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1. Status 2 Data is the Temperature of the CJC with one implied decimal place Broken Thermocouple Indication The channel data goes to zero and ERM Workbench Slave Error List shows error in Extended Error column E 3 Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 Ue T1H EBC 100 Analog Module Addressing H2 4 ERM 100 Part Number Channel Data Module Configuration Data Diagnostics Data T1F 16RTD Input Data V 0 Ch1 V 2 Ch2 V 4 Ch3 V 34 Ch15 V 36 Ch16 No Software Configuration RTD Type Set by Jumpers Broken RTD Indication The channel data goes to zero and ERM Workbench Slave Error List shows error in Extended Error column T1F 8AD4DA 1 T1F 8AD4DA 2 T1F 08DA 1 Input Data V 0 Chi V 2 Ch2 V 4 Ch3 V 6 Ch4 V 10 Ch5 V 12 Ch6 V 14 Ch7 V 16 Ch8 Output Data V 0 Ch1 V 2 Ch2 V 4 Ch3 V 6 Ch4 Input Data V 0 Chi V 2 Ch2 V 4 Ch3 V 6 Ch4 V 10 Ch5 V 12 Ch6 V 14 Ch7 V 16 Ch8 Output Data V 0 Chi V 2 Ch2 V 4 Ch3 V 6 Ch4 Output Data V 0 Chi V 2 Ch2 V 4 Ch3 V 6 Ch4 V 10 Ch5 V 12 Ch6 V 14 Ch7 V 16 Ch8 Analog Output Configuration T1F 8AD4DA 1 Output Enable Y 0 0 Outputs OFF 1 Outputs Enabled Y 1 N A Y 2 N A 0 20mA or 4 20mA Y 3 0 0 20mA range 1 4 20mA range Y 4 to Y 7 Reserved I2. gt gt gt lt MMMMMMM gt MM MM lt gt lt A 4 lt A AAAAAAAAAAAAAAAAAAAAA4AA A A lt _ e Input Channel Address Error Words Channel 1 30033 30034 Channel 2 30035 30036 Channel 3 30037 30038 Channel 4 30039 30040 37421 is the Error Flag Word For Words 2 to 4 refer to the Current Last etannel SO 30043 State Error Codes Table Chapter 4 Channel 6 30043 30044 Channel 7 30045 30046 Extended Error Codes 0 Transmitter OK 1 Broken Transmitter 37425 is the Extended Error Code for Ch1 SULE SDA E 37426 is the Extended Error Code for Ch2 Channel 9 30049 30050 37427 is the Extended Error Code for Ch3 Channel 10 30051 30052 37438 is the Extended Error Code for chi4 7 is the Extended Error Code for Channel 11 30053 30054 37440 is the Extended Error Code for Ch16 Channel 12 30055 30056 Writ to cl Channel 13 30057 30058 410001 is the EBC Dynamic br Error Code Write zero to clear Channel 14 30059 30060 Channel 15 30061 30062 Channel 16 30063 30064 D 8 l Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M T1H EBC 100 ANALOG MODULE ADDRESSING H2 4 ERM 100 ENDIX E In This Appendix T1H EBC 100 Analog Module Addressing H2 4 ERM 100 Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 eee RRR RRR RRR EERE T1H EBC 100 Analog Module Addressin
3. D ES of X LL D X cys D 28 Te 0 faa W E AutomationDirect KEPDirectServer Item sts Type dve 3 MyGroup IcChannel1 Devicel ASCII_Data_Input ASCII Input String Test Successful p Ready Item Count 3 4 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M TLH EBC100 ANALOG MODULE ADDRESSING Mobbus TCP D In This Appendix T1H EBC100 Analog Module Addressing Modbus TCP Appendix D T1H EBC100 Analog Module Addressing Modbus TCP eee RR RRR RRR RRR T1H EBC100 Analog Module Addressing Modbus TCP Using the NetEdit3 utility find and select the IP address of the desired T1H EBC 100 Then select the EBC Settings tab and the Show Base Contents button to see the I O modules in the T1 H EBC100 base and the Modbus addressing for those modules You should see something similar to the following Show Base Contents K x Base 0 Slot 1 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30001 30032 Base 0 Slot 2 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30033 30064 Base 0 Slot 3 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30065 30096 Base 0 Slot 4 Module Type 27 Analog Input Analog Qutp 8 Bit outputs Modbus 584 984 8 Double word inputs Modbus 584 984 mput registers 30097 30712 4 Double word outputs Modbus 584 984
4. Wire each analog I O and DC output module independently to the external power supply Hot Swap The following steps explain how to Hot Swap an 1 0 module 1 0 Module Replacement 1 Remove I O module from base If necessary refer to the Terminator 1 0 Installation amp 1 0 Manual for steps on removing an I O module 2 The EBC Module Good LED will begin to fast blink 3 Install a new I O module with the exactly the same part number 4 Verify that the EBC LEDs have returned to normal Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M 2 10 Installation and Setup Ethernet Standards Various institutes and committees have been involved in establishing Ethernet data communication standards These specification standards assure Ethernet network compatibility for products from a broad variety of manufacturers The EBC module complies with American National Standards Institute ANSI and Institute of Electrical and Electronic Engineers standard ANSI IEEE 802 3 Carrier Sense Multiple Access with Collision Detection CSMA CD Access Methods and Physical Layer Specifications This standard has been adopted by the International Organization for Standardization ISO as document ISO IEC 8802 3 The Electronic Industries Association EIA and Telecommunications Industries Commercial Building Telecommunications Wiring Standard designated EIA TIA 568A defines implementation of 10Base T twisted pair Ethernet communica
5. Extended Error Codes Analog Input Module Configuration Analog Output Module Configuration 4 2 Modbus TCP a E ao a TD e For T1H EBC100 Modbus TCP Modbus TCP is essentially the serial MODBUS RTU protocol encapsulated in a TCP IP wrapper Modbus RTU is used for serial communications between a master and slave s devices Modbus TCP is used for TCP communications between client and server devices on an Ethernet network The TCP version of Modbus follows the OSI Network Reference Model Client Server The Modbus messaging service provides a Client Server communication between Model devices connected on an Ethernet TCP network This client server model is based on four type of messages e Modbus Request the message sent on the network by the Client to initiate a transaction e Modbus Confirmation the Response Message received on the Client side e Modbus Indication the Request message received on the Server side e Modbus Response the Response message sent by the Server Client Server Model Request Indication ne The T1H EBC100 Client Server Base Controller master Confirmation Response slave is a network server q Protocol A typical Modbus TCP IP frame consists of the following fields Description TCP HEADER MBAP HEADER FUNCTION DATA The MBAP header MODBUS Application Protocol header is seven bytes long It consists of the following fields e Trans
6. 3 10 FilaMenusLive Update issus de Danse dan remains disent nets 3 11 A A D ee a he E 3 11 Locating the MAC Address Label 3 12 MAC Address air Hint ced cheer ee LO oe te Hea RS cog IR Pu a ea ceil ae ten 3 12 Chapter 4 MODBUS TCP IP for T1H EBC100 MODBUS TCP IP ns it a nk Wee retenue 4 2 Client Server Models 28422888 peck seu pee saone teens Seas eck 4 2 Protocol Description ssa os ee ae ee ee oe ek ae es ee ee hee 4 2 Supported MODBUS Function Codes s ssss 4 4 MODBUS 584 984 Addressing 4 5 MODBUS 584 984 Addressing for Function Code 3 Clients 4 6 T1H EBC100 System Memory 4 7 Current Last State Error Codes 4 10 Extended Error COURS cio ti td te ev reed ee Gates en eee 4 10 Analog Input Module Configuration 4 11 Analog Output Module Configuration 4 11 Chapter 5 T1H EBC100 DHCP amp HTML Configuration TIR EBGC100 DACP idinaraos ELA E eetaea o en mia 5 2 Disabling DHCP and Assigning a Static IP Address 5 2 Using HTML Configuration lt lt a dae eda ea ne tee de ee 5 3 Connecting to the TIH EBC10
7. C 5 Using the KEPDirect OPC Quick Client Using the RJ12 Serial Port in ASCII Mode The EBC RJ12 serial port can be configured for generic ASCII communications refer to the Advanced Settings section in the Using NetEdit chapter to confirm or change the RJ12 serial port settings Both the transmit buffer and receive buffer of the driver are 127 bytes in size Thus the corresponding tags can be a maximum of 127 bytes Incoming bytes are appended to the receive buffer Port specifiers precede the serial port address It defines which port the serial port address corresponds to To define an EBC address the mnemonic EBC is used and the mnemonic SPO specifies serial port O For addressing the EBC serial port no base or slot information is needed As shown below in the Hints dialog there are several port address parameters In many cases the default values can be used A detailed list explaining the parameters are found by clicking on the Help button in the Hints window Then click on the Index button in the Terminator I O I O Addressing window Then locate the H2 H4 Terminator I O Serial Port Addressing help section Tag Properties x General Scaling EBC SPO B4 amp UD Long EBC SPODATABITS Byte EBC SPO DATABITS Char _ Cancel EBC SPODATAIN Sting EBC 5PO DATAIN c Byte Help ESS PO DAT AIN Char MO MIERC SPODATAOUT Sting EBC SPODATAOUT rc Byte EBC SPO DAT AO T Hfe Char EB
8. a te a O m LL The Address parameter allows you to enter the desired driver address for this tag To determine how an address should be entered you can use the Hints button next to the address parameter Hints provide a quick reference guide to the address format of the driver Once you have entered an address you can test it using the check address button When pressed the check address button attempts to validate the address with the driver If the driver accepts the address as entered no message will be displayed If an error is detected a pop up will inform you of the error Keep in mind that some errors will be related to the data type selection and not the address string The Description parameter allows you to attach a commentto this tag A string of up to 64 characters can be entered for the description If you are using an OPC client that supports Data Access 2 0 Tag Properties the description parameter will be accessible from the Item Description property of the tag The Data Type selection allows you to specify the format of the tag s data as it is found in the physical device The data type setting is an important part of how a communication driver reads and writes data to a device For many drivers the data type of a particular piece of data is rigidly fixed The available data type selections are e Default This type allows the driver to choose its default data type see the specific driver help
9. 0 Io 1 mo U i OKE U e Base 0 Slot 2 Module Type 12 Discrete Output 16 Bit outputs Modbus 584 984 Coils 1 16 Save Print Fort Clase Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M 4 6 Modbus TCP Modbus 584 984 Addressing for Function Code 3 Clients The following memory map offers duplicate registers from the 30001 range and Bit memory data type into the 411000 range for clients masters that only support function code 3 These ranges are word level data only a E 102 J a TD For T1H EBC100 T1H EBC100 Modbus Word Data Type Range Decimal Words Memory Type Access 411000 411063 64 Discrete Output Read Coil Write 411064 411124 Reserved 411625 411688 64 Discrete Input Read Input only 411689 412062 Reserved Modbus Word Data Type Range Decimal Words Channel Memory Type 16 bit 32 bit Analog Input 412251 412762 512 256 Analog Input Register Read see table below only Input Register 412763 414250 Reserved Input Regist nput Register Bit Input Register 414251 414314 64 32 Discrete Input Bit Read Register only Input Register 414315 419250 Reserved Analog output 40001 40512 512 256 Analog Output Read see table below Register Write Hold Register Hold Register 40513 42000 Reserved Bit Output 42001 42064 64 32 Discrete Output Bit Read Register Register Write
