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XGB FEnet/2008. 1
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Programmable Logic Controller
XGB Fast Ethernet I/F Module
XGT Series
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User's Manual
XBL-EMTA
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Related Manuals for LS Industrial Systems XGB Series
Summary of Contents for LS Industrial Systems XGB Series
- Page 1 Tel: 86-411-8273-7777 Fax: 86-411-8730-7560 Keep this manual within easy reach ※ LS Industrial Systems constantly endeavors to improve its product so that XGB FEnet/2008. 1 for quick reference. Information in this manual is subject to change without notice.
- Page 2 Revision History Revision History Version Date History Remark V 1.0 July.2007 First edition ※ The number of user manual is indicated right part of the back cover. ⓒ LS Industrial Systems Co., Ltd 2007 All Rights Reserved.
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Page 3: Table Of Contents
Contents [ Contents ] Chapter 1 General ..............................5 1.1 Before Reading This Manual ................................... 5 1.2 Before Using This Device..................................5 1.2.1 Relevant user manuals.................................. 5 1.2.2 Version Information ..................................5 1.3 Characteristics......................................5 1.3.1 XGB Fast Ethernet I/F module characteristics ..........................5 1.3.2 Designation..................................... - Page 4 Contents 4.2.5 Network configuration using XGB and other LSIS PLC......................19 Chapter 5 Protocols of various services .........................20 5.1 General ........................................20 5.1.1 XGB Fast Enet I/F module protocol introduction........................20 5.1.2 Protocol by service..................................20 5.2 XGT dedicated protocol..................................21 5.2.1 General......................................
- Page 5 Contents 8.1.1 General......................................61 8.2 Setting HS link service.................................... 61 8.2.1 Basic parameter ................................... 61 8.2.2 HS link parameter..................................62 8.3 HS Link Flag ......................................67 8.3.1 HS link flag classification................................67 8.3.2 HS link flag introduction ................................67 8.3.3 HS link flag memory address..............................68 Chapter 9 Remote Communication Control......................70 9.1 General ........................................
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Page 6: Chapter 1 General
(2) XG5000 manual (3) XGB series manual 1.2.2 Version Information XGB series Fast Enet I/F module (XBL-EMTA) is suitable to following versions. (1) XG5000 programming tool: above Ver 2.0 (2) XG-PD: above Ver 2.0 (3) XGB CPU: above Ver 1.4 1.3 Characteristics... -
Page 7: Designation
10/100BASE-TX Over category 5, UTP cable [Table 1-1] XBL-EMTA Designation 1.3.3 Max. modules can be installed XGB series can be installed max. 2 communication modules. Series Max. modules can be installed [Table 1-2] Max. modules can be installed 1.3.4 Relevant software Essential programming tools and other configuration software for using XGB Fast Enet I/F module is as followings. -
Page 8: Chapter 2 Specifications
Chapter 2 Specifications Chapter 2 Specifications 2.1 General Specifications [Table 2-1] shows general specification of XGB series. Item Specifications References Operating Temp. ℃∼ ℃ Storage Temp. ℃∼ ℃ Operating Humidity 5 95%RH, non-condensing. ∼ Storage Humidity 5 95%RH, ∼ non-condensing. -
Page 9: Transmission Specifications
Chapter 2 Specifications 2.2 Transmission Specifications [Table 2-2] shows transmission specifications of XGB Fast Enet I/F module media. Item Specifications Remark Auto/10M/100Mbps Transmission speed Base band Transmission type HALF/FULL Flow control NRZI ▪4B/5B coding Modulation Type ▪Node-Hub Transformer CT Transmissio 100m Max. -
Page 10: Frequency Classification
Chapter 2 Specifications -FTP- -UTP- -STP- Remark 1) UTP : Unshielded Twisted Paired Copper Cable FTP : (Overall) Foiled Twisted Paired Copper Cable STP : (Overall) Shielded (and Shielded Individually Pair) Twisted Paired Copper Cable 2) Patch Cable (or Patch Cord) Stranded conductor composed of stranded cable instead of solid conductor may be used to increase the flexibility of UTP 4-paired cable. -
