Rnet I/F Module User`s Manual
Contents
1. Chapter 6 Remote Communication Control 6 1 Introduction This function is for programming download of user program program debugging monitoring etc in the network system where PLCs are connected with XGT communication module by remote control without moving the physical connection status of program tool XG5000 XG PD Especially it is convenient for easy access to each PLC from a place without repositioning when network connected devices are separated far Communication service function creates the following path to attain its purpose G3L RREA PLC A oc PLC B Hnet Fig 6 1 1 Remote connection network A network is supposed where RS 232C cable is connected with G3L RREA module PLC A with the master and PLC C with Rnet remote I F module each other in the program tool XG5000 XG PD of the computer In order to access the contents of PLC A station in the figure above select the station no of PLC A s communication module destination station no to connect and the slot no of G3L RREA slot no 0 where RREA s communication module presently connected is installed to remote connect with RS 232C via Rnet with remote 1 connection of the program tool This status as processed identically to connection with RS 232C cable as moved to PLC A station is available to execute all functions of programming download debugging and monitoring With this remote communication service easy access to PLC position in the distance is a2. ig Savearea JA device to transmit data from slave to master module in information HsState ied of communication status between master and slave RUN Normal communication status between master and slave module Module type JJ U UJ D Q jab Q m c o p D N o e 5 N O D D s Q HsMode STOP Abnormal communication status between master and slave module Transmission reception information between master and slave HsTrx module Error is displayed while High speed link data is processed Chapter 5 High speed Link Setting 3 Auto scan Menu Screen configuration and description Standard information Additional information Status information Base no p Master st 0 Module Status OFFLINE 1 Speed 125 Kbe HS link status HS_IDLE Auto scan Mu iple Reading Restart e Communication status of the slave module is displayed as shown below 1 Connected communication 2 Disconnected communication IL But it is not shown about GRL TR4A which was produced before dated 2007 year during auto scan 9 15 Chapter 5 High speed Link Setting 5 6 High speed Link Information High speed link swaps the data among master module and all slave modules It provides the flag of High speed link operation status classified by individual station or total station It is useful when checking the reliability of Transmission Reception data and finding cause of error Flag kinds and usage
3. Loader I F module GOL GWRA 47060038 ree ka A One for one system 1 3 Chapter 1 Overview 1 3 2 The number of equip able modules per CPU The maximum installation number of modules is 12 regardless of base type basic base and extension For maximum performance of communication module it is recommended to equip the module on basic base The following table indicates available service type per each CPU After due consideration of the number of communication modules apply to the system configuration No of module using High 12 Speed Link Max No of module using P2P poPllam kusdo Max No of Module using a dedicated service Max Dedicated service is not used 1 Optic signal distributor is called as Active Coupler 2 As 8 GOL FACAs can be installed on the optic signal distributor 3 GOL FADAs dummy module are needed more if 5 GOL FACAs have been installed 1 4 Chapter 2 Specifications Chapter 2 Specifications 2 1 General Specifications General specifications of XGT series are as shown in Table 2 1 No Specification Related specifications Operating nee Storage mx pound 5 95 eRH Non condensing humidity Storage Wu humidity 9 95 eRH Non condensing For discontinuous vibration 10 f 57 Hz 0 075 mm 57 lt f lt 150 Hz 9 8m s 1G 5 Vibration l For continuous vibration ETT a 10 f lt 57 Hz C a 0 035 mm IEC 61131 2
4. 4 Cable connection part On Normali 0 00000 Of l Serious defect Contact Customer Service Center Hs Blinks Check slave modules when Onnuri Li GRL TR4A it occurs automatically on f Normal communieaton C or Check High speed irk parameters 7777 On Nomai 0 Of CheckHighspeedlnkparameters j j G e Normali 0 Of Master module Contact Customer Service Center 2 3 Chapter 2 Specifications 2 Cable connection part Cable specifications LS cables Designations AM Structure 9 2 0 64mm 22AWG Cable type Shielded twisted pair Conductor Conductor resistance 590 km normal temperature Insulated 500 V Min normal temperature 1204120 10 MHz 2 Cable connection a Connection with Smart I O D sub XGL RMEA Smart I O D Sub 9pin TRX14 TRX2 TX1 TX2 KI TRX1 TRX2 RX1 RX2 Smart I O D Sub 9Pin b Smart I O 5 pin T Q 7 OOOOO OOOO 0 TRX14 TRX2 Red TRX TRX1 TRX2 White TRX Colorless SG Smart I O 5Pin 2 4 Chapter 2 Specifications 2 4 Terminal resistance Be sure to install the terminal resistance on the both ends of the line Connect Smart I O Rnet with TX1 and RX1 and Rnet I F module with TRX2 and TRX2 e Resistance value 110Q 1 2W allowance 5 e Contact between connector case and terminal resistance is not allowed
5. Description GRL TR2A TR2A N Module type GRL RY2A RY2A N 6 DC input 16 points output 16points GRL DT4A DT4A N 7 GM3 GM4 GM6 PMU GM3 4 6L RREA PMU Station type Auto setting when module type is set Auto setting when module type is set Station No Slave station number range 0 63 XGK Head address of transmitting device Read area Usable device P M K F T C U Z L N D R ZR Address Master module XGI Head address of transmitting device gt Usable device A M I Q R W F K L N U Slave module Input Output point of slave module is displayed in Byte If input module point is less than 8 bit it is dealt with 1 Byte XGK Head address of receiving device Save area kades Usable device P M K F T C U Z L N D R ZR Slave module XGI Head address of transmitting device gt Usable device A M Q R W F K L N U Master module Size Byte Input Output point of slave module is displayed in Byte If input module point is less than 8 bit it is dealt with 1 Byte The priority order of data is the slave module which has lowest station number Remark Unit of address setting is Word But slave module s unit size is Byte Less than 8 point module is processed by 1 Word when address is specified 9 10 Chapter 5 High speed Link Setting 3 How to use High speed link block editing tool The editing tool and usage of High speed link block is as shown below E Module type E Mode E
6. MW8 GRL D24A 2 DC input 32p 7 GM3 GM4 GM6 MW2 QWO 0 0 PMU PMU n MW200 high speed link block Station Read Save Module type Mode no area area A i 7 QWO0 0 0 MW500 G4L RREA 7 GM3 GM4 GM6 2 Receive Write parameter standard settings HS link P2P IM Rnet OE Standard settings VIE High speed Link E P2P Writing the high speed Online gt Writing the parameter writing after checking applicable to link high speed link parameter Enable Link HS Link P2P IM Rnet IE High speed Link mie High speed Link Ol C High speed Link 02 je High speed Link 03 amp 9 High speed Link 04 amp 9 High speed Link 05 amp 9 High speed Link 06 amp 9 High speed Link 07 Q High speed Link 08 amp 9 High speed Link 09 Je High speed Link 10 High speed High speed Link 11 amp High speed Link 12 1 qe ma link enable lez P2P DI rez P2P 02 lez P2P 03 Online gt Link enable enabling applicable to high speed link ez PFP 04 HS P2P 05 FS PP 06 HS P2P 07 ez P2P 08 I Setting procedure of High speed link parameter Chapter 7 Program Example The parameter setting result is as follow amp XG PD High speed Link Block settings High speed Link 01 fs File Edit View Online Tools Window Help DSW o A BEX Project window x E Sending ae em Rnet XGI CPLUU Station i Module t Read dat t mi High speed Link 01 BOSO Anet ine we n numbe