10. Network Interface A This channel is configured to communicate over a network You can select the network adapter that the driver should use from the list below Select D efault if you want the operating system to choose the network adapter for you Network Adapter Default ba Default 3Com EtherLink PCI 192 168 10 90 NDIS 5 0 driver 0 0 0 0 lt Back Cancel Help Clients 0 Active tags 0 of 0 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M er O 0 Q nu xx TD c Cx oO aS LS O m LL Using T1H EBC 100 with KEPDirect OPC Server Setting the Server Writes Optimizations As with any OPC server writing data to your device may be the most important aspect of your application Insuring that the data written from your OPC client application gets to the device in a timely manners is the goal of the server KEPDirect provides a number of optimization settings that can be used to tailor the server to meet the needs and improve the responsiveness of your application There are currently three write optimization modes The following is a brief description of the modes For a detailed explanation refer to the Channel Properties Write Optimizations section in the KEPDirect on line help file NOTE We strongly suggest that you characterize your application for compatibility with these write optimization enhancements before using them in a produ
11. T1H EBC M Installation and Setup T1H EBC Specifications T1H EBC Ethernet Base Controller Module Type Ethernet slave Communications 10BaseT Auto configuring I O type position automatically identified during power up Ethernet Protocols UDP IP IPX Ethernet Port RJ45 Node Address 1 to 99 decimal set by rotary switches or software 0 used for setting address via software only co 23 Link Distance 100 meters 328 feet amp A Data Transfer Rate 10Mbps iw ve LED Indicators MODULE GOOD green Co On module passed diagnostic check po during last power up Note All indicators re initialize Fast blink configured 1 0 module no during power up longer reporting see auto configuring above Slow blink unconfigured I O module added to system see auto configuring above LINK GOOD green On 10Base T link pulses are being received ACTIVITY red On Ethernet network activity detected ERROR red On watchdog timer timeout represents hardware communications or network fault power on reset or reset within master device software Serial Communications Port RJ12 RS232C K Sequence protocol ASCII not functional when used with H2 ERM H4 ERM Base Power 350mA 5VDC Requirement General Specifications Installation Requirements mounts to right of first power supply Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature
12. click on the ConnectivityCenter shortcut in the Project Explorer 5 Once in ConnectivityCenter click on Drivers gt Add and select Automationdirect com Ethernet 1 0 Driver 5 Then click on Configuration gt Connect or click on the Connect toolbar button Connecting ConnectivityCenter will draw a picture of your EBC I O system to the EBC 4 Think amp Do Studio ConnectivityCenter Configuration S Configuration View Drivers Devices Tools Window Help l5 x sale ed ed lalaa Board View A 5 Missing Base Module or Any Other Error po Extra Base Module n Duplicate Base or Module Mismatch Terminator T iminaton EtherNet Total Bases 1 d TLK O8TRS T1F 08DA x EERE HEEE n o 0 TIH EBC Automationdirect com 1 0 Driver Slave 1 Jal Board Info Board Status Mapping Module Info Module Status Mapping 1 0 Mapping For Help press F1 NUM A Start ig Think amp Do Studio Projec A Think amp Do Studio Desig 2 Think amp Do Studio C 2 8 40AM Mapping I O Points This procedure is discussed in detail in the Creating a Project chapter in the Think to Data Items 8 Do Studio Learning Guide This will map your real world I O to Data Items Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with Think amp Do Hot Swap Setup Hot Swap Click on the T1H EBC 100 graphic and the Module Info tab in ConnectivityCenter Automatic M
13. ii pata Tag Deal Ex If bit O is set tian channel O has failed J Error Descriptions If bit 1 and 3 are set then channels 1 and 3 have failed Bl Error Descriptions 153 1 0 module missing 1 0 module removed in hot swap 2 EBC E ror Codes 154 1 0 Base has changed I O module replaced in hot swap Driver Error Messages 155 Module in error Possible errors missing 24 on discrete modules blown fuses on discrete modules missing 24V on analog modules missing CJC black on the T1F 14THM Driver Warming Messages Read Enars Write Errors gt Application Notes OC 200 216 XX unused analog input channels exist where XX Value Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using the KEPDirect OPC Quick Client In This Appendix Creating a KEPDirect Quick Client Project Using the RJ12 Serial Port in ASCII Mode C 2 D ES of X LL D X cys D 28 Te 0 faa W Using the KEPDirect OPC Quick Client Creating a KEPDirect Quick Client Project Connecting the Client to the OPC Server Creating a Client Group KEPDirect Quick Client can be used to assist in the test and development of KEPware s OPC Data Access 1 0 and 2 0 Servers A server connection provides a link between the Quick Client and the KEPDirect OPC server To add a server connection to the Quick Client you can use the Edi
14. lt KEPDirect EBC 1 0 Server untitled opf File Edit View Users Tool EE New Device Model Xx SHl in ia 3 Channeli AMM Click to add a device The device you are defining uses a device Description driver that supports more than one model The list below shows all supported models Select a model that best describes the device you are defining Device model Terminator 1 0 G51 Drive GS2 Drive GS3 Drive pesar re Clients O Active tags O of 0 Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with KEPDirect OPC Server Selecting the The Device ID parameter allows you to specify the driver specific station or node Device Model address for a given device Since the Automationdirect EBC driver is an Ethernet based driver a unique and valid TCP IP address must be entered IPX protocol is not supported 2 KEPDirect EBC 1 0 Server untitled opf i o x File Edit Wiew Users Tools tate El New Device ID xi D SHina Aab Channeli im Click to add a device The device you are defining may be multidropped as part of a network of devices In order to communicate with the device it must be assigned a unique ID our documentation for the device may refer to this as a Network ID or Network Address Device ID fisz 1568 23 14 g xipuaddy IREN UM 001 99
15. 2nd Edition Rev B T1H EBC M Using the T1H EBC 100 with KEPDirect OPC Server In This Appendix Introduction to KEPDirect KEPDirect Project Adding and Configuring a Channel KEPDirect Project Adding and Configuring a Device KEPDirect Project Adding Tags to the Project 11H EBC 100 I O Addressing Analog Output Module Configuration ES Using T1H EBC 100 with KEPDirect OPC Server Introduction to KEPDirect O 0 Q Ow xX Zs 0 a lt 8 faa LL Introduction to OPC DDE Support KEPDirect Channel Object Device Object Group Object Tag Object OPC OLE Object Linking and Embedding for Process Control is an industry standard created by a number of worldwide leading hardware and software suppliers in cooperation with Microsoft The OPC Data Access specification as maintained by the OPC Foundation is a non proprietary technical specification that defines a set of standard interfaces based upon Microsoft s OLE COM technology An OPC server driver allows items such as distributed control systems programmable logic controllers I O systems and smart field devices to communicate with a wide range of HMI SCADA client software packages residing on a PC Traditionally each software or application developer was required to write a custom interface or server driver to exchange information with hardware field devices OPC eliminates this requirement allowing manufac
16. 3 51 81000 5253 B1255 Char 51 80 000 5253 B0255 Byte 48 51 80000 253 80255 Char 2 8 51 DB1000 5253 DB1255 Float E B AutomationDirect KEPDirectServer EM Channel E _System 5 88 Devicel EN _System 51 080000 5253080255 Float PL er Item Count 3 4 Hints 1 DINNN 253 D140 Short Ready M Browse flat address space on selected branch Add Leaves TT Validate item before adding it to the list O Count 1 If the OPC Server was configured to automatically generate OPC tags the generated tags would be browsable from the OPC client If automatic tag generation was not selected create an item by 1 browsing the OPC Server branch tags 2 highlighting the desired tag in the right column 3 clicking on the Add Leaves button 4 clicking on the Green Check Mark button to validate the item 5 and clicking on the OK button 9 Xipuaddy m U Q 2 A m U x Q After clicking on the OK button the following window will be display the created items ox OPC Quick Client Untitled File Edit View Tools Help W AET a b BS gy Automation Direct KEPDirectSery er 16 21 20 127 3 MyGroup Channel1 Device 1 Slot1_OutputO Boolean O0 Channel Device 1 5et_Port_to_ASCII Byte 16 17 54 600 Channeli Device 1 45CII_Data_Input String 16 17 54 600 M Item Count 3 4 Ready Terminator I O EBC User Manual 2nd
17. 4 F to 158 F 20 Cto 70 C Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases pollution level 2 UL 840 Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Impulse noise 1us 1000V FCC class A RFI 144MHz 430MHz 10W 10cm Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M 2 7 Installation and Setup T1H EBC100 Specifications T1H EBC100 Ethernet Base Controller Module Type Ethernet slave Communications 10 100BaseT Auto configuration I O type position automatically identified during power up IP Configuration Obtain an IP address from a DHCP Server automati cally at power up Default Dedicated IP address using NetEdit3 or HTML config uration Ethernet Protocols TCP IP UDP IP IPX MODBUS TCP IP Ethernet Port RJ45 a D 5 Node Address 1 to 99 decimal Jv set by rotary switches or software a D 0 used for setting address via software only 09 a 0 Link Distance 100 meters 328 feet 2 5 Data Transfer Rate 10 100Mbps ea LED Indicators MODULE GOOD green On module passed diagnostic check during last power up Note All indicators re initialize Fast blink configured I O module no during power up longer reporting see auto configuring above Slow blink unconfigured I O module added to system see auto configuring above LINK ACTIVITY green On Ethernet net
18. 4 Non bit Output Count 37329 37400 Reserved 419579 419650 For clients that only support function code 3 to read word data continued Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M a E 102 J a TD For T1H EBC100 Modbus TCP T1H EBC100 System Memory continued T1H EBC100 Modbus Addressing Range Decimal Words 16 bit Word Descriptions Access EBC Dynamic Module Data 410001 410020 20 1 See Error Codes on p 4 9 2 Error bit per slot for first 16 slots If any bit is set see extended error info of Module Sta tus data for specific problem 3 Error bit per slot for second 16 slots if present If any bit is set see extended error info of Module Sta tus data for specific problem NOTE Any write to 1 2 or 3 above will clear the module slot errors 4 Flags Bit 0 If 1 module has rebooted since this bit was cleared a write to the Flags word with this bit set will clear this reboot bit Bit 1 Write Only Bit A write to the Flags word with this bit set will cause the base to be re scanned Bit 2 Write Only Bit If Bit 1 is set to do rescan this bit is used to indicated if RESCAN_LEAVE_IMAGE_RAM or RESCAN_CLEAR_IMAGE_RAM Bit 3 7 Reserved 5 Reboot Count LSW Read Only 6 Reboot Count MSW Read Only 7 Link Monitor Timeout 0 to disable 8 20 Reserved
19. Apply power e Link to the module and change the Node Address using the software of your choice Remember to update the module before exiting the software Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M ES Installation and Setup 10BaseT 100BaseT Network Cabling The T1H EBC module supports the Ethernet 10BaseT standard The T1H EBC100 module supports the Ethernet 10 100BaseT standard The standards call for twisted pairs of copper wire conductors _ Terminator I O Diagnostic LEDs Rotary Switches 5 amp is S D and Setup 10BaseT 10BaseT 100BaseT The EBC has an eight pin modular jack that accepts RJ45 connector plugs UTP connections Unshielded Twisted Pair cable is rated according to its data carrying ability bandwidth and is given a category number We strongly recommend using a Category 5 CAT5 cable for all Ethernet 10BaseT 100BaseT connections For convenient and reliable networking we recommend that you purchase commercially manufactured cables cables with connectors already attached To connect an EBC or PC to a hub or repeater use a patch cable sometimes called a straight through cable The cable used to connect a PC directly to an EBC or to connect two hubs is referred to as a crossover cable Some hubs provide a crossover port which eliminates the need for a crossover cable Patc