Page 11: Category 5 Twisted Paired Cable (Utp) Examples (Ctp-Lan5)
Chapter 2 Specifications 2.3.3 Category 5 twisted paired cable (UTP) examples (CTP-LAN5) Item Unit Value Conductor resistance (Max.) Ω/km 93.5 Insulation resistance (Min.) MΩ·km 2,500 Withstand voltage V/min AC 500 Characteristic impedance Ω(1~100MHz) 100 ± 15 10MHz Below Decrement 16MHz dB/100m 20MHz 10MHz... -
Page 12: Performance Specifications
Chapter 2 Specifications 2.4 Performance Specifications 2.4.1 General performance specifications [Table 2-6] shows general performance specifications of XGB Fast Enet I/F module. Item Specifications Remark Max. modules can be installed ▪ Per 1 CPU unit ▪ TCP/IP : 4 channels Max. -
Page 13: Diagnosis Function Specifications
Chapter 2 Specifications 2.4.3 Diagnosis function specifications [Table 2-8] shows diagnosis function specifications of XGB Fast Enet I/F module. Item Specifications ▪ HS link station no. ▪ IP/Subnet mask IP/Gateway IP/DNS Server IP Communication module information ▪ Main service/HS link/P2P enable ▪... -
Page 14: Dimensions And Names Of Parts
Chapter 2 Specifications 2.5 Dimensions and Names of Parts 2.5.1 Dimensions and names of parts ① Fixing lever ② LED part ③ LINK LED ④ RJ45 connector ⑤ SPEED LED ⑥ Fixing lever ⑦ Fixing lever [Fig. 2-1] Dimensions and names of parts 2.5.2 Designation of Parts Item Description... -
Page 15: Chapter 3 Installation
Chapter 3 Installation Chapter 3 Installation 3.1 Cautions for Installation This device has high reliability regardless of its installation environment. But the followings should be noted for securing reliability and stability. 3.1.1 Environmental conditions (1) Install on a water-proof and dust control panel (2) Place free of continuous impact or vibration (3) Place out of direct sunrays (4) Place without dewing by sudden temperature change... -
Page 16: Installation And Wiring
Chapter 3 Installation 3.2 Installation and Wiring 3.2.1 Network connection 네트워크 Network (Network) Twisted paired cable 8 pin RJ-45 plug [Fig. 3-1] Network connection 3.2.2 UTP cable wiring Max. distance between nodes of 10/100BASE-TX is 100m(module - Hub). The hub is in general use straight cable with TD and RD stranded inside. If only 2 of these communication modules are connected 1 to 1, cross-cable form may be used. -
Page 17: Cautions For System And Network Connection
Chapter 3 Installation Cautions for UTP installation (a) UTP cable should be satisfied the characteristics of category 5. (b) Do not access Max. tension strength of the cable during a period of wiring processing. (c) Do remove only the length of wiring, do not damage the insulator for removing covering (Sheath). (d) Keep suitable distance between EMI source and UTP cable during the period of installing UTP cable. -
Page 18: Check Points Before Start-Up
Chapter 3 Installation 3.2.4 Check points before start-up The following describes check points before start-up communication module. (1) Communication module Check points Installation and operation of XG5000, Performance and operation of XG-PD Connection condition of communication cable (only the condition of connecting cable) Module installation condition [Table 3-3] Check points before start-up (2) Start-up processing... -
Page 19: Chapter 4 System Configuration
Chapter 4 System Configuration Chapter 4 System Configuration 4.1 General 4.1.1 General XGB Fast Enet I/F module supports open Enet. It provides network configuration that is to connect LSIS and other company PLC, PC on network. 4.2 Examples of System Configuration 4.2.1 Combination network configuration [Figure 4-1] Combination network configuration XGB Fast Enet I/F module provides system configuration by using main communication, Modbus TCP/IP, user define frame, HS link... -
Page 20: Network Configuration Using Xgb And Mmi
Chapter 4 System Configuration 4.2.3 Network configuration using XGB and MMI [Figure 4-3] Network configuration using XGB and MMI Communication between XGB Fast Enet I/F module and PC is available to perform 1:1 communication by using cross cable or 1:N communication by connecting network. -
Page 21: Chapter 5 Protocols Of Various Services