7. connection setting Read Write data size in PLC run mode XG p D ONormal Maximum Send maximum data size in stop mode XG PD connection XG PD gt Online gt Connection Online Tools Window Disconnect Read I O information XG PD 2 Online gt Read I O information FA Read l0 Information Project window ez Rnet XGK CPUH amp High speed Link DI amp High speed Link 02 amp High speed Link 03 amp High speed Link 04 i 2 High speed Link 05 Setting high amp High speed Link 06 l High speed Link 07 speed link setting the high speed link in XG PD screen High speed Link 08 amp High speed Link 09 I amp High speed Link 10 project High speed Link 11 amp High speed Link 12 Standa El High 1P2P Communication Module Settings Communication module settings EE v Base Number 0D Module type Slot Number 0 Setting the Setting the Module type base no slot no and period type as selecting Communication period settings jet as 2 meoc communication and double click one among High speed Link 01 High speed Link Qutput data setup in case of emergency modu le 1 2 CPU error O Latch Clear CPU stop O Latch Clear Chapter 7 Program Example e GRL TR4A 4 TR output 32p Send D00103 etun e 9 GRL D24A 2 DC input 32p D00304 high speed l 7 GM3 GM4 GM6 link block D00100 P0000 PMU G4L RREA 7 GM3 GM4 GM6 PII 2
8. Clear the output Station type Slave Receive Data is transmitted from slave module to master module Slave station number Range 0 63 It is not used with Rnet I F module XGK Head address of the sending device Usable device P M K F T C U Z L N D R ZR Read area Address High speed XGK Head address of the sending device link Wom Nester e SE gable device AMLO B WEEE KOLNEU Slave module l UD block setting Size Input Output point of slave module is displayed Byte Byte If input module point is less than 8 bit it is processed 1 Byte Head address of the receiving device Usable device P M K F T C U Z L N D R ZR A 2 to G XGI XGR Head address of the receiving device Usable device A M I Q R W F K L N U Master module Size Input Output point of slave module is displayed in Byte Byte If input module point is less than 8 bit it is dealt with 1 Byte PLC connection RS 232C or USB Port of CPU module Control condition It can control regardless of position of Run mode switch Run Stop of CPU module Max communication point 60480 points 63 blocks 120 bytes Max block number 63 Setting Range 0 62 Max point per block 120 bytes 960 points Number of High speed link 12 setting o gt When High speed link is edited parameter has to download again gt High speed link is used per a communication module CPU module saves the written
9. It means High speed link number The selected number is number only displayed in List Block index It is index number of High speed link block 5 16 Chapter 5 High speed Link Setting Monitoring of flag and device s value is as shown below Setting sequence How to use XG5000 gt Project window gt gt Variable Comment kl Variable Comment v wiew variable view Device D View Flag Flag kind Select list High speed li Al Parameter number jo Block index jo B a o AA LOOOOOO Al stations are OK in HS link 1 EM BIT Trouble after H8 1 RLINKon 51_8STATEOOO BIT Total states af HS link 1 block OOO MODOODO BIT iio ji i B Operation mode of HS link 1 block ODO IRXODO BIT LOOO1 BO Normal communication with HS link 1 black OOO ERROOO BIT Error mode af HS link 1 hlock DUC _SETBLOC BIT T i i 340 Setting of HS link 1 block OOO H H HS HS HS H e ea XG5000 gt View gt Variable Monitoring Window me We ome vae vane ome poene fer ew lm QQeLRM anse nS MewPLC Lonn1an HS1 TRX DO Normal communication with HS link 1 black 000 B NewPLC LOOOZEO HS1 ERRODO Error mode of HS link 1 block OOO NewPLC LD00340 _HS1_SETBLOCK Setting of HS link 1 block 000 Select variable in Variable Comment screen and then Drag Drop the variable to Variable Monitoring Window The value is appeared in variable Monitoring Window 9 17 Chapter 6 Remote Communication Control
10. TX1 RX1 TX2 RX2 g e 9 da TT E E we GET IN TART Terminal resistance ne qu li Terminal for cable connection Rnet I F connection area ET Smart I O connection area Fig 2 4 1 Connection of terminal resistance 2 5 Chapter 3 Installation and Test Operation of the Product Chapter 3 Installation and Test Operation of the Product 3 1 Precautions for Installation 3 1 1 Precautions for installation For system configuration through Rnet I F module carefully make sure of the following items prior to installation 1 Check the basic factors for necessity of configuring the system and select an appropriate communication module 2 Select the cable to be used for this communication module surely use the standard cable 3 Before the communication module is installed check with any foreign material on the base connector the module will be installed on and any damage on the connector pin of the module 4 For installation of the module exactly insert the protuberant part at the bottom of the module with the communication cable disconnected into the base groove and then apply enough strength until its top is locked up with the locking device of the base If the lock is not applied it may cause an error on the interface with CPU Chapter 3 Installation and Test Operation of the Product 3 2 From Setting to Operation The sequence of the product from installation to operation will be descri
11. 20 654 1420 Fax 31 0 20 654 1429 e mail junshickp Olsis biz Tel 971 4 886 5360 Fax 971 4 886 5361 e mail jungyongl Isis biz m Wuxi LSIS Co Ltd _ Wuxi China m LSIS Shanghai Office Shanghai China Address 102 A National High amp New Tech Industrial Development Area Address Room E G 12FL Hiamin Empire Plaza No 726 West Wuxi Jiangsu 214028 P R China Yan an Road Shanghai 200050 P R China e mail liyong Elsis com cn Tel 86 510 8534 6666 Fax 86 510 8534 4078 e mail caidx lsis com cn Tel 86 21 5237 9977 609 Fax 89 21 5237 7189 m Dalian LSIS Co Ltd _ Dalian China m LSIS Beijing Office Beijing China Address No 15 Liaohexi 3 Road Economic and Technical Development zone Address B Tower 17FL Beijing Global Trade Center B D No 36 Dalian 116600 China East BeisanHuan Road DongCheng District Beijing 100013 P R China Tel 86 411 273 7777 Fax 86 411 8730 7560 e mail cuibxOoIsis com cn Tel 86 10 5825 6027 666 Fax 86 10 5825 6028 e mail xunm Elsis com cn m LSIS Guangzhou Office Guangzhou China Address Room 1403 14FL New Poly Tower 2 Zhongshan Liu Road Guangzhou P R China Tel 86 20 8328 6754 Fax 86 20 8326 6287 e mail chenxs Elsis com cn x LSIS constantly endeavors to improve its product so that 2011 5 information in this manual is subject to change without notice c LSIS Co Ltd 2011 All Rights Reserved
12. G4L RREA s Slot no 0 MW0 MW3 and Slot no 1 MW4 MW 7 You have to set Rx size including output 4 Words module size in front of input module for receiving input data of G4L RREA If you set Save area to MW500 and Rx size to 24 byte for receiving input data of G41 A22A MW500 MW507 is to be output data area and input data of G4l A22A is saved to MW508 area 6 Chapter 7 Program Example A High speed link parameters setting It is convenient to user prepare data Tx Rx map in order to let the stations exchange data And for data Tx Rx High speed link parameters shall be prepared and downloaded onto PLC as in the sequence described below so to start High speed link Prepare data Tx Rx map Local connect XG PD software with XGT CPU On XG PD s High speed link parameters setting option set applicable parameters Write parameters on the Online menu Dac c ee P Select Link Enable setting on the Online menu to set High speed Link Enable applicable to setting number Use the diagnosis service to check High speed link status G If any error occurs during the procedures F execute again from A I Chapter 7 Program Example It is as below to setting procedure for Rnet I O system configuration example XG PD XG5000 gt Tools gt Network manager File gt New file Project name Setting the CPU kind Ex Rnet XGI CPUU Create New project Online Settings Connection settings Type RS 2
13. Receive P0000 D00300 Write parameter standard settings HS link P2P 9 Rnet CG Standard settings VIE High speed Link E P2P Writing the high speed Online Writing the parameter writing after checking applicable to link high speed link parameter Station Read Save Module type Mode no area area i 7 Enable Link HS Link P2P IM Rnet IE High speed Link mie High speed Link Ol C High speed Link 02 je High speed Link 03 amp 9 High speed Link 04 amp 9 High speed Link 05 amp 9 High speed Link 06 amp 9 High speed Link 07 Q High speed Link 08 amp 9 High speed Link 09 Je High speed Link 10 High speed High speed Link 11 amp High speed Link 12 1 qe ma link enable lez P2P DI rez P2P 02 lez P2P 03 Online gt Link enable enabling applicable to high speed link ez PFP 04 HS P2P 05 FS PP 06 HS P2P 07 ez P2P 08 I Setting procedure of High speed link parameter Chapter 7 Program Example The parameter setting result is as follow E xG PD High speed Link Black settings High speed Link DI t File Edit View Online Tools Window Help We dh Project window em Rnaeti xal CPLUH x IXEPD Messac Block High speed Link U2 High speed Link 3 High speed Link U4 High speed Link 5 High speed Link OB High speed Link U High speed Link OO High speed Link 09 High speed Link 10 High speed Link 11 High speed Link