20. Bits x300 x317 40414 ERM Status Word x320 x337 140415 Disable Slave Comm Y300 Y317 40514 Slave 1 T1H EBC100 hotswap auto E theret Address 00 ED 62 40 22 9F on Slave 1 Slot 1 16 Double Word Input 2000 2037 32 bit Binary Slave 1 Slot 2 16 Double Word Out 2100 V2137 32 bit Binary 8 Discrete Output Y320 Y327 40515 Slave 1 Slot 3 8 Double Word Input 2040 V2057 32 bit Binary 4 Double Word Output 2140 2147 32 bit Binary 8 Discrete Output 330 337 40515 Slave 1 Slot 4 8 Double Word Input V2060 V2077 32 bit Binary Slave 1 Slot 5 8 Double Word Output V2150 V2167 32 bit Binary 8 Discrete Output Y340 Y347 V40516 Slave 1 Slot 6 8 Discrete Input x340 x347 V40416 Slave 1 Slot 7 8 Discrete Output 350 Y357 V40516 Read ERM Status MANUAL MODIFIED NUM 4 In this example 24VDC is applied to the T1F 08AD 2 in Slave 1 Slot 4 Voltage is applied to all eight channels V2060 and V2062 are displayed as both Signed Decimal DWORD and BCD Hex DWORD in this DirectSoft Data View V2064 V2076 are displayed as Signed Decimal DWORD Input Channel Value El feco ez y foworo Channel 1 4097 5V Element Status 2060 4097 Channel 2 4097 5V V2060 FFFFEFFF Channa iw V2062 4097 2062 FFFFEFFF Channel 4 1 0V LE da Channel 5 4097 5V 6 V2066 1 V2070 4097 Channel 6 4097 5V E oe 4097 Channel 7 8190 10V E 2074 8190 V2076 8191 Channel 8 819
21. Edition Rev B T1H EBC M C 4 D ES of X LL D X cys D 28 Te 0 faa W Using the KEPDirect OPC Quick Client Item Operations Item operations can be accessed by right clicking on the desired item or by using the Tools menu gt Group selection OPC Quick Client Untitled File Edit View Tools Help Osdia zet Activ Ex AutomationDirect KEPDirectServer Set Inactive 3 MyGroup New Item Synchronous Cache Read pi Synchronous Device Read 16 17 54 600 Synchronous Write 16 17 54 600 channel Devi synchronous 2 0 Read Asynchronous 2 0 Cache Refresh Asynchronous 2 0 Device Refresh Asynchronous 2 Cut Ctri x Ready copy He Item Count 3 4 Paste Chit Delete Del Properties After clicking on the desired item operation a window similar to the following will be displayed In this example a logical 1 Boolean data type is being written to a discrete output to turn it on The item operations can be used to read discrete analog inputs and write to discrete analog outputs etc OPC Quick Client Untitled 5 xj File Edit View Tools Hm ers Asynchronous 2 0 Write D am ld ci a C p Automation Direct KEI 3 MyGroup Item ID Channel Device Slot _ Current Value Write Value D 1 16 17 54 600 16 17 54 600 Ready Item Count 3 4 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M
22. Hold Register 42065 44000 Reserved Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M 4 7 Modbus TCP T1H EBC100 System Memory T1H EBC100 Modbus Addressing Words Word Descriptions Access Range Decimal 16 bit Module Version 37001 37006 6 1 OS Major Version R only Information 419251 419256 2 OS Minor Version 3 OS Build Version 4 Booter Major Version 5 Booter Minor Version 6 Booter Build Version 37007 37010 Reserved 419257 419260 Device Data 37011 37100 90 1 Version of Device R only 419261 419350 2 Family 3 Processor 4 Module Type 5 Status Code 6 8 Ethernet Address 9 RAM Size 10 Flash Size 11 Batt Switch 12 DIP Settings 13 Media Type 14 15 Reserved 16 Reserved 17 Reserved 18 Model Number 19 Ethernet Speed 20 Reserved 21 IO Total Byte Count 22 Bit Input Byte Count 23 Bit Output Byte Count J 24 Non bit Input Byte Count x 25 Non bit Output Byte Count 39 26 90 Reserved T a a 1 0 Module ID s 37101 37132 32 I O module ID numbers per slot loca R only u 419351 419382 1 word tion 09 per slot 2 37133 37200 Reserved 419383 419450 Module Information 37201 37328 128 1 Bit Input Count R only 419451 419578 4 words 2 Bit Output Count per slot 3 Non bit Input Count
23. Panel Double click on Network and Dial up Connections then double click on the desired Network Device to see the installed Protocols If IPX is not listed among the protocols already loaded add it now by clicking on the Install button For Windows XP go from Start gt Settings gt Control Panel The steps are the same as Windows 2000 from this point Add the TCP IP protocol if it is necessary for your application The TCP IP selection will give you support for the UDP IP protocol Also add the IPX protocol if it is not already active nctwork Properties OOO OOOO Oooo 2j xj General Shaina Connect usng BD Readeh ATLOT IAAP based PO Fast Ehanet Adapter Configure Components checked ae used by this Connection gt NOTE We strongly recommend you load IPX protocol on your PC for the connection from your PC to the ethernet modules Use UDP IP in your application if required but also add IPX to your list of active protocols Having IPX loaded on your PC gives you a backup for troubleshooting communication problems Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Using NetEdit3 ES Using NetEdit3 This section steps through the features and uses of NetEdit3 We will describe the individual segments of the NetEdit3 screen and the function of each NOTE Your PC based Control software may be capable of configuring the EBC module If so please refer to the appropriate documen
24. R W Configuration Data 410021 410052 32 1 word per slot to read write module configuration data See Analog I O Module Configuration tables at the end of this chapter for bit definitions R W 410053 425536 Reserved continued Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Modbus TCP T1H EBC100 System Memory continued T1H EBC100 Modbus Addressing Words Word Descriptions Access Range Decimal 16 bit 1 0 37401 38040 640 1 Flags with bits indicating presence of Error Warning Info Values R only Module 419651 420290 20 words Bit 0 If set indicates that Error Value is non zero Status per slot Bit 1 If set indicates that Warning Value is non zero Bit 2 If set indicates that Info Value is non zero Bit 3 Reserved Bit 4 If set indicates that Extended error info is present Bit 5 Reserved Bit 6 Reserved Bit 7 Reserved For Words 2 4 refer to Current Last State Error Codes Table p 4 9 2 Error Code 3 Warning Code 4 Info Code For Words 5 20 refer to Extended Error Codes Table p 4 9 5 Extended Error Code 1 i e channel 1 of an analog module 6 Extended Error Code 2 i e channel 2 of an analog module 7 Extended Error Code 3 i e channel 3 of an analog module 8 Extended Error Code 4 i e channel 4 of an analog module 9 Extended Error Code 5 i e channel 5 of an analog module 10 E
25. Slave Comm Y300 Y317 40514 Slave 1 T1H EBC100 hotswap auto E themet Address 00 E0 62 40 22 SF on Slave 1 Slot 1 16 Double Word Input 2000 V2037 32 bit Binary Slave 1 Slot 2 16 Double Word Out 2100 V2137 32 bit Binary 8 Discrete Output Y320 Y327 V40515 Slave 1 Slot 3 8 Double Word Input 2040 V2057 32 bit Binary 4 Double Word Output 2140 2147 32 bit Binary 8 Discrete Output Y330 Y337 40515 Slave 1 Slot 4 8 Double word Input V2060 2077 32 bit Binary Slave 1 Slot 5 8 Double Word Output 2150 V2167 32 bit Binary 8 Discrete Output Y340 Y347 40516 Slave 1 Slot 6 8 Discrete Input x340 X347 V40416 Slave 1 Slot 7 8 Discrete Output 350 Y357 Y40516 Ready Read ERM Status MANUAL MODIFIED Num In this example 24VDC is applied to the T1F 16DA 2 in Slave 1 Slot 2 and a multi meter is used to measure the output The outputs are enabled and configured for 5 to 5V range All V memory values in this DirectSoft Data View window are displayed as Decimal DWORDs Data j i Output Channel Address Value Discrete Bits Value Decimal y oworo gt 0 fri Channel 1 V2100 0 5V Y320 ON for Output Enable T Channel 2 V2102 270 4 34V Y321 PA Channel 3 V2104 525 3 71V 322 OFF selects 5V output range Channel 4 V2106 780 3 09V 1323 to Y327 ui Channel 5 V2110 1035 2 47V el vV2116 2055 2055 Channel 6 V2112 1545 1 2
26. V2077 32 bit Binary lave 1 Slot 5 8 Double Word Output 2150 V2167 32 bit Binary 8 Discrete Output Y340 Y347 Y40516 lave 1 Slot 6 8 Discrete Input x340 347 40416 lave 1 Slot 7 8 Discrete Output Y350 Y357 40516 Ready Read ERM Status AUTO MODIFIED NUM For the example above the I O configuration for Slave 1 is Slot 1 T1F 14THM Slot 2 T1F 16DA 2 Slot 3 T1F 8AD2DA 2 Slot 4 T1F 08AD 2 Slot 5 T1F 08DA 2 Slot 6 T1K 08NA 1 Slot 7 T1K 08TR Use the addresses shown in the ERM Workbench along with the following table to access the analog I O with your ERM master Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 T1H EBC 100 Analog Module Addressing H2 4 ERM 100 Part Number Channel Data Module Configuration Data Diagnostics Data T1F 08AD 1 Input Data V 0 Ch1 V 2 Ch2 V 4 Ch3 V 6 Ch4 V 10 Ch5 V 12 Ch6 V 14 Ch7 V 16 Ch8 No Software Configuration Input Range Depends on Input Signal 20 to 20mA 8192 to 8191 0 to 20mA 0 to 8191 4 to 20mA 1638 to 8191 No Built In Broken Transmitter Detection Monitor for counts less than 1638 when using 4 to 20mA T1F 08AD 2 Input Data V 0 Ch1 V 2 Ch2 V 4 Ch3 V 6 Ch4 V 10 Ch5 V 12 Ch6 V 14 Ch7 V 16 Ch8 No Software Configuration Input Range Depends on Input Signal 0 to 5V 0 to 4095 0 to 10V 0
27. administrator configures a DHCP server with a range of IP addresses that can be assigned to DHCP enabled clients i e T1H EBC100 In addition to an IP address a DHCP server can provide other information such as DNS domain or a gateway IP address DHCP uses the concept of a lease or amount of time that an assigned IP address will be valid for a client The lease time can vary depending on how long a user is likely to require the network connection at a particular location Since the TCP IP configuration is leased to the client that is its not a permanent configuration This information can change from one power up session to the next While this is an acceptable solution for the initial testing and setup of your T1H EBC100 device we do not recommend that you use DHCP to assign IP addresses for your runtime operation Use NetEdit3 or the T1H EBC100 s HTML Configuration page to assign a static IP address to the module shown below NetEdit3 can be used to connect to a T1H EBC100 using the IPX protocol regardless of the IP address that was assigned to it by a DHCP server Disabling DHCP and Assigning a Static IP Address You can use NetEdit3 or the T1H EBC100 s HTML Configuration page to disable DHCP and assign a static IP address to the module Click on the Use the following IP Address button and enter a valid IP address for your network application Er L a O E a Configuration NetEdit3 refer to chapt
28. for details e Boolean Single bit data On or Off e Char Signed 8 bit data e Byte Unsigned 8 bit data e Short Signed 16 bit data Word Unsigned 16 bit data e Long Signed 32 bit data Dword Unsigned 32 bit data e Float 32 bit Real value IEEE format e String Null terminated ASCII string e Double 64 bit Real value IEEE format BCD Two byte packed BCD value range is O 9999 e LBCD Four byte packed BCD value range is O 99999999 The Client access selection allows you to specify whether this tag is Read Only or Read Write By selecting Read Only you can prevent client applications from changing the data contained in this tag By selecting Read Write you are allowing client applications to change this tag s value as needed The DDE scan rate parameter allows to you specify the the update interval for this tag when used in a DDE client OPC clients can control the rate at which data is scanned by using the update rate that is part of all OPC groups The Allow client to override data type selection allows you force OPC clients to use the data type you have specified for this tag OPC clients can specify how they desire to view the data from a particular tag Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with KEPDirect OPC Server Creating a To determine how an address should be entered use the Hints button to the right User Define Tag