Chapter 5 Protocols of Various Services Chapter 5 Protocols of Various Services 5.1 General 5.1.1 XGB Fast Enet I/F module protocol introduction XGB Fast Enet I/F module supports open Ethernet. It provides network configuration that is to connect LSIS and other company PLC, PC on network. -
Page 22: Xgt Dedicated Protocol
Chapter 5 Protocols of Various Services 5.2 XGT Dedicated Protocol 5.2.1 General XGT main protocol does communicate between LSIS Enet I/F modules. Read/write is available by instructions and communication is available on PC, HMI by using XGT dedicated protocol. XGT dedicated communication is available in 2-ways communication method of TCP and UDP. Communication Protocol Port no. -
Page 23: Xgt Dedicated Protocol Data Type
Chapter 5 Protocols of Various Services 5.2.3 XGT dedicated protocol data type XGT dedicated protocol is available to take [Table. 5-3] data type. Data type Data code Example 0x0000 %PX0,%LX0,%FX0 Byte 0x0100 %MB0, %PB0, %DB0 Word 0x0200 %PW0,%LW0,%FW0,%DW0 DWord 0x0300 %PD0,%LD0,%FD0,%DD0 LWord 0x0400... -
Page 24: Header And Data Structure Of Xgt Dedicated Protocol
(2) LSIS ID LSIS network uses 2 LSIS(LS Industrial Systems) IDs. LSIS ID 1 is for operation of XGT, XGB series as a client. In case of operating as a server, LSIS ID requested by a client, the client should use LSIS ID 1 or LSIS ID 2. -
Page 25: Frame Examples
Chapter 5 Protocols of Various Services 5.2.6 Frame examples (1) Request frame for individual reading of variables [Table 5-7] Request frame for individual reading of variables (2) Response frame for individual reading of variables [Table 5-8] Response frame for individual reading of variables... - Page 26 Chapter 5 Protocols of Various Services (3) Request frame for continuous reading of variables [Table 5-9] Request frame for continuous reading of variables (4) Response frame for continuous reading of variables [Table 5-10] Response frame for continuous reading of variables...
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Page 27: Modbus Tcp/Ip Protocol
Chapter 5 Protocols of Various Services 5.3 Modbus TCP/IP Protocol 5.3.1 General Modbus TCP/IP protocol function is to data Read/Write by using function codes. Modbus TCP/IP frame is composed of MAC, IP Header, TCP Header, Modbus ADU for Enet communication. (1) ADU : Application Data Unit (2) MBAP : MODBUS Application Protocol (3) PDU : Protocol Data Unit... -
Page 28: Mbap Header Structure
Chapter 5 Protocols of Various Services 5.3.3 MBAP Header structure Classification Size Description Client Server Transaction MODBUS Request/ Response repeatedly if server 2 bytes Initializing Identifier Response treatment responses Reproducing it from request frame 2 bytes 0 = MODBUS protocol Initializing if server responses Protocol Identifier... - Page 29 Chapter 5 Protocols of Various Services (c) Error Classification Size Range Function code 1 byte 0x81 (Function code + 0x80) Exception code 1 byte 0x01,0x02,0x03,0x04 [Table 5-15] Function code 0x01 error frame (d) Examples Request frame Response frame Classification Classification Function code 0x01 Function code...
- Page 30 Chapter 5 Protocols of Various Services (3) Function code 0x03: Read Holding Registers (a) Request Classification Size Range Function code 1 byte 0x03 Start address 2 bytes 0x0000 ~ 0xFFFF Number of input 2 bytes 0x0001 ~ 0x007D (125 words) [Table 5-21] Function code 0x03 request frame (b) Response Classification...
- Page 31 Chapter 5 Protocols of Various Services (c) Error Classification Size Range Function code 1 byte 0x84 (Function code + 0x80) Exception code 1 byte 0x01,0x02,0x03,0x04 [Table 5-27] Function code 0x04 error frame (d) Examples Request frame Response frame Classification Classification Function code 0x04 Function code...
- Page 32 Chapter 5 Protocols of Various Services (6) Function code 0x0F: Write Multiple Registers (a) Request Classification Size Range Function code 1 byte 0x0F Start address 2 bytes 0x0000 ~ 0xFFFF Number of 2 bytes 0x0001 ~ 0x07BD output Number of bytes 1 byte Output value N x 1 byte...
- Page 33 Chapter 5 Protocols of Various Services (b) Response Classification Size Range Function code 1 byte 0x06 Start address 2 bytes 0x0000 ~ 0xFFFF Output value 2 bytes 0x0000 or 0xFFFF [Table 5-38] Function code 0x06 response frame (c) Error Classification Size Range Function code...