14. SYSIEMNGIAQNO SIS A 9 13 2 0 Higlisspeed Ink IDTOT FTO OTI sas sas ssa szssasksps perse sa SS AER SSo azo sanSukrssoremanasossozk asasesaass 2 16 Chapter 6 Remote Communication Control snis a r ee e aa r o 6 1 6 2 Remote connection example of XG 5000 XG PD M 6 2 6 21 Iemole T CONNECCION Se R 6 2 Chapter 7 Program Example 7 1 XG5000 program 7 1 Appendix A 1 Terminology A 1 A 2 List of HS link flags A 2 A 3 External Dimensions A 4 Chapter 1 Overview Chapter 1 Overview 1 1 Introduction This manual of Rnet I F module is prepared to describe XGT series of dedicated remote net hereinafter referred to as Rnet I F module XGT Rnet I F module is composed of data link layer and physical layer in OSI 7 layers Rnet system controls I O data from the sensor of field level and manages the data conveniently for monitoring troubleshooting and maintenance through LS HMI of PMU unit Rnet I F module supports a speed of 1Mbps up to 64 stations including master and provides convenience of data Tx Rx for users by means of XG PD parameters setting through LS dedicated network Generally electric c
15. cause electric shock malfunctions or abnormal operation Safety Instructions Safety Instructions for wiring process Prior to wiring works make sure that every power is turned off li not electric shock or damage on the product may be caused After wiring process is done make sure that terminal covers are installed properly before its use Fail to install the cover may cause electric shocks Check rated voltages and terminal arrangements in each product prior to its wiring process Applying incorrect voltages other than rated voltages and misarrangement among terminals may cause fire or malfunctions Secure terminal screws tightly applying with specified torque li the screws get loose short circuit fire or abnormal operation may be caused Securing screws too tightly will cause damages to the module or malfunctions short circuit and dropping Be sure to earth to the ground using Class 3 wires for FG terminals which is exclusively used for PLC If the terminals not grounded correctly abnormal operation or electric shock may be Caused Don t let any foreign materials such as wiring waste inside the module while wiring which may cause fire damage on the product or abnormal operation Make sure that pressed terminals get tighten following the specified torque External connector type shall be pressed or soldered using proper equipments Safety Instructions Safety Instructions for test operation and
16. is as shown below Iran emission Operation High speed Classification Run Link Link Trouble Reception p Test erate mode link status Information Information type _ Respectively Flag name a yocp HSxERRIn HSxSTATE n x High speed link number AR MA tee n 0 63 n 0 63 Data tvpe E FI E ES E Array E Array T ue Availability Availability Availability Availability Available Availability Availability Availability Availability Availability Table Function of High speed link information The way of selecting flag is as shown below XG 5000 gt Project window Variable Comment io xi V View Variable Jew Device D view Flag vanae Twe Deme com E Setting sequence Select View Flag TV view Variable View Device View Flag Flag kind Select list p speed li Ju Al Parameter number 1 Block index o HS1_RLINK BIT LOOOOOO All stations are OK in HS link 1 HS1 LTRBL BIT LOOOOO1 Trouble after HS 1 RLINK on HS1_STATEOOO BIT LOOOO20 Total states of HS link 1 block 000 H81 TRXOOO BIT LOOO180 Normal communication with HS link 1 block 000 HSi_ERROOO BIT LOOO260 Error mode of HS link 1 block 000 H81 MODOOO BIT LOOO100 Operation mode of HS link 1 block 000 _HS51_SETBLOC BIT L000340 Setting of HS link 1 block 000 How to use Flag kind kind r among the System High speed link P2P PID AN It is showed the list of all High speed links Select list
17. maintenance Don t touch the terminal when powered Electric shock or abnormal operation may occur Prior to cleaning or tightening the terminal screws let all the external power off including PLC power If not electric shock or abnormal operation may occur Don t let the battery recharged disassembled heated short or soldered Heat explosion or ignition may cause injuries or fire Do not make modifications or disassemble each module Fire electric shock or abnormal operation may occur Prior to installing or disassembling the module let all the external power off including PLC power lf not electric shock or abnormal operation may occur Keep any wireless equipment such as walkie talkie or cell phones at least 30cm away from PLC lf not abnormal operation may be caused When making a modification on programs or using run to modify functions under PLC operations read and comprehend all contents in the manual fully Mismanagement will cause damages to products and accidents Avoid any physical impact to the battery and prevent it from dropping as well Damages to battery may cause leakage from its fluid When battery was dropped or exposed under strong impact never reuse the battery again Moreover skilled workers are needed when exchanging batteries Safety Instructions Safety Instructions for waste disposal Product or battery waste shall be processed as industrial waste The waste may discharge toxic mate
18. s Head area es Save area uz s TR output 32 points Send zw LIL input 32 points Fi MO d Screen 1 click right mouse button of a selected area High speed Edit Block Changes the edited index block Und i UNI Copy Block Copies the edited index block Redo Ctrl F C Paste Block Pastes the copied index block ut Lt Cony QC JIDelete Block Deletes the edited index block Paste Cir Delete Delete Read Save area is specified in a lump when the slave module s View tree by Transmission Aeception data size is regular Display by Tree structure View Tree By Transmission Reception Screen 1 Register index Block nu Read area Save area Size of transmis Index 4 Local Remote 4 Transmission 3 Reception SG lStation Nu m Block 1 4 ER O Station Nu A Block 1 Mw200 4 Connection period Screen 1 Click the right mouse right click button of a selected area Chapter 5 High speed Link Setting 5 4 Read and Write of High speed Link The screen is used for read write of High speed link s parameter Online menu Read parameter or Write parameter Configuration Description s an era seines HERI P 1 High speed link is available up to 12 for installed OFI ig elon Rnet I F module vjez High speed Link DI l Je High speed Link 02 It can be used up to 12 with the other P2P communication module which use High speed link 2 It can read wri
19. 12 lt NN dE stand E Highs dE P2P checking parameters Found no errors x M High speed Link 01 BUS gt x 2 EO Fel ERG SAME Index oae Ma is Read area LN Save area ILE o TR output 32 points E 1 LIL input 32 points Send Receive 2 GM3 GM4 GMB PMU Send 3 GM3 GM4 GMB PMU Receive EN EE 6 uu e Io High speed 1 Result Parameter check Used address DOO103 DOOGO4 4 DOO10OO PODOO POOOO DDOOGOO L I L As 232C OK Setting of High speed link parameter If High speed link parameters are downloaded during operation of High speed link Link enabled will be automatically disabled and then enabled after downloading is complete Chapter 7 Program Example 7 1 2 Program for XGI CPUU How to set High speed link parameters in Rnet system will be described below XGL RMEA GAL RREA station 3 GRL TRAA station 1 GRL D24A station 7 Rnet I O system configuration Station No Read area Tx size byte Rx size byte QWO0 0 0 MWO XGT 1 GAL RREA GAL RREA QW0 0 0 MW500 XGT 24 GAL RREA MW200 4 6 4 3 GRL TR4A 1 kMW8 GAL D2MA 7 Tx Rx map of High speed link Input Output configuration for G4L RREA Please change mode switch of front part of it to GM mode Slot 0 Slot 2 Slot 5 Empty size Word 2Wod iwa l In the example XGT CPU transmits 8 word MW0 MW7 data of 9e MWO area to
20. 32C Depth Local Setting T A XG PD gt Online gt Selecting applicable to connection drive in Retrial dnd BE connection of connection setting Read Write data size in PLC run mode XG p D ONormal Maximum Send maximum data size in stop mode XG PD connection XG PD gt Online gt Connection Online Tools Window Disconnect Read I O information XG PD 2 Online gt Read I O information FA Read l0 Information Project window ez Rnet XGK CPUH amp High speed Link DI amp High speed Link 02 amp High speed Link 03 amp High speed Link 04 i 2 High speed Link 05 Setting high amp High speed Link 06 l amp High speed Link 07 speed link setting the high speed link in XG PD screen High speed Link 08 amp High speed Link 09 I amp High speed Link 10 project High speed Link 11 amp High speed Link 12 Standa El High 1P2P Communication Module Settings Communication module settings EE v Base Number 0D Module type Slot Number 0 Setting the Setting the Module type base no slot no and period type as selecting Communication period settings one 20 msec communication and double click one among High speed Link 01 High speed Link Output data setup in case of emergency modu le 1 2 CPU error O Latch Clear CPU stop O Latch Clear Chapter 7 Program Example Setting the GRL TR4A 4 TR output 32p Sendo