29. of the address field Hints provide a quick reference guide to the address format of the driver AE Tay Properties x File Edt View Users Dean lor EeP Channelt p Identification f Devices o 51 DI000 253 D1240 Short 51 DI000 253 D1240 Word e 51 DI000 253 D1248 Byte 51 D1000 253 01255 Boolean 00 5253 D0240 Short g xipuaddy Once you have entered an address you can test it using the check address 1 button When pressed the check address button attempts to validate the address with the driver If the driver accepts the address as entered no message will be displayed If an error is detected a pop up will inform you of the error Keep in mind that some errors will be related to the data type selection and not the address string Below is an example of a valid tag properties File Edit View Users Desarme lsa 1992110434 UM 001 993 Channeli r Identification m Devicel ae CCS 5 4 b a Address 1 D10 2 aj ns r Data properties Datatype Boolean F Client access Read Only Scanrate 100 milliseconds F Do not allow clients to override data type tS OK Cancel Apply Help ctive tags 0 of O The window below shows a valid configured channel device and several user defined tags t KEPDirect EBC 1 0 Server untitled opf File Edit View Users Tools Help D llrmooroimex a TagName Address DataType ScanRate Scali
30. of your application Using tag groups allows multiple sets of identical tags to be added under the same device This can be very convenient when a single device handles a number of similar machine segments From an OPC client standpoint the use of tag grouping allows you to segregate your OPC data into smaller tag lists which can make finding a specific tag easier when browsing the server g xipuaddy m R j e gt A m U O Tag Object KEPDirect allows both dynamic tags tag entered directly at the OPC client that specify device data and user defined tags User defined tags have the benefit of allowing the tag to be browsed from an OPC client that supports tag browsing User defined tags also support tag scaling Unlike many of the dialogs you will find in KEPDirect the tag properties dialog has a number of features that are driven by icons The tag name is part of the OPC browse data Tag names must be unique within a given device branch or tag group branch If your application is best suited by using blocks of tags with the same names use tag groups to segregate the tags Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M ES Using T1H EBC 100 with KEPDirect OPC Server KEPDirect Project Adding and Configuring a Channel Running the Server KEPDirect like any OPC server can be started a number of ways One of the benefits of OPC technology is that your OPC client can automatically invo
31. screen Module Info EBC Settings EBC Help General Help Configuration Utils Firmware Show Base Contents Update Firmware Serial Port Update Booter 170 Base Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M ES Using NetEdit3 EBC Settings gt Clicking the General button in the EBC Configuration e Le Settings gt Configuration box brings up the General Settings window below General Settings x Module ID C Obtain an IP address automatically Use the following IP settings Name IP Address Ww 1 8 8 Description T1HEBC100 Ethernet Base Il Controller Subnet mask 0 SER Gateway RES Cancel The General Settings box allows you to assign a Module ID Module IDs must be unique for each EBC but they do not have to be in sequence The module s Node Address rotary switches must both be set to zero to allow NetEdit3 to set a Module ID Do not use address zero for communications The Name field and Description field are optional To set an IP Address highlight the number in each of the four boxes and overwrite the number Use the twelve digit number assigned to the EBC module by your network administrator If you change the IP Address do not use the number 255 in any field Doing so will cause communication problems The OK button sends all the entries to the module s flash memory od D gt NetEdit3 An IP Addre
32. trademarked and are the sole property of their respective owners AutomationDirect disclaims any proprietary interest in the marks and names of others Copyright 2009 Automationdirect com Incorporated All Rights Reserved No part of this manual shall be copied reproduced or transmitted in any way without the prior written consent of Automationdirect com Incorporated AutomationDirect retains the exclusive rights to all information included in this document AVERTISSEMENT Nous vous remercions d avoir achet l quipement d automatisation de Automationdirect comMC en faisant des affaires comme AutomationDirect Nous tenons ce que votre nouvel quipement d automatisation fonctionne en toute s curit Toute personne qui installe ou utilise cet quipement doit lire la pr sente publication et toutes les autres publications pertinentes avant de l installer ou de l utiliser Afin de r duire au minimum le risque d ventuels probl mes de s curit vous devez respecter tous les codes locaux et nationaux applicables r gissant l installation et le fonctionnement de votre quipement Ces codes diff rent d une r gion l autre et habituellement voluent au fil du temps Il vous incombe de d terminer les codes respecter et de vous assurer que l quipement l installation et le fonctionnement sont conformes aux exigences de la version la plus r cente de ces codes Vous devez tout le moins respecter toutes le
33. tte eh Perdis bene eee Daten eee eee ae ete ben eee 2 10 Chapter 3 Configuring the T1H EBC 100 Using NetEdit3 NetEdit3 Software gt iia cra a a a wanna bid Bele 2 aves Due De 3 2 Installing NetEdit3 neia Loco a eee eee ees 3 2 Eaunching N tEdit3 gt 2er eana sae Rea Rae BES TOM TRA Ras de EE 3 3 DREAN EI mo lire e Ae E a eae ae ad ied acne Pacey qu sea co nia Paebag ahs Ga wiet e added ae whee 3 3 Adding Network Protocol Support to the NetEdit3 PC 3 4 CH Table of Contents Using NOTES a ode ae Ol eee eee alee een 3 5 Ethernet Communication Protocol 3 5 Ethernet Address nes tae a lens weet Us aera daa Gata bid nee saa ES 3 6 Module Type IP Address and ID lt otecos Bacay sos loathe sane be den es ments 3 6 Module Info gt General Information 4 222 3 7 Module Infos Ethernet Stats sico bd hd Pond Pd adi env Wie le dasha 3 7 EBC SCuUINGS assure mets dent be ie et Sid AER SE Mae a ease rene eat 3 7 EBCSettings gt Contiquration gt Generall iaa seus paces ae ea oe ed fades Sate Deeks 3 8 IPsAdGreSS mat iii a Be ee ee a E Aa eR ne a ed Laos ath A eas 3 8 EBC Settings gt Configuration gt Serial Port 3 8 EBC Settings gt Utils gt Show Base Contents 3 10 EBC S6tHinqsS FINAL ab rd ape te dee Soh nb ha ace eH eat dbl t
34. 0 5 3 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Table of Contents RU Appendix A Using the T1H EBC 100 with Think amp DO Mapping T1H EBC 100 I O Points 20 26 nt nn RE fe a ee bee A 2 Launching Connectivity Center Tool A 2 Connecting tothe EBC ice ued Goel nas ne Re Gel ele eel atte nee Utd hue a A 2 Mapping I O Points to Data Items A 2 Hot Swap Setups 2h ewes cee LA arta cess sheen panne O eee A 3 Hot Swap Automatic Modes 88808 ate alentar ele aie ma fs A 3 Hot Swap Manual Mode Reset A 3 Analog I O Module Configuration A 4 1 0 Module Status Word Bits A 4 Using EZTouch EZText Panel with the RJ 12 Serial Port A 5 Adding Operator Interface Device A 5 Using Monitor I O to Verify Panel Operation A 6 Appendix B Using the T1H EBC 100 with KEPDirect OPC Server Introduction to KEPDirect 32266 ice teas Aid B 2 Introduction to OPG ars iv st et ee eee ee ee wie ee ee eles B 2 DDE SUP MOR sce nn are oi ie A ew Ce ES em ee B 2 KERO eat ARS AR Seat de sert is oia del B 2 KEPDi
35. 0 10V Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M E 9 Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 a _ _ gt o Rm o e P L_ oz _ o_ e ci rT roo Notes E 10 Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M
36. 100 Analog Module Addressing Modbus TCP o The chart below lists all of the possible Control Byte combinations and their resulting configuration Control Byte Corresponding Configuration Address 50024 Output Enable Disable Unipolar Bipolar 5V 10V Range 0 Disabled Enabled Disabled Enabled Disabled Enabled Disabled Enabled Unipolar Bipolar Unipolar Bipolar T1F 16RTD Example Module in Slot 2 Using the Show Base Contents dialog below and the T1H EBC100 Analog Module Addressing Modbus TCP chart we can find all of the addresses associated with the T1F 16RTD module in Slot 2 The addresses are in the following chart Show Base Contents E x Slot 1 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30001 30032 Slot 2 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30033 30064 Slot 3 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30065 30096 Slot 4 Module Type 27 Analog Input Analog Output 8 Bit outputs Modbus 584 984 Configuration data 50024 8 Double word inputs Modbus 584 984 Input registers 30097 30112 4 Double word outputs Modbus 584 984 Holding registers 40001 40008 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M D 7 Appendix D T1H EBC100 Analog Module Addressing Modbus TCP A
37. 2V fg V2120 2310 2310 mo vere 2568 2565 Channel 7 V2114 1800 0 60V Mf V2124 2820 2820 Channel 8 V2116 2055 0 01V 12 2126 3075 3075 12130 3330 3330 Channel 9 V2120 2310 0 64V bE Ld Channel 10 V2122 2565 1 26V M5 2134 3840 3840 16 V2136 4095 4095 Channel 11 V2124 2820 1 88V 320 ON Ta va Channel 12 V2126 3075 2 50V Hal v322 OFF Channel 13 V2130 3330 3 13V Y323 10 324 Channel 14 V2132 3585 3 75V 325 OFF Channel 15 V2134 3840 4 37V 23 Y326 OFF 1 V327 WF Channel 16 V2136 4095 5V E 8 Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 T1F 08AD 2 Example Module in Slot 4 in ERM Module 00 E0 62 60 OD 29 ERM Workbench o 0 xj File View Help mA m 8 S Be y Ethemet Remote Master H4 ERM Ethemet Address 00 06260 0D 29 IP 192168 0 147 Module ID 47 z 1 Configure ERM CPU gt Slave Status Interface ee Erop A M2 3 4 5 fe 7 Te 2 Select Slaves Last ERM noernor PLCMode Run MH 7 eS NE LEON EE EN GE LEE 08 EE no Hit Read ERM Status A nece button to refresh Click on slave above Slave 1 no error to see its Last Error Read ERM Status ime of 150545 last read Clear Last Error Slave 1 Slave 1 s Error List Detailed ERM Status 1 0 Module 0 Points PLCStat PLCEnd v Map Note lt reserved Slave Status
38. 3 lt Back Next gt Cancel LHe Clients O Active tags 0 of 0 Setting the Device Device timeout parameters allow a driver s response to error conditions to be Timeout Properties tailored to the needs of your application The timeout parameters are specific to each device you configure Each of the field parameters is defined in detail in the Device Properties Timeout section in the KEPDirect on line help file KEPDirect EBC 1 0 Server untitled opf E 10 x File Edit View Users Tools ala New Device Communications Parameters O id if ia Channeli AIM click to add a device Description Enter the parameters you wish to use while communicating with the device Connect timeout refers to the time to wait for a successful initial connection Request timeout refers ta the time to wait for a request to be serviced Connect timeout F seconds Request timeout 1000 milliseconds Fail after F 4 successive timeouts lt Back Next gt Cancel hee Clients O Active tags O of O The Connection timeout allows the time required to establish a socket connection to a remote device to be adjusted The Request timeout is used by all drivers to determine how long the driver will wait for a response from the target device The Fail after parameter is used to determine how many times the driver will retry a communications re