- Page 34 Chapter 5 Protocols of Various Services (d) Examples Request frame Response frame Classification Classification Function code 0x10 Function code 0x01 Start address (Upper byte) 0x00 Start address (Upper byte) 0x00 Start address (Lower byte) 0x01 Start address (Lower byte) 0x01 Number of output (Upper byte) 0x00 Number of output (Upper byte)
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Page 35: Chapter 6 Dedicated Service
Chapter6 Dedicated Service Chapter 6 Dedicated Service 6.1 Dedicated Service Function Introduction 6.1.1 Server model Dedicated service provides a server function as [Fig.6-1] Client/Server model It operates data Read/Write by the protocol that the client connects and sets. (1) Client/ Server model Server does perform the function of ②... -
Page 36: Setting Dedicated Service
Chapter 6 Dedicated Service 6.2 Setting Dedicated Service 6.2.1 Basic parameter (1) Setting basic parameter in XG-PD Open XG-PD. Then, select slot that installed XBL-EMTA on project window. Double-click the slot. Double-click Select FEnet [Figure 6-3] Selecting basic parameter and setting communication module Double-clicking shows ‘communication module setting window’. - Page 37 Chapter6 Dedicated Service (2) Basic setting (a) Receiving stand-by time is by the time of disconnection without the client’s request. (b) Number of dedicated connection is the number of connecting clients. Up to 4 is available. (c) Number of channels of P2P is 4-dedicated connection numbers. (d) Setting driver (server) can be done by XGT server or Modbus TCP/IP (e) Server operates by the setting driver protocol.
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Page 38: Xgt Server
Chapter 6 Dedicated Service 6.3 XGT Server 6.3.1 TCP XGT server TCP XGT server operates as below [Fig.6-5] TCP XGT server operation flow. Client Server Transmission port : n >1024 Destination port : 2004 Transmission port : n >1024 ①SYN Destination port : 2004 Connection ②SYN ACK... -
Page 39: Modbus Tcp/Ip Server
Chapter6 Dedicated Service 6.4 Modbus TCP/IP Server Modbus TCP/IP server operates as below [Fig.6-6] Modbus TCP/IP Server operation flow. Client Server Transmission port : n >1024 Destination port: 502 Transmission port : n >1024 ①SYN Destination port: 502 Connection ②SYN ACK Connection ③ACK Modbus TCP/IP protocol... -
Page 40: Chapter 7 P2P Service
Chapter 7 P2P Service Chapter 7 P2P Service 7.1 P2P Service Function Introduction 7.1.1 Client model P2P service provides a client function as below [Fig.7-1] Client/Server model. It requests data Read/Write to server. When each block operation status is ON, it provides the function of connecting request frame to the right channel and receiving response. -
Page 41: Setting P2P Service
Chapter 7 P2P Service 7.2 Setting P2P Service 7.2.1 Setting P2P parameter (1) Setting communication module [Fig. 7-3] Communication module setting screen in P2Pparameter (a) As the left part of [Fig.7-3] project screen, select P2P02 or P2P03, double-click it. (b) P2P01 is a setting value of XGB CPU internal communication. It’s fixed as Cnet. (c) Double-clicking shows communication setting screen as the right part of [Fig.7-3]. - Page 42 Chapter 7 P2P Service (2) Setting channel [Fig. 7-5] P2P channel setting screen (a) As the left screen of [Fig.7-5] project screen, select P2P channel, double-click it. (b) Double-clicking shows P2P channel setting screen as the right part of [Fig. 7-5]. (c) Select the desired driver by clicking the arrow icon of P2P driver on P2P channel setting screen.
- Page 43 Chapter 7 P2P Service (6) Setting P2P block [Fig. 7-7] P2P block setting screen (a) After finishing setting channels, select P2P block on the project screen as the left screen of [Fig.7-7], double-click it. (b) Double-clicking shows block setting screen as the right screen of [Fig.7-7]. (7) Setting P2P block channel [Fig.
- Page 44 Chapter 7 P2P Service (8) Setting P2P block driver [Fig. 7-9] Setting P2P block function and operation condition (a) Select P2P function as the left screen of [Fig. 7-9]. Function can be selected by the assigned channel driver. (b) Client selects READ/WRITE. (c) Modbus TCP client selects READ/WRITE.
- Page 45 Chapter 7 P2P Service (10) Setting number of P2P block variables [Fig. 7-11] Setting number of P2P block variables (a) Set number of variables as [Fig. 7-11]. (b) XGT client selects SINGLE/CONTINUOUS. (c) Modbus TCP client is fixed as 1. (d) User define frame can not select types.