21. 57 lt f lt 150 Hz 4 9 m s 0 5G Maximum impact acceleration 147 m s 15G Shock Authorized time 11 m s IEC 61131 2 Pulse wave Signal half wave pulse Each 3 times in X Y Z directions Square wave impulse noise 1 500V Test specification LSIS Electrostatic discharging Voltage 4kV contact discharging le 2 ien Noise x Immunity Radiated electromagnetic 27 500 MHz 10 V m Ze e Fast Class Power Digital Analog I O Transient module communication interface IEC 61131 2 burst IEC 61000 4 4 Ambient Operating height skalio O Pollution Cooling type Natural air cooling Table 2 1 General Specifications 1 IEC International Electrotechnical Commission An international nongovernmental organization which promotes internationally cooperated standardization in electric electronic fields publishes international standards and manages applicable estimation system related with 2 Pollution degree An index indicating pollution degree of the operating environment which decides insulation performance of the devices For instance Pollution degree 2 indicates the state generally that only non conductive pollution occurs However this state contains temporary conduction due to dew produced 2 1 Chapter 2 Specifications 2 2 Performance Specifications Specifications for system configuration of Rnet I F module are as described below Please refer to the table below for system configuration Specificati
22. 7 For example block information of 16 31 32 47 48 63 64 79 80 95 96 111 112 127 will be displayed in L00011 L00012 L00013 L00014 L00015 L00016 L00017 from block O to block 15 for mode information H81 MOD Thus the mode information of the block No 55 will be displayed in L000137 A 3 Appendix A 3 External Dimensions Unit mm POF06 A 4 Warranty and Environmental Policy 1 Terms of warranty LSIS provides an 18 month warranty starting from the date of production 2 Range of warranty For problems within the terms of the warranty LSIS will replace the entire PLC or repair the defective parts free of charge except for the following cases 1 Problems caused by improper conditions environment or treatment 2 Problems caused by external devices 3 Problems caused by the user remodeling or repairing the PLC 4 Problems caused by improper use of the product 5 Problems caused by circumstances where the expectations exceed that of the science and technology level when LSIS produced the product 6 Problems caused by natural disaster 3 This warranty is limited to the PLC itself only It is not valid for the system which the PLC is attached to Environmental Policy LSIS Co Ltd supports and observes the environmental policy as below Environmental Management About Disposal LSIS considers the environmental preservation as LSIS PLC unit is designed to protect the the preferentia
23. Amampkon _ Arangetheicon 1High speed Link Block settings High speed Link 01 Close All NEN Close all editing Windows Help MA Help XG PD Information Check the XG PD version information 5 6 Chapter 5 High speed Link Setting 5 3 High speed Link Editing XG PD is executed as shown below xGb5000 Edit Find Replace View Online Monitor Debug Tools Window Help Do amp M OQ BAN Pots BEX EX EA MA Mun Uu IO Go 3 o SK i EB B C3 E o9 a UM ed E ess HOCH B SPS Fs Project Window HiH PO ch 1 Bc ed g AhHMPHERA Sale Items E Project A Monitor 44 gt DU Result Check Program Find Variable Monitoring x Standard window The parameter in XG PD is as shown below Basic setting High speed link ES Project window ws am window Project window x Project window Project window B met flagixGl CPUL em met flag XGI CPUU em rnet flag XGI CPUU i Base00 Default High speed Link 01 BOSO Rnet P2P 01 BOS3 Cnet tim QO Hi 2 i 03 A 05 OB D 8 09 10 11 MM Basell E Base02 Default a BaseO3 Default 4 Base 4 Default Base05 Default T Base Default 4 Basef Default Rnet Analog Input Module x Analog Output Module Cnet Empty slot Empty slot Empty slot Empty slot Empty slot
24. Empty slot Empty slot Empty slot Default 3 Block High speed Link 02 amp High speed Link 03 amp High speed Link 04 amp High speed Link 05 amp High speed Link 06 amp High speed Link O High speed Link 08 amp High speed Link 08 amp High speed Link 10 amp High speed Link 11 amp High speed Link 12 fe P2P Channel P2P Block LE User frame definition P2P 02 P2P 03 P2P DA P2P 05 P2P DB P2P 07 PeP DB EZ i 2 BI Standard TEE High spe gf PzP T Standard s Taf High spee E P2P T Standard s E High spee E P2P Parameter window Rnet I F module is set in High speed link window It can use the High speed link up to maximum 12 A High speed link is available per an Rnet I F module 5 7 Chapter 5 High speed Link Setting 1 How to use High speed link window Parameter is specified at High speed link window as shown below There are 2 kinds of parameter setting Communication module setting and High speed link block setting High speed link Parameter setting Communication module setting Communication Module Settings ER High speed Link 1 B050 Dnet Communication module settings amp High speed Link DA amp High speed Link 03 Select Module z High speed Link 04 3 High speed Link 05 and Base no 00 High speed Link 06 j kio double click Slot 00 High speed Link 08 amp High speed Lin
25. Right choice for ultimate yield LSIS strives to maximize customers profit in gratitude of choosing us for your partner Programmable Logic Controller Rnet I F Module XGT Series User s Manual XGL RMEA eRead this manual carefully before installing wiring operating servicing or inspecting this equipment eKeep this manual within easy reach for quick reference http eng Isis biz Safety Instructions Before using the product For your safety and effective operation please read the safety instructions thoroughly before using the product gt Safety Instructions should always be observed in order to prevent accident or risk by using the product properly and safely gt Precautious measures can be categorized as Warning and Caution and each of the meanings is as follows This svmbol indicates the possibilitv of serious injur Warning a et ee or death if some applicable instruction is violated This symbol indicates the possibility of Severe or AN Caution slight injury and damages in products if some applicable instruction is violated Moreover even classified events under its caution category may develop into serious accidents depending on situations Therefore we strongly advise users to observe all precautions in a proper way just like warnings The marks displayed on the product and in the users manual have the following meanings AN Be carefull Danger mav be expected AN Be
26. XG PD RS 232C cable XGL RMEA LI LI u oon i T B 71 Ff i T m anaran anaran anaran anaran anatas ran PMU 330 PMU 530 PMU 730 PMU 830 Fig 4 1 3 PMU system 4 2 Chapter 4 System Configuration 4 1 4 XGL RMEA Composite system XG5000 XG PD RS 232C cable GOL GWRA SPI TITEL oce Hnet dedicated cable GRL D22A GRL D24A GRL TR2A GRL RY2A GOL FREB 750m oL IN e er il lI LI GAL RREA G6L RREA G3L RREA 2km optic cable PMU 330 PMU 530 PMU 730 PMU 830 Fig 4 1 4 Composite system 4 3 Chapter 5 High speed Link Setting Chapter 5 High speed Link Setting 5 1 Introduction High speed link specifies the Send Receive device area and data size between CPU module and the communication module by XG PD High speed link can be set the function as shown below Description High speed Link Module type Communication Base no Ko poli Setting range is different from CPU module module setting VIE Setting range is different from Base type Communication Communication module period setting setting Period type Select among 20ms 50ms 100ms 200ms 500ms 1s 5s 10s Default setting 50 ms Keep the previous output status CPU error Output data gt ceu oror Clear Clear the output in case o Latch Keep the previous output status emergency JCPU stop Latch pu P