39. 4 to 20mA No Broken Transmitter Detection N A for Voltage 1 0 Module Status 37401 Indicates if an error is present 37405 to 37420 One word per channel gives 1 if broken transmitter 0 if OK Once error condition is corrected write 0 zero to 410001 to clear errors 1 0 Module Status 37401 Indicates if an error is present 37405 to 37420 One word per channel gives 1 if broken transmitter 0 if OK Once error condition is corrected write 0 zero to 410001 to clear errors Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M D 3 Appendix D T1H EBC100 Analog Module Addressing Modbus TCP EERE T1H EBC100 Analog Module Addressing Modbus TCP Part Number Channel Data Module Configuration Data Diagnostics Data Analog Output Configuration T1F 8AD4DA 1 Output Enable Input Registers Bit 0 0 Outputs OFF Word 1 Ch1 1 Outputs Enabled Word 3 Ch2 Word 5 Ch3 Bit 1 N A Word 7 Ch4 Word 9 Ch5 Bite NA No Built In Broken Transmitter TIF 8AD4DA 1 ae T a E 0 20mA or 4 20mA Detection Word 15 Ch8 Bit 3 0 0 20mA range Monitor for counts less than 1638 when Holding Registers Word 1 Ch1 its 4 Wor a ch Bits 4 15 Reserved ord 5 Input Range Depends on Input Signal Word 7 Cha 20 to 20mA 8192 to 8191 0 to 20mA 0 to 8191 4 to 20mA 1638 to 8191 Analog Output Configuration T1F 8AD4DA 2 Output Enable Bit 0 0 Outputs OFF Input Registers aaa ch Word 1 Ch1 Outputs Enabl
40. BC settings tabs shown below to Show Base Contents access the module s configuration settings The settings are discussed Update Firmware later in this section Update Booker Restore Factory Settings Module Info EBC Settings Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M 3 7 Using NetEdit3 When the Module Info tab is selected the General Info box lists the Module Info gt bad ae selected module s Firmware Revision Booter Revision DIP Switch General he Hie 2a Information Setting PWB Revision PLD Revision and CPU Revision This box is in the lower left section of the NetEdit3 screen Module Info EBC Settings EBC Help Gene General Info Firmware Rev 401233 PWB Rev 5C Booter Rev 40 136 PLD Rev 14 Switch S etting 00 CPU Rev 1 0 6 Module Info gt When the Module Info tab is selected the Ethernet Stats Ethernet Stats box displays statistics related to the selected module s communication errors Click on the Reset Stats button to reset all categories to O zero This box is in the lower middle section of the zZ NetEdit3 screen QC m2 ez r Ethernet Stats Missed Frames Bad Packets TX Collisions 0 Unknown Type 0 Lost Packets 0 Send Errors 0 EBC Settings When the EBC Settings tab is selected the selected module s Configuration Utilities and Firmware tools can be accessed This box is in the lower middle section of the NetEdit3
41. C SPO DIFLUSH Boolean EBC SPOMODE Byte EBC SPO MODE Char zl 9 xipuaddy ERESMA NOE Scan rate The communication parameter defaults are 9600 baud 8 data bits 7 may be selected no parity odd or even may be selected 1 stop bits 2 may be selected Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M C 6 Using the KEPDirect OPC Quick Client The following tags were created in the KEPDirect OPC server for this example EBC SP0 MODE EBC SPO DATAIN lt KEPDirect EBC 1 0 Server C Program Files AutomationDirect KEPDirect OPC Servers Projects Example Copii File Edit view Users Tools Help Drm t mexe Channel 1 Tag Name Address DataType ScanRate Scaling Descripti m Sloti_Outputo 51 D00 Boolean 100 None Set_Port_to_ASCII BC SPO MODE Byte 100 None ASCII_Data_Input _ EBC SPO DATAIN tring 100 None Date Time User Name Source Event Clients 1 Active tags 3 of 3 The tags created above were browsed and selected as items within the Quick Client as shown below The EBC SPO MODE address must be set to a value of 1 to select the ASCII communications mode The ASCII string ASCII String Input Test Successful was entered via the RJ12 serial port The ASCII Sting displays in the ASCII Data Input Item ID s Value column OPC Quick Client test3 otc af x File Edit View Tools Help D ab id iat a rs Be x
42. Enabled DOO_Point 1 BiPolar DO1_Point 1 and 5V DO2_Point 0 The analog output data value is 1024 decimal and results in a voltage output of 2 5V ax File Edit View Tools Help DSi Mex E e AutomationDirect KEPDirectServer TtemID Datstype ue l B Channeli System Channeli TLHEBC21 SLOT_03 53_DWOD_LONG Long 1024 9 Channeli TLHEBC21 Channel TLHEBC21 5LOT_03 53_DWO0_DWORD DWord 1024 18 Channel TLHEBCZ1 _system channell TLHEBC21 5LOT_03 53_DO7_POINT Boolean 0 E Channelt TLHEBCZ1 SLOT_01 E Channeli TLHEBC21 SLOT_03 53_DO6_POINT Boolean 0 a pull eii a Channeli TLHEBC2 1 SLOT_03 53_DOS_POINT Boolean 0 channe 1 TLHEBC21 5LOT_03 53_D04_POIMT Boolean 0 Channel TLHEBC21 SLOT_03 53_D03_POINT 0 Channeli TLHEBC2 1 SLOT_03 53_D02_POINT 0 D Channelt TLHEBC21 SLOT_03 53_D01_POINT 1 Channel TLHEBC21 SLOT_03 53_DOO_WORD word 3 E Channeli TLHEBC2 1 SLOT_03 53_DOO_SHORT Short 3 Echanne 1 TLHEBC21 5LOT_03 53_D00_LONG Long 3 channell TLHEBC21 5LOT_03 53_DO0_DWORD DWord 3 E Channeli TLHEBC21 SLOT_03 53_DO0_CHAR Char 3 Channeli TLHEBCZ1 5LOT_03 53_DO0_BYTE Byte 3 Ready Item Count 91 4 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M 1911Qd2M UM 001 993 g xipuaddy Using T1H EBC 100 with KEPDirect OPC Server Diagnostic bits for Terminator I O family of analog I O are supported differently on each module but will present themselves as error b
43. Holding Registers Word 1 Chi Word 3 Ch2 Word 5 Ch3 Word 27 Ch14 Word 29 Ch15 Word 31 Ch16 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M D 5 Analog Output Configuration T1F 08DA 2 Bit 0 Output Enable 0 Outputs OFF 1 Outputs Enabled Bit 1 Unipolar Bipolar 0 Unipolar 1 Bipolar Bit 2 5V 10V Range 0 5V Range 1 10V Range Bit 3 N A Bits 4 15 Reserved Analog Output Configuration T1F 16DA 1 Bit 0 Output Enable 0 Outputs OFF 1 Outputs Enabled Bit 1 N A Bit 2 N A Bit 3 0 20mA or 4 20mA 0 0 20mA range 1 4 20mA range Bits 4 15 Reserved Analog Output Configuration T1F 16DA 2 Bit 0 Output Enable 0 Outputs OFF 1 Outputs Enabled Unipolar Bipolar 0 Unipolar 1 Bipolar Bit 2 5V 10V Range 0 5V Range 1 10V Range Bit 3 N A Bits 4 15 Reserved Appendix D T1H EBC100 Analog Module Addressing Modbus TCP I _ _ T1F 8AD4DA 2 Example Module in Slot 4 Using the Show Base Contents dialog below and the T1H EBC100 Analog Module Addressing Modbus TCP chart above we can find all of the addresses associated with the T1F 8AD4DA 2 module in Slot 4 The addresses are in the following chart Be aware that the configuration data address could be displayed as a s
44. Holding registers 40001 40008 Print Font Close Use the addresses shown in the Show Base Contents section of NetEdit3 along with the following table to access the analog I O with your Modbus TCP master For example to read the current temperature detected by Channel 1 of the T1F 16RTD module in Slot 2 Modbus addresses 30033 and 30034 are required For analog output modules with a Module Control Byte find the required address in the Show Base Contents table Configuration data is the address needed shown in the red box above Then use the bit definitions below to determine how to configure the module Be aware that the address could be displayed as a six digit or five digit address In Modbus 50024 and 410024 are equivalent The screen capture shows it as five digit DirectSOFT MRX and MWX instructions require six digit in the upper ranges D 2 l Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Appendix D T1H EBC100 Analog Module Addressing Modbus TCP T1H EBC100 Analog Module Addressing Modbus TCP Part Number Channel Data Module Configuration Data Diagnostics Data T1F 08AD 1 Input Registers Word 1 Ch1 Word 3 Ch2 Word 5 Ch3 Word 7 Ch4 Word 9 Ch5 Word 11 Ch6 Word 13 Ch7 Word 15 Ch8 No Software Configuration Input Range Depends on Input Signal 20 to 20mA 8192 to 8191 0 to 20mA 0 to 8191 4 to 20mA 1638 to 8191 No Built In Broke
45. LC gt Tools gt NetEdit3 e launching DirectSoft32 if installed then select Utilities gt NetEdit3 Zz The NetEdit3 Starting NetEdit brings up the screen below All NetEdit3 functions are accessed 2 Screen from this screen aS d E O Eile Network View Help wx crap Sen E Network Ethernet Address F B C Module Type IP Bayes 1D Name Description 00 0 62 40 19 44 TIH EBC100 ee ol RES TERM Ethernet Base Controller 00 E0 62 20 20 36 HO ECOM 10 1 1 5 HO Ethernet data communications O0 E0 62 20 1B B H2 ERM 255 255 255 255 j N 205 Ethernet remote master Iw e Module Info EBC Settings EBC Help General Help General no F Ethernet Stats Reset Stats Firmware Rev 4 0 1233 PWB Rev 5C Missed Fr 0 Bad Pkts Booter Rev 40 136 PLD Rev 1A TX Coll D Unknown Switch Setting 00 CPU Rew 106 Lost Pkts TX Errors Ready NUM A Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M ES Using NetEdit3 od D gt NetEdit3 Adding Network Protocol Support to the NetEdit3 PC You may have already set up your PC with selected networking protocols for Ethernet communications If not you will need to select the protocols now for communication with the Ethernet modules We strongly recommend that you include the IPX protocol For Windows 2000 go from My Computer on your Windows desktop to Control
46. M Example Broken Thermocouple In this example 24VDC is applied to the T1F 14THM in Slave 1 Slot 1 and all channels are shorted CH to CH except Channel 8 which is open Elf Binay z warp 7 mm al Element Status As seen in the DirectSoft Data View window all channels will read the terminal block ambient temperature when shorted degrees E in this configuration except the open Channel 8 which reads 0 The ERM Workbench page will also indicate an error on Slave 1 as seen below la x 2 EPU ms 3 V20 Interface EE cru A 2000 807 V2002 810 EI V2004 812 5 2006 815 6 2010 812 v2012 820 8 2014 821 2020 801 V2022 804 hc File View Help Nine DSA end SE V20 Error Detailed ERM Status Time of 45 05 45 Read ERM Status airs 15 05 45 1 Configure ERM NI EM EN EM EN es a wos iss Enn reer Roue EN ho AT pe a MT M Te Hit Read ERM Status 3 Write to ERM button to refresh Click on slave above Slave 1 no error to see its Last Error Clear Last Error Slave 1 Slave 1 s Error List 1 0 Module 1 0 Points PLC Start _PLE End V Map Notes Cd lt reserved gt Slave Status Bits ERM Status Word Disable Slave Comm Slave 1 T1H EBC100 Slave 1 Slot 1 16 Double Word Input Slave 1 Slot 2 16 Double Word Out 8 Discrete Qutput Slave 1 Slot 3 8 Double Word Input 4 Double Word Output 8 Discrete Output Slave 1 Sl
47. Manual 2nd Edition Rev B T1H EBC M ES T1H EBC100 DHCP Issues and HTML Configuration Ethernet Address this is the MAC Address It is a factory assigned address that is on the permanent label on the module IP Configuration Set IP Address Subnet Mask and Gateway addresses Click the Send button to write to the module s flash memory IP Configuration Er E a O E a Configuration C Obtain an IP address automatically Use the following IP address IP Address foram Mode Subnet Mask 0 0 0 0 Gateway 0 0 0 0 Back Reset The module s current Booter Version and OS Version are listed The latest versions can be found by clicking Hosteng com in the Firmware Updates field Serial Port Setup configure or make necessary changes to the serial port communication parameters Click the Send button to write to the module s flash memory Setup Serial Port 115200 57600 38400 19200 14400 9600 4800 2400 1200 600 300 Parity C Even Odd None Data Bits C 7 68 Stop Bits 41 C2 Mode K Sequence Slave Modbus Slave Master Proxy Baud Rate FT Use RTS RTS Pre Transmit Delay T ms RTS Post Transmit E Delay ms Back Reset The module s current CPU Rev and PWB PLD Rev are listed The latest versions can be found by clicking Hosteng com in the Firmware Updates field Firmware Update