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Page 46: Enable Link
Chapter 7 P2P Service [Fig. 7-13] Finishing setting P2P block variables and setting block (d) Write read area/save area of XGB CPU as the left screen of [Fig. 7-13]. (e) Clicking enter key finishes setting block as [Fig. 8-11]. 7.2.2 Enable link (1) P2P enable setting screen [Fig. - Page 47 Chapter 7 P2P Service (2) P2P enable [Fig. 7-15] P2P enable (a) Select the desired P2P check box as the left screen of [Fig. 7-15], click enter key. (b) Clicking enter key shows finishing screen of setting as the right screen of [Fig. 8-13].
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Page 48: Xgt Client
Chapter 7 P2P Service 7.3 XGT Client 7.3.1 XGT client introduction XGT Client provides a data read/write function sending request frame to server by using XGT dedicated protocol. It sends a frame when the operation condition of each block is ON. By 2 ways communication type of TCP and UDP, XBL-EMTA uses XGT client function. -
Page 49: Modbus Tcp Client
Chapter 7 P2P Service 7.4 Modbus TCP Client 7.4.1 Modbus TCP Client Modbus TCP client provides a data read/write function sending request frame to server using function code by Modbus TCP/IP protocol. It sends a frame when the operation condition of each block is ON. Client Server Transmission port : n >1024... -
Page 50: User Define Frame
Chapter 7 P2P Service 7.5 User define frame 7.5.1 TCP user define frame client (1) Setting user define frame channel [Fig. 7-18] Setting user define frame channel (a) Set the channel driver to user define frame as the left screen of [Fig. 7-18]. (b) Select TCP/UCP as the right screen of [Fig. - Page 51 Chapter 7 P2P Service (3) Setting user define frame group addition [Fig. 7-20] Setting user define frame group addition (a) Setting user define frame group addition of [Fig. 7-20] (b) Select user define frame group addition as the left screen of [Fig. 7-20], click right button of mouse. It shows pop-up menu ‘Add Group’.
- Page 52 Chapter 7 P2P Service [Fig. 7-22] Finishing user define frame group addition (c) Input group name in Group Edit as the left screen of [Fig.7-22]. Group name can be inputted in random. (d) Check input information, click enter key. It adds new group on project window as the right screen of [Fig.7-22]. (5) Adding user define frame HEAD [Fig.
- Page 53 Chapter 7 P2P Service (6) Adding user define frame HEAD segment [Fig. 7-24] Adding user define frame HEAD segment (a) Double-click SEND.HEAD area as the left screen of [Fig. 7-24]. It shows segment adding window. (b) Select type ‘Numerical constant’ on Add segment. [Fig.
- Page 54 Chapter 7 P2P Service (7) Adding user define frame TAIL [Fig. 7-26] Adding user define frame TAIL (a) Click right button of mouse on the added group as the left screen of [Fig. 7-26]. It shows pop-up menu ‘Edit Group/Delete Group/Add Frame’. (b) Select Add Frame, click mouse.
- Page 55 Chapter 7 P2P Service [Fig. 7-28] Finishing user define frame TAIL segment input (c) Input data as the left screen of [Fig. 7-28], click enter key. (d) Clicking enter key finishes segment adding as the left screen of [Fig.7-28]. (9) Adding user define frame BODY [Fig.
- Page 56 Chapter 7 P2P Service [Fig. 7-30] Adding user define frame BODY (e) Double-click SEND.TAIL area as [Fig.7-30]. It shows segment adding window. (f) Select type ‘Numerical constant’ on Add segment. [Fig. 7-31] Finishing setting user define frame segment addition (g) Input data as the left screen of [Fig.7-31], click enter key. (h) Clicking enter key finishes segment adding as the left screen of [Fig.7-31].
- Page 57 Chapter 7 P2P Service (10) Setting user define frame block and selecting frame [Fig. 7-32] Setting user define frame block and selecting frame (a) Registered group frame can be selected when the setting driver is user define frame. (b) Selecting frame finishes setting block as [Fig.7-32]. [Fig.