27. able is used for Rnet system configuration however electric optic repeater is provided here for the purpose of remote application and reliance improvement for users to configure the system expansively In addition XGT Rnet I F module can configure GM MK series of Rack type remote which can be usefully applied to the location where lots of points are required To create a program refer to the following manuals together e XG5000 user manual e XGK instruction e XGK user manual e XGI XGR instruction e XGI XGR user manual The current user s manual of XGT RAPIEnet I F Module is prepared based on the following versions e XGT PLC XG5000 Programming Tool V2 0 or above e XG PD V2 0 or above e XGT Rnet I F Module O S V1 1 or above Chapter 1 Overview 1 2 Characteristics XGT Rnet I F module has the following characteristics Rnet I F module LS dedicated network gt Convenient with High speed link parameters setting is available gt Electric optic repeater option is provided gt Remote stage 1 connection service is available through G3L RREA Program monitoring editing is available with connecting to CPU through GOL GWRA gt Reduced wiring easy installation Up to 12 units can be installed on 1 basic base gt Various system configurations are available through basic parameters changes gt Smart I O Rnet system configuration is available Chapter 1 Overview 1 3 Product information Table 1 3 1 Fam
28. abnormal output or operation Please install interlock circuits in the sequence program for safe operations in the system when exchange data with PLC or modify operation modes using a computer or other external equipments Head specific instructions thoroughly when conducting control operations with PLC Safety Instructions Safety Instructions for design process I O signal or communication line shall be wired at least 100mm away from a high voltage cable or power line Fail to follow this instruction may cause malfunctions from noise Safety Instructions on installation process Use PLC only in the environment specified in PLC manual or general standard of data sheet If not electric shock fire abnormal operation of the product may be caused Before install or remove the module be sure PLC power is off If not electric shock or damage on the product may be caused Be sure that every module is securely attached after adding a module or an extension connector If the product is installed loosely or incorrectly abnormal operation error or dropping may be caused In addition contact failures under poor cable installation will be causing malfunctions as well Be sure that screws get tighten securely under vibrating environments Fail to do so will put the product under direct vibrations which will cause electric shock fire and abnormal operation Do not come in contact with conducting parts in each module which may
29. ation period settings Period type 20 msec Output data setup in case of emergency CPU error OLatch Clear CPU stop O Latch G Clear 5 2 Chapter 5 High speed Link Setting 4 Write Parameter Standard Settings HS Link P2P Write of High speed link parameter value of installed Rnet I F module Online ead Parameter Standard Settings HS Link P2P elete Parameter Standard Settings HS Link P2P able Link HS Link P2P R D En Upload Download File Ba System Diagnosis Reset 5 Enable Link HS Link P2P Communication permission of installed Rnet I F module Online Disconnect 84 Read IO Information x Write Parameter Standard Settings HS Link P2P Read Parameter Standard Settings HS Link P2P Delete Parameter Standard Settings HS Link P2P 4 amp Enable Link HS Link P2P Upload DownloadtFile Ed System Diagnosis Reset 5 3 Chapter 5 High speed Link Setting Enable Link through flag It describes Enable Link method through flag The following XG5000 version CPU OS version is needed XG5000 V3 61 or above XGR CPU V1 91 or above XGI CPU V3 4 or above XGK CPU V3 7 or above Flag list related with Enable Link XGR HS link enable disable request XGI XGK 5 4 Chapter 5 High speed Link Setting Flag Data type Description HS3 REQ NUM BIT F10312 HS link 3 enable disable setting HS4 REQ NUM BIT HS link 4 enable disable setti
30. bed below After the product installation is complete install and configure the system to be operated as specified in the following sequence Operation Sequence ww Install Rnet I F module on the base gt Check the applicable base slot position for correct installation on the basic base Connect Rnet I F module with remote I O by means of cable gt Connect the cable and process terminal resistance With power On check the LED status of the communication module gt Check if the interface of the communication module is normal with CPU Specify High speed link parameters in XG PD Specify parameters applicable to network configuration in XG PD and download the parameters ww Let link enabled in XG PD ww Start Run 1 The station number of the master module is set to O 2 The station number of the remote I O should not be set to O 3 2 Chapter 4 System Configuration Chapter 4 System Configuration 4 1 System Configuration of Network 4 1 1 XGL RMEA Smart I O XG5000 XG PD RS 232C cable i XGL RMEA GRL TR2A GRL TR4A GRL D22A GRL RY2A GRL D24A Fig 4 1 1 System configuration of Smart I O 4 1 2 XGL RMEA Rack type of remote XG5000 XG PD RS 232C cable i XGL RMEA a MINI G3L RREA ST ditti GAL RREA G6L RREA Fig 4 1 2 Rack type of remote system 4 1 Chapter 4 System Configuration 4 1 3 XGL RMEA PMU XG5000
31. bnormal Check the cable connection and connection setting The following message will appear if the PLC type connected to the stage 1 is different from the current project s CPU type It should be changed the CPU type to connect with Project PLC type XGK CPUA and connected PLC type XGK CPURH are different Check connection settings PLC type and try again Fig 6 2 6 CPU type is incorrect Completion status of a stage 1 connection is a local connection that is the same with RS 232C cable connection All online menus are available 6 4 Chapter 7 Program Example Chapter 7 Program Example 7 1 XG5000 program 7 1 1 Program for XGK CPUH How to set High speed link parameters in Rnet system will be described below XGL RMEA LI an fi T G4L RREA station 3 GRL TRAA station1 GRL D24A station 7 Rnet I O system configuration Station No Read area XGT Tx size byte Save area XGT Rx size byte pooroo e Po GAL RREA 3 eoo Dowo 8 GRLTRAA a D00103 e Barra 7 0 Tx Rx map of High speed link Input Output configuration for G4L RREA Please change mode switch of front part of it to MK mode Slot 0 Slot 2 Slot 5 GAL RREA GAl A22A Se iwo woo aw In the example XGT CPU transmits 3 word D00100 D00102 data of D00100 area to GAL RREA s Slot no 0 D00100 and Slot no 1 D00101 D00102 You have to set Rx size including output module s
32. careful Electric shock may occur After reading this user s manual it should be stored in a place that is visible to product users Safety Instructions Safety Instructions for design process Please install a protection circuit on the exterior of PLC so that the whole system may operate safely regardless of failures from external power or PLC Any abnormal output or operation from PLC may cause serious problems to safety in whole system Install protection units on the exterior of PLC like an interlock circuit that deals with opposite operations such as emergency stop protection circuit and forward reverse rotation or install an interlock circuit that deals with high low limit under its position controls If any system error watch dog timer error module installation error etc is detected during CPU operation in PLC all output signals are designed to be turned off and stopped for safety However there are cases when output signals remain active due to device failures in Relay and TR which cant be detected Thus you are recommended to install an addition circuit to monitor the output status for those critical outputs which may cause significant problems Never overload more than rated current of output module nor allow to have a short circuit Over current for a long period time may cause a fire b d Never let the external power of the output circuit to be on earlier than PLC power which may cause accidents from