48. VWAUTOMATIONDIRECT Terminator I O Ethernet Base Controller Manual Manual Number T1H EBC M WARNING Thank you for purchasing automation equipment from Automationdirect com doing business as AutomationDirect We want your new automation equipment to operate safely Anyone who installs or uses this equipment should read this publication and any other relevant publications before installing or operating the equipment To minimize the risk of potential safety problems you should follow all applicable local and national codes that regulate the installation and operation of your equipment These codes vary from area to area and usually change with time It is your responsibility to determine which codes should be followed and to verify that the equipment installation and operation are in compliance with the latest revision of these codes Ata minimum you should follow all applicable sections of the National Fire Code National Electrical Code and the codes of the National Electrical Manufacturer s Association NEMA There may be local regulatory or government offices that can also help determine which codes and standards are necessary for safe installation and operation Equipment damage or serious injury to personnel can result from the failure to follow all applicable codes and standards We do not guarantee the products described in this publication are suitable for your particular application nor do we assume any responsibil
49. action Identifier It is used for transaction pairing the Modbus server copies in the response the transaction identifier of the request 2 bytes e Protocol Identifier It is used for intra system multiplexing The Modbus protocol is identified by the value O 2 bytes e Length The length field is a byte count of the following fields including the Unit Identifier and data fields 2 bytes e Unit Identifier This field is used for intra system routing purpose It is typically used to communicate to a Modbus or a Modbus serial line slave through a gateway between an Ethernet TCP IP network and a Modbus serial line This field is set by the Modbus Client in the request and must be returned with the same value in the response by the server 1 byte Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Modbus TCP ES The MBAP header provides some differences compared to the Modbus RTU application data unit used on serial line e The Modbus slave address field usually used on Modbus Serial Line is replaced by a single byte Unit Identifier within the MBAP Header The Unit Identifier is used to communicate via devices such as bridges routers and gateways that use a single IP address to support multiple independent Modbus end units e All Modbus requests and responses are designed in such a way that the recipient can verify that a message is finished For function codes where the Modbus PDU has a fixed lengt
50. al Port on board the EBC module allows serial communication to an operator interface device or other serial device See your master controller documentation to determine whether this EBC feature is supported eme Pont Important Note The T1H EBC100 is configured at the factory to look for a DHCP Dynamic Host Configuration Protocol server at power up Refer to Chapter 5 for information on DHCP wet de mD TENN Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Installation and Setup In This Chapter Installing the Ethernet Base Controller EBC Network Identifiers Setting the Node Address 10BaseT 100BaseT Network Cabling Maximum 10BaseT 100BaseT Cable Length Specifications LED Indicators and Hot Swapping I O Modules Ethernet Standards ER Installation and Setup Installing the Ethernet Base Controller The EBC installs to the right of the first power supply To mount the module on the DIN rail follow steps 1 through 3 below 1 Push in the locking tab on the bottom of the module 2 Hook the upper tab over the upper flange of the DIN rail 8 Tilt the module toward the DIN rail until it snaps securely into place Cc 2 5 amp N and Setup Note Do not force the base controller on the DIN rail Due to slight size variations in different manufacturers DIN rail it may be necessary to first unlock the locking tab rotate the modul
51. al support group is glad to work with you in answering your questions They are available weekdays from 9 00 a m to 6 00 p m Eastern Time We encourage you to visit our site on the worldwide web where you can find technical and nontechnical information about our products and our company http www automationdirect com If you have a comment or question about any of our products services or manuals please fill out and return the Suggestions card that was shipped with this manual Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Introduction EES When you see the notepad icon in the left hand margin the paragraph to its immediate right will be a special note gt e Q Cc Q e When you see the exclamation mark icon in the left hand margin the paragraph to its immediate right will be a warning This information could prevent injury loss of property or even death Key Topics for The beginning of each chapter will list the Sons a Each Chapter key topics that can be found in that chapter Terminator 1 0 EBC User Manual 2nd Edition Rev B TIH EBC M 1 4 Introduction Ethernet Base Controller Overview The Ethernet Base Controllers provide a low cost high performance Ethernet link between a network master controller and an Automationdirect Terminator I O slave system Network masters include the DL205 DL405 DirectLogic PLCs and WinPLCs using th
52. and ERP applications At a high level the KEPDirect OPC Server is comprised of several objects that are described on the next page lt KEPDirect EBC I O Server untitled opf File Edit View Users Tools Help SA D Hemann BBXIA E E Channelt Sealing Description ff devices agi 51 510 Byte 100 None Sur Clients 0 Active tags O of 0 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with KEPDirect OPC Server B 3 Channel Object Each protocol or driver used in a KEPDirect project is referred to as a channel A channel refers to a specific communications driver A KEPDirect project can consist of many channels each with unique communications drivers or each with the same communications driver Each channel name must be unique in a KEPDirect application The channel name entered here will be part of the OPC browser information Device Object Unlike the channel name Device names can be the same from one channel to the next The device name is a user defined logical name for the device The device name and channel name will be part of the OPC browser information as well as a DDE item name Within an OPC client the combination of channel name and device name would appear ChannelName DeviceName Group Object KEPDirect allows tag groups to be added to your project Tag groups allow you to tailor the layout of OPC data in logical groupings that fit the needs
53. ata into smaller tag lists which can make finding a specific tag easier when browsing the server g xipuaddy m U 2 Q e A m U Q User Defined Tags Each field selection is defined in detail in the Tag Properties section in the KEPDirect on line help file A brief description of each is listed below KEPDirect EBCI OSA7 35 properties xs File Edit Yiew Users Darme als E Channel1 p Identification Ml Devices Name El El Address E vi al 5 Description J _x r Data properties ak Data type Derat A Client access ReadAwiite z Scan rate 100 1 miliseconds F Do not allow clients to override data type The tag Name parameter allows you to enter the string that will represent the data available from this tag The tag name can be up to 31 characters in length While using long descriptive names is generally a good idea keep in mind that some OPC client applications may have a limited display window when browsing the tag space of an OPC server The tag name is part of the OPC browse data Tag names must be unique within a given device branch or tag group branch If your application is best suited by using blocks of tags with the same names use tag groups to segregate the tags Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M 15 Using T1H EBC 100 with KEPDirect OPC Server ue e 0 Q Ow xx cs
54. ation r20 IV Active State Ready The group specifies the following properties group name update rate time bias percent deadband language ID active state and the type of data connection that should be made to the server For detailed information on the group properties click on the Help button to display the Group section of the on line help file Once a Group has been created additional Group Operations can be accessed by right clicking on the highlighted branch Group or by using the Tools menu gt Group selection Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M C 3 Using the KEPDirect OPC Quick Client Selecting a Items represent data that may be accessed via the OPC server An item specifies the Group Item following properties item ID access path requested data type and active state For detailed information these properties click on the Help button to display the Item section of the on line help file To add an Item to the Quick Client Group you can use the Edit menu gt New Item or click on the New Item icon in the toolbar menu Add Items xj IE i File Edt View Too Properties Delle Ateca PON EA Cancel AE AutomationDire temi Ehannell Device1 51 80000 x al el Help al MyGroup Data Type Byte a x L 16 17 54 600 Active MF 16 17 54 600 Browsing Branch Filter Leaf Filter Type Access F Native Any gt
55. ction environment The default mode Write all values for all tags will force the server to attempt to write every value to the controller This mode insures that everything written from your OPC client applications will be sent to the target device While writing every value to the device may seem like the best course of action there are a number of applications where writing every value many of which may be the same value over and over may be simply a waste of communications bandwidth The Write only latest value for non boolean tags allows any value that is not a boolean value to be updated in the server s internal write queue and will then be sent to the device at the next possible opportunity This can dramatically improve the overall performance of your application This feature must be used with a clear understanding of how it will affect the operation of your application The final write optimization mode Write only the latest value for all tags takes the operation described for the second mode and applies it to all tags The Duty Cycle selection allows you to control the ratio of write operations to read operations By default the duty cycle is set to ten This means that ten writes will occur for each read operation If your application is doing a large number of continuous writes but you need to insure that read data is still given time to process you may want to reduce the Duty Cycle A setting of one will result in o
56. d as a txt file or printed for reference or future use Show Base Contents ES Base 0 Slot 1 Module Type 11 Discrete Input 8 Bit inputs Modbus 584 984 Inputs 10001 10008 Base 0 Slot 2 Module Type 12 Discrete Output 16 Bit outputs Modbus 584 984 Coils 1 16 od D gt NetEdit3 e Print Font Close EBC Settings gt Firmware The functions in the Firmware box are used to update the selected module s Firmware and Booter versions The Restore Factory Settings buttons resets the selected module s IP address ID Name and Description to factory defaults Refer the sections on the next page to determine if Restore Factory Settings updates are necessary Firmware Clicking on the either of the Update fa ax buttons opens the appropriate EBC onfa eae folder within the Images folder which is created during the install of NetEdit3 The Images folder is located in the same folder as NetEdit3 exe Each module folder contains the module s firmware and boot loader BOOT BIM tihebc_1_0_457 Bin Boot_3_0_102 bin Boot_3_0_120 Bin Boot_3_0_92 Bin osebctio bin tihebe_1_0_444 Bin EEE files The next section discusses mm Mhete1 0 4876n keeping the firmware files up to date Files of type Etheiet Firmware Files bin y Cancel LA Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Using NetEdit3 ES FileMenu gt L