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Page 58: Tcp/Udp User Define Frame Server
Chapter 7 P2P Service 7.5.2 TCP/UDP user define frame server Client Server Transmission port : n >1024 Destination port : user’s assignment Transmission port : n >1024 ① Destination port : usr’s assignment Connection ② SYN ACK Connection ③ User define frame (Client) ④... -
Page 59: Tcp User Define Frame Client
Chapter 7 P2P Service 7.5.3 TCP user define frame client Client Server Transmission port : n >1024 Destination port: user’s assignment Transmission port: n >1024 ① Destination port : user’s assigment Connection ② SYN ACK Connection ③ User define frame (Client) PUSH ACK User define frame... -
Page 60: P2P Diagnosis Function
Chapter 7 P2P Service 7.6 P2P Diagnosis Function 7.6.1 Service condition diagnosis using XG-PD [Fig. 7-36] System diagnosis (1) After connecting it through XG-PD, click System Diagnosis as the left screen of [Fig.7-36]. (2) It shows present system picture as the right screen of [Fig. 7-36] [Fig. - Page 61 Chapter 7 P2P Service [Fig. 7-38] Status by service (5) It shows ‘Status by service’ window as the left screen of [Fig. 7-38]. (6) Select P2P service tap, it shows P2P service condition as the right screen of [Fig. 7-38].
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Page 62: Chapter 8 High Speed Link Service
8.1 General 8.1.1 General HS link service is a communication method between XGB Series and XGT Series PLC communication modules. This service provides that function does send/ receive data periodically by setting parameters. HS link service does send frame to Subnet Broadcast by using UDP protocol. -
Page 63: Hs Link Parameter
Chapter 8 High Speed Link Service 8.2.2 HS link parameter (1) Setting communication module Double-click Select slot [Fig. 8-2] Setting communication module in HS link parameter (a) Select HS link 01 or HS link 02 on project window as the left screen of [Fig. 8-2], double-click it. (b) Double-clicking shows communication module information setting window as the right screen of [Fig.8-2]. - Page 64 Chapter 8 High Speed Link Service (2) Setting HS link sending block Select station type Select ‘Send’ [Fig. 8-4] Setting HS link Sending Block station type and mode (a) Set station type ‘MASTER’ as the left screen of [Fig. 8-4]. (b) Select mode ‘Send’...
- Page 65 Chapter 8 High Speed Link Service (e) Input READ area as the left screen of [Fig. 8-6]. READ area is each area of XGB CPU module. (f) Inputting word size of READ area as the right screen of [Fig. 8-6] finishes setting sending block . (3) Setting HS link receiving block Select station type Select ‘Receive’...
- Page 66 Chapter 8 High Speed Link Service Input data size Input save area [Fig. 8-9] Setting HS link receiving block station no. and mode (e) Input save area as the left screen of [Fig 8-9]. Save area is the data saving area when each area of XGB CPU module receives the frame of block no.
- Page 67 Chapter 8 High Speed Link Service (4) HS link enable [Fig. 8-11] HS link enable (a) Connecting it through XG-PD, click link enable on On-line menu. (b) Select HS link 01 or HS link 02. [Fig. 8-12] Finishing HS link enable (c) Click check box, then click write button.
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Page 68: Hs Link Flag
Chapter 8 High Speed Link Service 8.3 HS Link Flag HS link service exchanges between over 2 stations of communication modules. To verify the reliability of read data from destination station through HS link, HS link service provides HS link information to user. Communication module provides HS link information synthesizing receiving data by the time every some general interval And it verifies if the HS link operates in good condition followed by the user’s assigned parameter. -
Page 69: Hs Link Flag Memory Address
Chapter 8 High Speed Link Service (3) Synthesized status indication Flag of Block (a) It’s an individual information showing operation status by HS link parameter registration item. (b) It indicates Max. 128 of HS link status by registration item and Max. registration numbers. (c) It shows the synthesized information of registration item by synthesizing individual information. - Page 70 Chapter 8 High Speed Link Service Classification Variables Type Device Description L00360 Normal communication with HS link block No.2 No.000 _HS2_TRX000 L0039F Normal communication with HS link block No.2 _HS2_TRX063 No.063 Error L00140 Operation error mode of HS link block No.1 No.000 _HS1_ERR000 L0017F Operation error mode of HS link block No.1 No.063...