33. cted Station No Station number of master module System parameter o 1 1 1414 Hardware Hardware version Hardware version of communication module Software Hardware status Hardware status of communication module information Software version Software version of communication module High speed link Enable disable status of high speed link Remote Connection status of local remote 9 13 Chapter 5 High speed Link Setting 2 HS link Screen configuration and description HS Link Standard Information Total HS link information Base No LI The service is not set Slot No 0 Run link 0 Link trouble 0 Individual HS link information Index Station number Module type Data size Read area Save area HS state HS mode HS tre HS error Base number of communication module which is connected with High speed link Standard information Slot number of communication module which is connected with Slot no High speed link HS High speed lin Run link k Total HS Normal All the slave modules communicate normally Error Error is occurred in slave station after Run link becomes Link trouble normal status Index Serial number Station number Slave module s station number which is existed in network Module type which is used for setting up of high speed parameter Data size of transmitting data from master module to slave module A device to transmit data from master to slave module
34. ily products of XGT Rnet I F modules SHES Someta Model Product code Description Remarks ation cable Master Twisted pair XGT Rnet master module electric A A acres G3L RREA 46300143 Installed on GM3 K1000S CPU position G4L RREA 46310159 Installed on GM4 K300S CPU position a mle G6L RREA 46640104 Installed on GM6 K200S CPU position GRL D22A 47060001 DC input 16 points GRL D24A 47060002 DC input 32 points Smart I O Rnet series GRL TR2A 47060003 JIR output 16 points 0 1A Sink Fixed terminal block l 9 pin communication GRL TR4A 47060004 TR output 32 points 0 1A Sink connector Slave Twisted pair GRL RY2A 47060005 Relay output 16 points module electric GRL DT4A 47060006 DC input16 points TR output 16 points 4706000133 DC input 16 points 4706000233 DC input 32 points l Smart I O Rnet series N 4706000333 TR output 16 points 0 1A Sink Fixed terminal block 5 pin communication N 4706000433 TR output 32 points 0 1A Sink SomERIGI GRL D22A N GRL D24A GRL TR2A N m m GRL TR4A PIS m GRL RY2A N 4706000533 Relay output 16 points GRL DT4A N 4706000633 e E points TR output 16 L I XRL BSSA 4706158 Digital input ouput 512point Smart I O Rnet GOL FREB 46290016 For cable extension 750m Possible Solely Signal converter GOL FOEA 46290004 For optic electric signal conversion Possible Solely GOLFADA 46290008 ounmymodle Si
35. ion module Station number 0 EI IF address Cnet channel EE 1 Cancel Fig 6 2 3 Details screen of remote 1 Network type Select applicable network module Select XGT Rnet here Select the base no of the communication module installed Base number on the master to be connected with destination station by Local stage 1 connection communication aa module Select the slot no of the communication module installed on Slot number the master to be connected with destination station by stage 1 connection Select the station no of the communication module installed Station number on destination station s PLC to be connected by stage 1 select station 0 Remote 1 communication module IP address Specify if Ethernet I F module is used Cnet channel Specify if Cnet I F module is used Click Preview on the communication setting window in order to OK settings of remote 1 connection 6 3 Chapter 6 Remote Communication Control Select Preview button on Connection Settings window to see the remote 1 PLC configuration Connect to the remote 1 PLO a cto e Rnet Based Slot4 Fig 6 2 4 Details screen of connection setting After setting click OK to escape from the option screen and then execute the online connection If connection fails the following message will appear Fig 6 2 5 Remote 1 connection failed The connection setting or communication cable could be a
36. ize in front of input module for receiving input data of G4L RREA If you set Save area to D00300 and Rx size to 8 byte for receiving input data of G41 A22A D00300 D00302 is to be output data area and input data of G4I A22A is saved to D00303 area 1 Chapter 7 Program Example A High speed link parameters setting It is convenient to user prepare data Tx Rx map in order to let the stations exchange data And for data Tx Rx High speed link parameters shall be prepared and downloaded onto PLC as in the sequence described below so to start High speed link Prepare data Tx Rx map Local connect XG PD software with XGT CPU On XG PD s High speed link parameters setting option set applicable parameters Write parameters on the Online menu Dac c ee P Select Link Enable setting on the Online menu to set High speed Link Enable applicable to setting number Use the diagnosis service to check High speed link status G If any error occurs during the procedures F execute again from A e Chapter 7 Program Example It is as below to setting procedure for Rnet I O system configuration example XG PD XG5000 gt Tools gt Network manager File gt New file Project name Setting the CPU kind Ex Rnet XGK CPUH Create New project Online Settings Connection settings Type RS 232C Depth Local Setting T A XG PD Online Selecting applicable to connection drive in Retrial dnd BE connection of
37. k 09 amp High speed Link 10 2 amp High speed Link 11 Period type 150 msec amp High speed Link 12 Communication period settings Dutput data setup in case of emergency CPU error C Latch e Clear CPU stop C Latch Clear E Module Tf Hs Link Gancal High speed link block setting Index kio kes Mode Station Fond aes Sending data o Receiving data Project window x yp number Byte Byte rnet flag XGI CPUU m High speed Link 01 BOSO Anet Block amp High speed Link 02 amp High speed Link 03 amp High speed Link 04 amp High speed Link 05 amp High speed Link 06 amp High speed Link 07 amp High speed Link 08 amp High speed Link 09 amp High speed Link 10 amp High speed Link 11 amp High speed Link 12 Standard s Taf High spee B P2P in v High speed Remark High speed link1 BOSO Rnet is as shown below 1 High speed link1 It is a serial number of High speed link 2 BO It means Base number 0 Example Expansion base 2 stage B2 Expansion base 5 stage B5 3 SO It means Slot number 0 Example Slot number 5 S5 Slot number 11 S11 5 8 Chapter 5 High speed Link Setting 2 Communication module setting parameter Communication module parameter setting is as shown below Communication Setting range 0 7 Communication Module Settings 5 xl module Setting Base no It is different from CPU module Communication m
38. l management subject and every staff environment For the disposal separate aluminum of LSIS use the reasonable endeavors for the iron and synthetic resin cover from the product as pleasurably environmental preservation of the earth they are reusable LSIS values every single customers Quality and service come first at LSIS Always at your service standing for our customers http eng Isis biz LSis 10310000637 m HEAD OFFICE m LSIS Chengdu Office Chengdu China LS tower Hogye dong Dongan gu Anyang si Gyeonggi do 1026 6 Address 12FL Guodong Buiding No 52 Jindun Korea http eng lsis biz Road Chengdu 610041 P R China Tel 82 2 2034 4870 Fax 82 2 2034 4648 e mail cshwang lsis biz Tel 86 28 8612 9151 9226 Fax 86 28 8612 9236 e mail comysb Isis biz m LSIS Tokyo Office Tokyo Japan m LSIS Qingdao Office Qingdao China Address 16FL Higashi Kan Akasaka Twin Tower 17 22 Address YinHe Bldg 402 Room No 2P Shandong Road Akasaka Monato ku Tokyo 107 8470 Japan Qingdao City Shandong province 266071 P R China Tel 81 3 3582 9128 Fax 81 3 3582 2667 e mail jschuna lsis biz Tel 86 532 8501 6068 Fax 86 532 8501 6057 e mail wangzy lsis com cn m LSIS ME FZE Dubai U A E m LSIS Europe B V Netherlands Address Jafza View Tower Lob 19 Room 205 Along Sheikh Zayed Address 1st Floor Tupolevlaan 48 1119NZ Schiphol Rijk The Netherlands Road Jebel Aali Free Zone Dubai United Arab Emirates Tel 31 0
39. locks communication status specified in parameter is unstable The link trouble will be On if one of those conditions 1 2 and 3 above occurs And if such a condition is back to normal it will be Off Displays the general status of the communication information for the specified parameter s respective data blocks H81 STATEJkI HS1 MOD k amp HS1 TRX k amp ERR k HSm Displays the operation mode of the station specified in parameter s data block k Displays the communication status of parameter s data block k to check if normal as specified Displays the communication status of parameter s data block k to check for any error Displays the setting status of parameter s data block k Table 1 List of communication flags based on HS link number HS link No 1 12 Appendix L area address L000500 L00099F L001000 L00149F L001500 L00199F L002000 L00249F L002500 L00299F L003000 L00349F L003500 L00399F L004000 L00449F L004500 L00499F L005000 L00549F Compared with HS link of 1 in Table 1 other HS link station number s flag address will be simply calculated as follows Calculation formula L area address L000000 500 x HS link No 1 In order to use HS link flag for program and monitoring use the flag map registered in XG5000 for convenient application Example K as a block number is displayed through 8 words by 16 for 1 word for the information of 128 blocks from 000 to 12