57. ded it will show up in the list of the configured devices and an EZTouch Text panel graphic symbol will be located under the I O base next to the EBC X tee A CEL ECC OLAPERERE Using Monitor I O Re connectto the I O in ConnectivityCenter by clicking on the Configuration menu gt to Verify Panel Connect or by clicking on the Connect toolbar button Then Scan the I O by clicking Operation on the Configuration menu gt Scan or by clicking on the Scan toolbar button Doubleclick on the EZ panel box graphic to launch the Monitor I O Dialog Box The Monitor I O tool allows the user to update the fields at any moment but the panel continuously updates the fields with any changes as well All of the Value fields in the Monitor I O Dialog Box are read write and updates from the the Monitor I O Dialog box take precedence over updates from the panel The user can update bit values Input Output and Flag immediately by one mouse click or by pressing the space bar When typing in numbers the grid enters the edit mode which blocks off any conflicting updates from the panel The edit mode entry completes after pressing Enter any arrow key or selecting a new line AGE SN Corfigzation yew Qrivers Devices Took Window Wo l xi olaja Am Jien Me za sel end la LS a par Etherket Total Basea 1 Monitor I O Dialog Box Terminator I O EBC User Manual
58. ductive material to avoid the risk of personal injury or equipment damaged Always remove power if it is equally convenient to do so y e WARNING Only authorized personnel fully familiar with all aspects of the Lon application should replace an 1 0 module with system power ON LED Indicators when Hot Swapping an 1 0 Module Power Off Install 1 0 Module Power On EBC s Auto configuration Module Good includes LED On the new 1 0 Module Remove Same 1 0 Module Module Good LED Fast Blink c 65 a oO 0 De Lu This 1 0 Module is Reported Missing Power Off Auto configuration Power no longer includes On this I O Module Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Installation and Setup ES Check External Before Hot Swapping an analog I O module or a DC output module in a 24VDC Wiring Terminator I O system make sure that each of the analog I O and DC output Before Hot module s 24VDC and OVDC base terminals are wired directly to the external Swapping power supply individually see diagram below If the external 24VDC OVDC is jumpered from base to base in a daisy chain fashion and an analog I O or DC output module is removed from its base the risk of disconnecting the external 24VDC to the subsequent I O modules exists ee ee o gt 30 O co 22 S Do not jumper modules together creating 24VDC bus for Hot Swap
59. e Pu lure lane TIHEBC100 by Automation Direct com Ar 2 or an an Module ID 0 0x0 ey Module Name TIHEBC100 E Module Description TIHEBC100 Ethernet Base Controller amp Ethernet Address 00 E0 62 40 19 3F Ela IP Setup Address 10 1 37 100 Subnet 0 0 0 0 Gateway 0 0 0 0 a Booter Version 4 0 136 c OS Version 4 0 1216 Se Serial Port Setup 9600 8 O 1 KSeq Slave Mode No RTS eu CPU Rev 1 0 6 On PWB PLD Rev 5 2 1 0 a Firmware Updates Hosteng com On av Pa ae 5 On Gr Exa J 4 A O rere To configure the module click on the desired parameter field A new window will open which are all described below and on the following page Clicking the Back button will take you back to the main configuration screen shown above Clicking the Send button writes the entry or change to the module s flash memory and clicking the Reset button reads the module s flash memory Module ID Module IDs must be unique for each EBC but they do not have to be in sequence The module s Node Address rotary switches must both be setto allow the HTML configuration tool to set a Module ID Do not use address zero for communications Module Name field and Module Description fields are optional to Module Name MTHEBC00 identify the module Click the Send button to write to the Back Send Reset module s flash memory Module Description T1H EBC100 IP 100 Back Reset Terminator I O EBC User
60. e Ethernet Remote Master module ERM and PCs using PC based control software that includes embedded Ethernet I O drivers or through a compatible OPC server The T1H EBC100 also supports the MODBUS TCP IP protocol The Ethernet Base Controller serves as an interface between the master control system and the Terminator I O modules The control function is performed by the master controller not the EBC slave The EBC is positioned immediately to the right of the first power supply and communicates across the backplane to input and output modules The function of the EBC is to e process analog and digital input signals e format the I O signals to conform to the Ethernet standard e transmit the signals to the network master e receive and translate output signals from the network master e distribute the output signals to the appropriate output module in the base Cc e O jo O 1 0 Values Stored The EBC module continually scans all I O and stores the most recent values in in Cache Memory cache memory The cache memory contents are available to the master controller as a block of data or by individual slot location The EBC reads all channels of digital and analog modules on each scan Typically the network master will request a input and output values at the same time from the EBC The EBC passes the cache memory values for all channels of all input and output modules By using this method very fast response times ca
61. e ce manuel ne doit tre copi e reproduite ou transmise de quelque fa on que ce soit sans le consentement pr alable crit de la soci t Automationdirect com Incorporated AutomationDirect conserve les droits exclusifs l gard de tous les renseignements contenus dans le pr sent document Manual Revisions If you contact us in reference to this manual be sure and include the revision number Title Terminator Installation and I O Manual Manual Number T1H EBC M Orginal mor orgialissue O OOO O 2nd Edition 08 04 added T1H EBC100 NetEdit3 HTML Configuration 2nd Edition 01 05 added Holding Register Mirror Image ad Rev A dressing for Modbus Function Code 3 Clients 2nd Edition 05 14 added Appendix D and Appendix E Rev B T1H EBC100 addressing Table of Contents Chapter 1 Introduction Manual OvervieW 522815888 vente Punto ai a Oct ES cod an 1 2 Overview of thiS Mana ek en he eee Lion eu a dede A Wee See EU 1 2 Other Reference Materials i 2282228 au chemins in ie nant mette ea ai wma vat care 1 2 Who Should Read This Manual 1 2 Technical Support asda Gia ue ne ened te oe in coe aa el ae ne SRE SRE 1 2 Key Topics for Each Chapters cia ere ke esd chee eee ee ee a 1 3 Ethernet Base Controller Overview e ween cence eee ee ee eee eeenaeeees 1 4 I O Values Stored in Cache Memory 1 4 I
62. e into place then latch the locking tab Assure that power wiring is not connected When the module is securely attached to the DIN rail push the module toward the power supply until the connectors are joined and the release arm of the EBC has clamped the two modules together Continue to add I O modules to the right of the EBC as necessary for your application More information about power wiring and power budgeting is available in the Terminator I O Installation Manual T1K INST M Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Installation and Setup ER EBC Network Identifiers Each Ethernet Base Controller module must be assigned at least one unique identifier to make it possible for PCs or other clients masters to recognize it on the network Two methods of identifying the EBC module give it the flexibility to fit most networking schemes The identifiers are e Module ID IPX protocol only e IP Address for TCP IP and MODBUS TCP protocols see Chapter 3 Setting the Node Address Several Methods for Setting Node Address Setting the Node Address Using the Rotary Switches Setting Node Address with Software Tool Each Ethernet Base Controller residing on a network must have a Node Address and each Node Address must be unique Duplicate Node Addresses on the same network will cause unpredictable results and must be avoided There are several methods for setting the Node Address e T
63. ed Unipolar Bipolar Word 3 Ch2 Word 5 Ch3 Bit 1 0 Unipolar Word 7 Ch4 1 Bipolar Wort he he No Broken Transmitter Detect f ord 11 Bit 2 0 5V Range o Broken Transmitter Detection T1F SADADA 2 Word 13 Ch 1 TOV Range N A for Voltage Holding Registers Bit 3 N A Word 1 Ch1 He de Word 3 Ch2 PEO Reserved Word 5 Ch3 Input Range Depends on Input Signal Word 7 Ch4 0 to 5V 0 to 4095 0 to 10V 0 to 8191 5V 4095 to 4095 10V 8192 to 8191 Analog Output Configuration T1F 08DA 1 Output Enable Holding Registers Bit 0 0 puts OFF Word 1 Ch1 Word 3 Ch2 1 Outputs Enabled T1F 08DA 1 won o San Bi N A 7 z ord 7 Word 9 Ch5 Bit 2 WA Word 11 Ch6 0 20mA or 4 20mA a BS 0 0 20mA range 1 4 20mA range Bits 4 15 Reserved 1 4 20mA range using 4 to 20mA D 4 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Appendix D T1H EBC100 Analog Module Addressing Modbus TCP hi T1H EBC100 Analog Module Addressing Modbus TCP Module Configuration Data Part Number Channel Data Diagnostics Data T1F 08DA 2 T1F 16DA 1 T1F 16DA 2 Holding Registers Word 1 Ch1 Word 3 Ch2 Word 5 Ch3 Word 7 Ch4 Word 9 Ch5 Word 11 Ch6 Word 13 Ch7 Word 15 Ch8 Holding Registers Word 1 Chi Word 3 Ch2 Word 5 Ch3 Word 27 Ch14 Word 29 Ch15 Word 31 Ch16
64. els within a single project channel acts as the basic building block of an OPC link Properties like communications port baud rate and parity are contained atthe channel level Each channel name must be unique in a KEPDirect project The channel name can be up to 31 characters long To add a new channel to your project you can use the Edit menu gt New Channel the Toolbar Add Channel or the Click to add a channel dialog lt KEPDirect EBC 1 0 Server untitled opf a a lol x File Edit Wiew Users Tools mr ead r New Channel Identification DS IA o add a channel Click to add a channel channel name can be from 1 ta 256 characters in length It must begin with a letter but the remaining characters can be any combination of letters numbers and the underscore character Channel name lt Back Cancel Help Clients O Active tags 0 of 0 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with KEPDirect OPC Server Selecting the Select the device driver you want to assign to the channel A driver list will be Device Driver presented displaying all of the device drivers that are installed in your system 10 x lt KEPDirect EBC 1 0 Server untitled opf File Edit View Users Tool Se O d mM a New Channel Deyice Driver xi Click to add a channel Select the device driver you want to assi
65. er 3 x Module ID 4 C Obtain an IP address automatically Use the following IP settings Name MET IP Address 10 1 ag Description T1HEBC100 Ethemet Base Controll PRO Subnet mask 0 0 0 0 Gateway 2 Bs D 0 Cancel HTML Configuration IP Configuration Obtain an IP address automatically amp Use the following IP address IP Address 10 1 37 100 Subnet Mask 0 0 0 0 Gateway 0 0 0 0 Back Reset Mode Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M T1H EBC100 DHCP Issues and HTML Configuration EE Using HTML Configuration The T1H EBC100 can be configured by using your PC s internet browser to access the module s HTML configuration page This method of configuration uses the TCP IP protocol so you must know T1H EBC100 s IP address to establish communications The IP address may have been assigned by a DHCP server default or may have been set by using NetEdit3 uorneinByuog UO IL y go I J m Enter the module s IP address in Connecting tothe your browsers Address field File Edt View Favorites Tools Help A Sr T1H EBC100 Connecting to the module s HTML 2 0 Configuration utility brings up the window below Home Estare ap Refresh 4 10 1 37 100 D cc 7 10 4 37 100 Favorites TT Ti ATTE F a LAC 9 a a 3 a y Bad De etre Home es Meda iston Mal Pes ER Rates E u