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Page 71: Chapter 9 Remote Communication Control
Chapter 9 Remote Communication Control Chapter 9 Remote Communication Control 9.1 General Remote communication control is a function is for programming, download of user program, program debugging, monitoring, etc in network system where PLCs are connected with each other Enet by remote control without moving the physical connection status of XD-PD. - Page 72 Chapter 9 Remote Communication Control 9.2 XG-PD Setting and Connection All PLCs connected with XGT network are available to connect each PLCs by XG-PD communication service. XG-PD remote connection is composed of remote 1 connection (Hereafter, referred to as remote 1) and remote 2 Connection (Hereafter, referred to as remote 2) Following shows remote1 and remote 2 [Fig.
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Page 73: Remote 1 (Rs-232C Cable)
Chapter 9 Remote Communication Control 9.2.1 Remote 1 (RS-232C Cable) For remote 1, XG-PD shall be in off-line status. In this status, select ‘Option’ from the project menu. It shows option dialogue box. Then, select ‘Option’ tap. [Fig. 9-3] XG-PD remote connection option selecting (1) Connection type (a) Select local connection type. - Page 74 Chapter 9 Remote Communication Control (3) Connecting (a) Select Rnet, Fdnet, Cnet, FEnet, FDEnet by the remote 1 network type. (b) [Fig. 9-4] shows remote 1 through FEnet. (c) Select XGL-Enet. (4) Base No. (a) Assign Base No. that is installed with FEnet I/F module for remote connection. (5) IP address (a) FEnet I/F module IP that installed in destination station PLC for remote 1 in network 1 (b) Assign address.
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Page 75: Remote 2 (Rs-232C Cable)
Chapter 9 Remote Communication Control 9.2.2 Remote 2 (RS-232C Cable) Remote 2 sets connection stage/remote2 from project/option/connection option. [Fig.9-5] shows remote 2, it’s an example of connection to Fnet I/F module of PLC E through FEnet I/F module of PLC B. To do remote 2, at the connection stage of project/option/connection option, select remote 2, then it shows the following box. - Page 76 Chapter 9 Remote Communication Control [Fig. 9-5] XG-PD remote 2 Other parts are same as the step of remote 1. Only the step of remote 2 explains. (1) Network type setting (a) Select XGT FEnet by network remote 2. (b) Network type of remote 1 and remote 2 have no relevance. (2) Slot No.
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Page 77: Direct Remote 1 On Enet Connecting Pc
Chapter 9 Remote Communication Control 9.2.3 Direct remote 1 on Enet connecting PC When a PC with operating XG-PD connects to PLC on network, remote 1 by Enet is available without connecting RS- 232C to PLC CPU. XG-PD XG-PD XG-PD 또는... - Page 78 Chapter 9 Remote Communication Control [Fig. 9-7] Direct remote 1 on PC (1) Connecting type (a) Select connecting type. [Fig. 9-7] shows the Enet connection without using RS-232C. Select Enet. (2) Connection stage (a) Decide remote 1 or remote 2 for the connection with PLC. In this case, select remote 1. (3) IP address (a) Record IP address of FEnet I/F module for connection.
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Page 79: Direct Remote 2 On Enet Connecting Pc
Chapter 9 Remote Communication Control 9.2.4 Direct remote 2 on Enet connecting PC Remote 2 is available by using Enet, the step is same as that of remote 1. Example of setting connection option is as following. [Fig. 9-8] Direct remote 2 from on PC... - Page 80 Chapter 9 Remote Communication Control Remark 1) Cautions for Remote 1 connection and Remote 2 connection (1) Following menu item can’t be available when XG-PD present open project and remote 1 and 2 connected CPU type are not well matched. a) Program and Write each parameter b) Program and Read each parameter c) Monitor...
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Page 81: Chapter 10 Troubleshooting
Chapter 10 Troubleshooting Chapter 10 Troubleshooting This chapter describes defects and errors that may occur in system operation, their causes and actions to take against. If any error occurs on XGB Fast Enet I/F module, its related details can be checked through the procedures below. Any discretionary or disassembly is not allowed. - Page 82 Chapter 10 Troubleshooting Error Details Actions 3. Check if HS link parameter setting ☞ When parameter’s not set, station no. is overlapped, wrong block setting, wrong block no., communication is not available. 4. Check link enable setting ☞ With link enable setting, frame can be sent. 1.
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Page 83: Warranty
3. Since the warranty details above are to guarantee the PLC unit only, the customers are strongly recommended to use the product after due consideration of safety for system configuration or product application. Environmental Policy LS Industrial Systems Co., Ltd supports and observes the environmental policy as below. Environmental Management About Disposal LS Industrial Systems considers the LS Industrial Systems’...
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