40. nable disable setting P2P7 REQ NUM BIT P2P7 enable disable setting _P2P8 REQ NUM F10337 P2P8 enable disable setting How to enable link HS link P2P enable disable setting flag ON 2 HS link P2P enable disable request flag ON How to disable link HS link P2P enable disable setting flag OFF gt HS link P2P enable disable request flag ON gt You can monitor the Enable Disable state of the each link through enable disable current states flag 5 5 Chapter 5 High speed Link Setting JJ D Q O O D Oo Oo 0 O O c Description New File 3 New File Ctrl N ta Open Ctrl 0 Open from PLC Li Save Save As Close File Print Project Print Setup 1 CAWXG5OOOW testivtest fg 2 CAWXG5ODOWFPFF xfo 3 CAWXG5OOOWAnetmAnet xfa 4 CAWXG5OOOW Wrnet flag xfa Exit Edit E Cut Ctrlek Copy trleC E Paste Ctrl gt Delete Connect onnects PLC with a computer Connection settings between PLC and the computer Read the information of PLC Disconnect l Write Parameter rite parameter to PLC from XG PD A Read IO Information Write Parameter Standard Settings HS Link P2P LE Read parameter from PLC to XG PD i Read Parameter Standard Settings HS Link P2P Online Ew Delete Parameter Standard Settings HS Link P2P amp Enable Link HS Link P2P I ication Upload Download File i File B SyCon Upload Not used ese
41. ng HS5 REQ NUM BIT HS link 5 enable disable setting HS6 REQ NUM BIT HS link 6 enable disable setting _HS7_REQ_NUM BIT HS link 7 enable disable setting HS8 REQ NUM BIT HS link 8 enable disable setting HS9 REQ NUM BIT HS link 9 enable disable setting HS10 REQ NUM BIT HS link 10 enable disable setting HS11 REQ NUM BIT HS link 11 enable disable setting HS12 REQ NUM BIT HS link 12 enable disable setting P2P1 ENABLE STATE BIT P2P1 enable disable current state P2P2 ENABLE STATE BIT P2P2 enable disable current state P2P3 ENABLE STATE BIT P2P3 enable disable current state _P2P4 ENABLE STATE BIT P2P4 enable disable current state P2P5 ENABLE STATE BIT P2P5 enable disable current state P2P6 ENABLE STATE BIT P2P6 enable disable current state P2P7 ENABLE STATE BIT P2P7 enable disable current state P2P8 ENABLE STATE BIT P2P8 enable disable current state P2P1 REQ BIT P2P1 enable disable request _P2P2 REQ BIT P2P2 enable disable request _P2P3 REQ BIT P2P3 enable disable request _P2P4 REQ BIT P2P4 enable disable request _P2P5 REQ BIT P2P5 enable disable request P2P6 REQ BIT P2P6 enable disable request _P2P7_REQ BIT P2P7 enable disable request _P2P8 REQ BIT P2P8 enable disable request _P2P1_REQ_NUM BIT P2P1 enable disable setting _P2P2 REQ NUM BIT P2P2 enable disable setting P2P3 REQ NUM BIT P2P3 enable disable setting _P2P4 REQ NUM BIT P2P4 enable disable setting _P2P5 REQ NUM BIT P2P5 enable disable setting _P2P6 REQ NUM BIT P2P6 e
42. nication module instead of PLC CPU receives I O data from master station and refreshes I O module installed on remote station in PLC system 6 Rnet Fieldbus as the lowest network to connect control device with relay device has adopted 3 layers among OSIl s 7 layers The 3 layers are composed of physical layer configured with H2 1Mbps electric H1 31 23Kbbs electric optic wireless etc data link layer with Scheduled and Circulated Token bus and application layer in charge of application function where user layer is adopted additionally 7 Token lt is a right to send data of self station by access right control over Physical Medium 8 Rnet Station no Station no of the communication module to which Rnet standard is applied Station no of XGT RMEA is always set to 0 9 Repeater lt is used to extend cable length in electric communication network which extends communication distance by revival and amplification of electric communication signals 10 Manchester Biphase L It is a data modulating method used in Rnet Data is sent as encoded by Manchester Code and the data received as encoded by Manchester is converted as decoded 11 Reset Individual Module It is used to initialize if an error occurs on the communication module It operates Reset operation selecting the Online gt Reset gt Reset Individual Module by XG PD Then PLC do Restart operation to initialize A 1 Appendix A 2 List of HS Li
43. nk Flags Type L000000 _HS1_RLINK L000001 L000020 LOOOO9F L000100 L00017F L000180 L00025F L000260 LO0033F L000340 L00041F H81 LTRBL HS1 STATEIK k 000 127 HS1 MODIK k 000 127 _HS1_TRX k k 000 127 HS1 ERRIK k 000 127 _HS1_SETBLO CKIk Bit HS link parameter No 1 s all stations normally operated After HS1RLINK is ON abnormal status displayed HS link parameter No 1 Block No k s general status displayed HS link parameter No 1 Block No k station s Run operation mode Normal communication displayed with HS link parameter No 1 Block No k station HS link parameter No 1 Block No k station s Run error mode HS link parameter No 1 Block No k setting displayed Displays all stations normally operated as specified in HS link parameter which will be On if 1 There is no error with all stations specified in parameter in RUN mode 2 All data block is in normal communication as specified in parameter 3 The parameter specified in each station itself is in normal communication Run link will be kept On if once On until stopped by link disenable This flag will be On if the station specified in parameter and the data blocks communication status are as described below with HSmRLINK flag On 1 When the station specified in parameter is not in RUN mode 2 When the station specified in parameter is in error 3 When data b
44. odule settings Setting range O 11 Module y It is different from type of base Base no UO Select among the 20ms 50ms 100ms i JICommunication period P P Default 20ms settings l Period type 50 msec Period type It is only for transmission data L yP Received data is processed every end of Output data setup in case of emergency Scan program CPU error Latch Clear T Keep the output status CPU stop C Latch 6 Clear CPU But P device s data is cleared cen einig id Clear Clear all of the output Keep the output status of emergenc e P device s data is cleared sto P Clear Clear all of the output Communication period settings Click OK button after the setting is finished Cautions of communication period setting 1 Setting value of communication period is applicable to transmission data CPU module s data gt Rnet I F module If communication period is longer than the time of changing data at scan program it might be different from the data which is transmitted to slave module 5 9 Chapter 5 High speed Link Setting 3 Parameter of High speed link block setting High speed link block setting parameter is as shown below Block window Stati Sending dat Fi iwing dat Module type Mode PEE cie ange Byte kas E sinta list Este 3 Select bv mouse then module tvpe setting screen is opened as shown below E High speed
45. onitoring of communication module s Run System Diagnosis z status Reset eset the PLC or Reset Individual Module reate a new file Open Open from PLC Save pen an exiting file pen the file saved to PLC ave the file Save As ame and save the file Print review rint Project rint Setup ndo Redo rint data review the print data rint about basic setting HS link and P2P hange the printer settings ot used O J D D r D co 5 D gt lt n 5 QC Q O 5 D F co QX O o Ti D e F B F ut Copy opy the data in a file Paste Paste the data in a file X Delete Delete the data in a file Add Card mja fea jal a aog m J ZIO 2 Jl Di o B mo w 3 o o o 5 OD ol oI E 2 9 5 5 13 ol 4 D 3 D 3 o 5 o Se lie m g olz 9 5 jab o gt 2 D 2 3 E gt 3 O Q c CD e O O O 3 3 C 2 C jab e D lt jab C o D Q o U Oo 2 e D Q ZII O la rd O O D Oo o o D O 7 o U nO U Q c Oo e gt SyCon Upload System Damoss BR Reset 00000 Project Window Display the Project Window Zoomin Enlarge the screen of XG PD Ascii Table Ascii Tabe Display the ASCII and Hexadecimal value Cascade Cascade windows Jomo Tie Vertcaly frie tne windows verticaly m
