exe l Unidentified Publisher Publisher Unknown File origin Hard drive on this computer Cancel I don t know where this program is from or what it s for Show details l Yes No gt Allow ust this prograi know where it s from or I ve used it before Itrust this program I know where it s from or I ve used it before Charioe when M Details User Account Control helps stop unauthorized changes to your computer App 14 App 14 APPENDIX MELSEC Appendix 8 2 Methods for preventing the warning message The user account control UAC function prevents a crash e g prevention of start up of a program which executes unintended operation Before setting this function grasp that the security function offered by UAC will be disabled and fully understand the risk The following two methods are available for preventing a warning message 1 Disabling the user account control function The following shows a procedure for disabling the user account control function a Using Windows Vista Windows Server 2008 Windows Server 2008 R2 Qm AA _ 1 Open the Control Panel Internet Explorer E mail Windows Mail Documents Welcome Center Pictures e UA Backup Status and Configuration se a Windows Media Player Music Search AOs Small Business Resources Bez Windows Fax and Scan Windows Meeting Space zg Windows Photo
248. xecuted Switched to Displays the data link status after a loop switch TILITY OPERATION i 2 MELSEC Displays the error code occurring when transient transmission was executed at the host Transient Transmission Error Displays the code of the error occurring due to transient transmission Error type Displays the type of the error occurring due to transient transmission Displays the number of error occurrences Loop Switching Displays the number of loop switch loopback Transient Displays the number of error occurrence due to transient Transmission transmission Displays the number of retries retry at communication error Link Trouble Displays the number of line error occurrence PT Displays the number of UNDER errors Displays the number of CRC errors SA Displays the number of OVER errors Displays the number of short frame data Short Frame Communication message is too short errors Error Displays the number of AB IF errors Displays the number of Time Out errors Exceeding 2 kb Displays the number of Exceeding 2Kb errors Displays the number of DPLL Cannot Error Count 1 DPLL Error identify data normally due to synchronization modulation errors TILITY OPERATION idi Z MELSEC 1 The following explains the error causes and the corresponding corrective actions In addition to Error history monitor screen they can be confirmed using the following link special registe
249. y considering the entire system When multiple network systems are connected with the routing function the request source can send requests to destinations in up to eight network systems the maximum number of relay stations is seven stations 12 17 12 17 12 APPLICATION FUNCTIONS MELSEC 4 Calculation of transmission delay time The processing time of the transient transmission instruction to access a station on other network in a multiple network system can be obtained by adding the following transmission delay factors Routing transmission delay time processing time from request source to relay station processing time from relay station to request destination a Processing time from request source to relay station This is the transmission delay time from the request source the station that executed the instruction to the relay station that performs the routing In the following example it is the time required for the data to be transmitted from station 1MP1 to station 1Ns3 Refer to Q Corresponding MELSECNET H Network System Reference Manual PLC to PLC network for the calculation of translation of delay time b Processing time from relay station to request destination This is the transmission delay time from the relay station to the request destination the station accessed with the instruction In the following example it is the time required for the data to be transmitted from station 2MP1 to station
250. y certain cyclic transmission timing a Link Refresh Interval Link refresh is performed at intervals of the specified value multiplied by link scan time The load of the link refresh processing by the MELSECNET H driver on the PC decrease in inverse proportion to this value The specified interval value changes the delay time which is duration from when link device data arrive at the refresh data storage area on the MELSECNET H board until they are read out into the user program Refer to POINT 9 UTILITY OPERATIONS MELSEC 1 Relation between link refresh interval value and delay time in data reading The maximum delay time Tomax from when link device data arrive at the refresh data storage area on the MELSECNET H board until they are read out into the user program can be obtained from the following formula Maximum delay time Tomax n 1 x TLs Tur Interval for reading link device data from user program n Specified interval value Tis Link scan time The following shows an example of accessing under conditions Tup 100ms n 3 Tis 120ms The maximum delay time Tomax is Tomax 100ms 3 1 x 10ms 120ms Tomax User program 100 Read timing gt Y_i MELSECNET H driver buffer Refresh data storage area LBO T a n 1 T s 20ms Link refresh When 3 Link scan Tis 10ms TILITY OPERATION idi Z MELSEC 9 3 Device Monitor U
251. ys the current value for the Driver WDT Monitoring Time and inputs the setting value 1 to 32767 Enables the setting contents Button os Ste The channel No settings are reassigned after the button is clicked Default Value Button Returns the set contents to the default values 9 UTILITY OPERATIONS MELSEC 1 Link Device Access Method Link Refresh Direct Access Makes access to the MELSECNET H driver buffer Data in the MELSECNET H driver buffer and the refresh data storage area on the MELSECNET H board are updated by link refresh When secured data handling is specified with the control station parameter data consistency 1 of link device data is ensured Personal computer MELSECNET H board Reading I 1 User MELSECNET H Refresh data program i drive buffer storage area Link refresh L h Writing Provided for MELSECNET 10 compatibility Makes access to the refresh data storage area on the MELSECNET H board Data consistency 1 of link device data is not ensured even if secured data handling is specified with the control station parameter Personal computer MELSECNET H board Reading User Refresh data program storage area Writing 1 Data consistency function prevents 2 word 32 bits link data e g current value of a positioning module from being divided into two 1 word 16bits data old and new data b
Download Pdf Manuals
Related Search