46. ons kono 1Mbps Transmission Speed Rnet I F modules common Max 750m Max Tx distance Maximum 750m 6 repeaters 750m 6 5 25km etwor Repeater extension distance 750m A TA Twisted pair shielded cable LL LIREV AMESB 1Px22AWG 7 0 254 LS Cables Master station 1 station no O fixed Network Slave station 63 station no 1 63 Max 64 stations Only 1 master is available in the network Maximum stations Master station 1 station no 0 fixed connected Slave station 31 station no 1 63 Segment Max 32 stations In case of 32 stations you have to use repeater Only 1 master is available in the network Diagnostic function XG PD High Speed Link Monitoring e Available detachment and attachment of slave System characteristic l a module during communication 110 5 1 2W Master Slave operation Only available as Master Data Processing unit Selection among 20ms 50ms 100ms 200ms Tx Rx cycle 500ms 1s 5s 10s default 20ms Max Communication l XG PD 3 80Words slave 63stations 60words station points HS Link Max Block number 63 setting range 0 62 Max points by Block 120 Byte 60words Max Tx Block number 8 Blocks HS Link number Max module mounted 12 modules Main Base Extension Base e Internal current Specification l 410 consumption mA Weight g 115 2 2 Chapter 2 Specifications 2 3 Structure and Characteristics 1 LED display 4 LED display
47. parameter Standard High speed link P2P When CPU module is exchanged parameter in XG PD has to back up and then the parameter has to write in CPU module again 5 1 Chapter 5 High speed Link Setting 5 2 How to use XG PD XG PD usage for Rnet I F module is as shown below XG PD execution 1 File New file 1 Project name A Writing the project name New Projeci 2 PLC Series pu um A Selecting PLC series PLC Series 3 CPU kind AUTE TOTEM A Selecting CPU kind CPU kind XGK CPUH 3 Project comment Creating New file for Rnet I F module 2 Reading I O information Reading Rnet I F module information Online Disconnect 23 Read lO Information Write Parameter Standard Settings HS Link P2P ead Parameter Standard Settings HS Link P2P elete Parameter Standard Settings HS Link P2P able Link HS Link P2P n pload Download File A D E U Ed System Diagnosis 3 High speed link setting 1 Communication module setting A Communication module setting Rnet Module type Base Slot B Communication period setting C Data setup in case of emergency CPU module error CPU module stop 2 Block setting Communication Module Settings Read area Save area address setting EE modiie eand Module type FE Base Number 00 wi Connects High speed link and Rnet I F module The module information get through Read IO information Slot Number 00 vl Communic
48. r eae area Aes TUUS lock d Link 02 TR output 32 points Send ZMWwS IE DC input 32 points Receive 7 ZMw 200 amp High speed Link 03 amp High speed Link 04 GM3 GM4 GM6 PMU Send 3 2MWO 420W0 0 0 High speed Link 05 GM3 GM4 GM6 PMU Receive 3 z0w0 0 0 ZM W500 amp High speed Link 06 m KU 757 amp High speed Link 07 amp High speed Link 08 amp High speed Link 09 Cl amp High speed Link 10 amp High speed Link 11 High speed Link 12 Standards HI High spee daj p2p l High speed x n e 3 a en m t a a it 19 I2 14 114 b Lb Result Parameter check Used address Ready Setting of High speed link parameter If High speed link parameters are downloaded during operation of High speed link Link enabled will be automatically disabled and then enabled after downloading is complete 7 10 Appendix A 1 Terminology 1 Master Module Rnet I F module to be installed on I O location of the basic base 2 Slave Module RSM Rnet Slave Module Rnet I F module and single module to be installed on CPU location of the basic base 3 Local Station Station directly connected with XG 5000 XG PD in the same network including CPU for user to download monitoring and debug programs 4 Remote Station Contrary to local station it is the destination station to communicate with local station 5 Remote I O Station O area where remote commu
49. re especially about online functions such as programming printing XG5000 User s Manual P J P 10310000512 monitoring and debugging by using XGK series producis XGK Seri It is the users manual for programming to explain how eries to use commands that are used PLC system with XGK 10310000510 Instructions amp Programming BU Table of Contents Chapter 1 Introduction be L IBUOGLICUOD AiE E 1 1 1 2 Chardclerisli6S Ai i ea 1 2 L S PKOGLEL INOLTRE 1 3 Chapter 2 Specifications 2 1 General SPCCMICAL ONS sree as ses Eta 2 1 2 2 Performance Specifications M 2 2 2 9 ottucture dnd Characteristics ii i ie 2 3 2 A OMIMARESISIANNCO EE 2 9 4 1 System Configuration of Network 4 1 4 1 1 XGL RMEA Smart I O 4 1 4 1 2 XGL RMEA Rack type of remote 4 1 4 1 3 XGL RMEA PMU 4 2 4 1 4 XGL RMEA Composite system 4 3 Chapter 5 High speed Link Setting ONI MTOANO rran ee ea eenas enpor E a re 3 1 9 2 HOWO USO AG PD Fire e a e A 2 2 DO PIN Speed INK EUN en penos eaaa eea 9 5 4 Read and write of High speed Link mm 5 12 5 9
50. rials or explode itself Revision History Version Data Remark Page V1 0 05 03 First Edition V1 1 05 05 Description of function added Page A 1 A 1 V1 2 06 06 Terminologies are edited V2 0 07 03 1 Added separate reset function 2 Version up about XG PD software V2 1 09 06 Content added and revision 1 1 1 4 5 1 V2 2 11 05 How to enable link through flag added CH 5 2 x The number of User s manual is indicated right part of the back cover c LSIS Co Ltd 2005 All Rights Reserved About User s Manual About User s Manual Congratulations on purchasing PLC of LSIS Co Ltd Before use make sure to carefully read and understand the User s Manual about the functions performances installation and programming of the product you purchased in order for correct use and importantly let the end user and maintenance administrator to be provided with the User s Manual The Use s Manual describes the product If necessary you may refer to the following description and order accordingly In addition you may connect our website http eng lsis biz and download the information as a PDF file Relevant User s Manuals No of User s Title Description Manual It describes specifications system structure and EMC XGK CPUA CPUE CPUH CPUS 10310000508 spec correspondence of CPU module power module User s Manual base I O module and increase cable It describes how to use XG5000 softwa
51. te for each High speed parameter Check the box to set the High speed link 3 Read Write of High speed link parameter is not affected to CPU s Run mode If a High speed link parameter is written to a CPU module the CPU module saves the data If CPU module is exchanged the High speed link parameter has to backup from the CPU module The parameter has to re write in exchanged CPU module 5 12 Chapter 5 High speed Link Setting 5 5 System Diagnosis System diagnosis provides the information of Rnet I F module system The System diagnosis screen is as shown below System diagnosis window NGP RCF XGI CPUU XEL R Detailed Module Information Online O HS Link B Disconnect Autoscan A Read 10 Information Ute Parameter Standard Setings HS Link P2P Read Parameter Standard Sefings HS Link PPP E Delete Parameter Standard Settings HS Link P P 4 Enable Link HS Link PP Upload Download File COQQLLQLQoc COLCOLOLO BA System Diagnosis Reset system dag It describes the menu of system diagnosis 1 Communication module information Screen configuration and description pe B number of communication module which is TTIE BN connected with High speed link sam i number of communication module which is Em erate connected with High speed link Slot no Station number i Hardware Error gem nfo m ati on B i EE Link type Communication module type Disable Notconne
52. vailable without moving thereto which is useful for maintenance of PLC system 1 Rnet I F modules for which remote 1 connection is available are G3L RREA and GOL GWRA 6 1 Chapter 6 Remote Communication Control 6 2 Remote connection example of XG5000 XG PD The remote 1 connection is available for both XG PD and XG5000 6 2 1 Remote 1 connection For remote 1 connection XG5000 or XG PD shall be in off line status In this status select Online Connection Settings from the menu on the upper of the program Online Settings NewPLC _ xl Connection settings Type JAs 2320 Settings emote Preview Remote 1 General Timeout interval Retrial times Head write data size in PLE run mode C Normal Maximum Send maximum data size in stop mode Connect Cancel Fig 6 2 1 Online Settings On the communication options setting menu set Connection Depth to Remote 1 and select Settings to specify the details Details xi RS 232C Remote 1 H5 232L settings Part number COM m Fig 6 2 2 Details screen of RS 232C 6 2 Chapter 6 Remote Communication Control RS 232C Set the port RS 232C is connected with setting Set the data communication speed via RS 232C to 38400 AS 292C Remote 1 Network type xG L Finet I Local communication module Base number U Slot number 4 H Remote 1 communicat
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