66. g H2 4 ERM 100 E 2 When using an H2 ERM 100 or H4 ERM 100 to T1H EBC 100 configuration the analog module data in the EBC base is mapped to V memory or Discrete I O The ERM Workbench software will tell you what the mapping is for each I O module in the T1H EBC 100 base Once you have configured the ERM using ERM Workbench you will get a screen similar to the following Ethernet Remote Master H4 ERM Ethernet Address 00 E0 62 600D 29 IP 192 168 0 147 Module ID 47 CPU HA rue 1 Configure ERM PLC CPU 440 oa LE 3 E dq 2 Select Slaves Last ERM no error PLC Mode Program 9 Of nd al O la el EE sat 3 Write to ERM Click on slave above Slave 1 no error E to see its Last Error Time of 37 last read srt A Clear Last Error Slave 1 Slave 1 s Eror List Detailed ERM Status 1 0 Module 1 0 Points PLCStart PLCEnd v Map Notes ______ lt reserved gt Slave Status Bits x300 x317 40414 ERM Status Word x320 x337 Y40415 Disable Slave Comm Y300 Y317 Y40514 lave 1 T1H EBC100 hotswap auto Ethemet Address 00 E0 62 40 22 SF on lave 1 Slot 1 16 Double Word Input 2000 2037 32 bit Binary lave 1 Slot 2 16 Double Word Out 2100 42137 32 bit Binary 8 Discrete Dutput Y320 Y327 Y40515 lave 1 Slot 3 8 Double Word Input 2040 2057 32 bit Binary 4 Double Word Output 2140 V2147 32 bit Binary 8 Discrete Output 330 Y337 40515 lave 1 Slot 4 8 Double Word Input 2060
67. generated subgroups er O 0 Q nu xx TD c Cx oO aS LS O m LL lt Back Next gt Cancel Clients 0 active tags OofO The Automatic tag database generation on device startup selection allows you to configure when OPC tags will be automatically generated There are three possible selections The default condition Do not generate on startup will prevent the driver from adding any OPC tags to tag space of KEPDirect The selection Always generate on startup will cause the driver to always evaluate the device for tag information and to add OPC tags to the tag space of the server each time the server is launched The final selection Generate on first startup will cause the driver to evaluate the target device for tag information the first time this KEPDirect project is run and to add any OPC tags to the server tag space as needed When the automatic generation of OPC tags is selected any tags that are added to the server s tag space must be saved with the project You can configure your KEPDirect project to auto save from the Tools gt Options menu Saving the New With Device1 added to Channel1 the KEPDirect window will appear as follows Device Settings lt t KEP Direct EBC 1 0 Server untitled opf File Edit View Users Tools Help DF Ree Sele BAXA Tag Name Address oatarype scan ate Click to add a static tag Tags are not re rs e browsable by OPC clients Termi
68. gn to Description the channel The drop down list below contains the names of all the drivers that are installed on your system Device driver AutomationDirect EBC TF Enable diagnostics g xipuaddy lt Back Cancel Help Clients 0 Active tags O of 0 1911Qd2M UM 001 993 Selecting the Enable diagnostics check box will enable diagnostic information to be available to your OPC application for this channel With diagnostic functions enabled diagnostic tags are available for use within client applications In addition to diagnostic tags a diagnostic window is also available when this feature is enabled The diagnostic features of KEPDirect do require a minimal amount of overhead processing For this reason it is recommended that you only use the diagnostic features when needed and disable them when not in use which is the default case Selecting the The Network Interface selection allows you to select a specific NIC card for the Network Adapter Automationdirect EBC Ethernet driver to use based on the NIC name or its assigned IP address By selecting a specific NIC interface you will be able to force the driver to send all Ethernet communication through the specified NIC If you do not know which NIC you should use select the Default condition lt KEPDirect EBC 1 0 Server untitled opf EE 5 x File Edit View Users TOO pumas x DS m as Click to add a channe New Channel
69. h Straight through Cable Crossover Cable EBC HUB EBC PC GRN WHT 0Baset rooBaser ER En D GEN TD ase ase TD 2 2 RD TD 2 2 TD AD 5 TD RD 3 3 RD 4 BLUMWHT BLUWHT 4 4 5 GRAN GAN 5 E RD 6 BRANWAT BANMHT P JRD 6 6 RD 7 7 7 7 8 BRN BRN g 8 8 8 pin oo This diagram illustrates the standard wire positions in the RJ45 connector We recommend that you use only Category 5 UTP cable Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Installation and Setup ES Serial Port Serial Port The Serial Port on the EBC can be used to RS 232 communicate with operator interfaces or ASCII devices The T1H EBC100 also supports MODBUS RTU serial protocol Use Automationdirect com cable Part Number D2 DSCBL to connect your PC 123456 to the RJ12 Serial Port 123456 Serial Port Pinout Pin Signal OV 5V RXD TXD RTS CTS o oO A oj N vz 30 Q n gt 22 Cc S Maximum 10BaseT 100BaseT Cable Length The maximum distance per 10BaseT 100BaseT cable segment is 100 meters or 328 feet Repeaters extendthe distance Each cable segment attached to a repeater can be 100 meters long Two repeaters connected together extend the total range to 300 meters 2 P on 28 tee J so a em feet 7 ee lt lt F it ae Terminator I O EBC User Manual 2nd Edition Rev B
70. h the function code alone is sufficient For function codes carrying a variable amount of data in the request or response the data field includes a byte count e Protocol Identifier It is used for intra system multiplexing The Modbus protocol is identified by the value O 2 bytes The function code field of a message contains 8 bits Valid function codes are in the range of 1 255 decimal The function code instructs the slave what kind of action to take Some examples are to read the status of a group of discrete inputs to read the data in a group of registers to write to an output coil or a group of registers or to read the diagnostic status of a slave When aslave responds to the master it uses the function code field to indicate either anormal response or that some type of error has occurred For a normal response the slave echoes the original function code In an error condition the slave echoes the original function code with its MSB set to a logic 1 The data field is constructed using sets of two hexadecimal digits in the range of 00 to FF According to the network s serial transmission mode these digits can be made of a pair of ASCII characters or from one RTU character The data field also contains additional information that the slave uses to execute the action defined by the function code This can include internal addresses quantity of items to be handled etc The data field of a response from a slave to a master con
71. he HMI Options for Remote Base Controllers section in the Operator Screen Techniques chapter in the Think amp Do Studio Learning Guide discusses configuring and using Optimate Panels with the EBC gt Le TD x gt C a e m U R gt e 5 go O Adding Operator Click on the T1H EBC graphic and Module Info tab in ConnectivityCenter The Interface Device Serial Port Settings attribute is only visible in ConnectivityCenter when the I O is disconnected Following the steps below will configure the EBC s RJ12 serial port to be used with the EZTouch or EZText panels F Think amp Do Studio ConnectivitpCenter Configuration Configuration View Dives Devices Too Window Help l l x 0 84 8 gAn jajaja ae l illal EtherNet Total Bases 1 Aston bi Third t Do Studo Prose rrirk Do Sisto Desg P lt Think amp Do Studio C 1 Click to access port settings 2 Select to Enable SEE zaja the serial port These as a eut seles e il alalle settings must match the port configuration EN of the EZ panel or 3 Click to Add Panel 4 Set the Family to Modbus Master and the Panel Type to EZTouch Text aloe Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M ET Using T1H EBC 100 with Think amp Do a o ES lt X 5 0 ES 25 o lt E D amp o i Once the EZTouch or EZText panel has been ad
72. he rotary switches on the face of the EBC module e The NetEdit3 software utility described in Chapter 3 e HTML Confguration after IP address is assigned to module using NetEdit3 described in Chapter 5 e The software utility in your PC based Control software if a utility is provided Two rotary switches each labeled 0 9 are located on the face of the EBC Usea small screwdriver to set the switches to a two digit number The upper switch sets the tens position and the lower switch sets the ones position Setting the upper switch to 1 and the lower switch to 4 yields a Node Address of 14 Do not use Node Address 0 for communications Node Address 0 is used only to allow communications with a PC while changing the Node Address Module ID in software If the rotary switches are set to a number greater than 0 the software tools are disabled from setting the Node Address o gt 5 O gt co 22 JE NOTE The rotary switch settings are read only at powerup You must cycle power if you change the rotary switches If you change the rotary switches and cycle power the rotary switch setting will override any previous software setting Software changes to the Node Address do not require cycling power To set the Node Address using one of the available software tools do the following e Check to be sure both rotary switches are set to the 0 position e Connect module to the Ethernet network e
73. ial Port Serial Port Settings window below General Serial Port On the Serial Port Settings window make any necessary changes to the serial xl communication parameters After r Asyne Settings making changes be sure to click on the Baud Rate JSAM OK button Also Be sure these Dane LE 3 Cancel parameters match the parameters of the serial device with which you are StopBis M F communicating Parity Odd Ez Note Some PC based Control software Port Mode packages may automatically overwrite K SeqSlave Modbus Slave Master Proxy settings selected here Refer to the I Use RTS documentation for your PC based RTS Pre transmit Delay jo milliseconds Control software ATS Posttransmit Delay jo miliseconds The OK button sends all the entries to the module s flash memory Buisn lo m 2 9 Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M 3 10 Using NetEdit3 EBC Settings gt Clicking the Show Base Contents button in Utils Utils gt Show Base the EBC Settings gt Utilities box brings up Contents the Show Base Contents Window shown Show Base Contents below This function queries the EBC for a list of I O modules it has in its base The Module Type and the MODBUS 584 984 addressing will be listed as well This will help confirm that the EBC can recognize all the I O modules connected to the EBC controller The Show Base Contents information can be save
74. ie toute garantie expresse ou implicite d aptitude l emploi en ce qui a trait aux activit s risque lev Pour des renseignements additionnels touchant la garantie et la s curit veuillez consulter la section Modalit s et conditions de notre documentation Si vous avez des questions au sujet de l installation ou du fonctionnement de cet quipement ou encore si vous avez besoin de renseignements suppl mentaires n h sitez pas nous t l phoner au 770 844 4200 Cette publication s appuie sur l information qui tait disponible au moment de l impression la soci t AutomationDirect nous nous effor ons constamment d am liorer nos produits et services C est pourquoi nous nous r servons le droit d apporter des modifications aux produits ou aux publications en tout temps sans pr avis ni quelque obligation que ce soit La pr sente publication peut aussi porter sur des caract ristiques susceptibles de ne pas tre offertes dans certaines versions r vis es du produit Marques de commerc La pr sente publication peut contenir des r f rences des produits fabriqu s ou offerts par d autres entreprises Les d signations des produits et des entreprises peuvent tre des marques de commerce et appartiennent exclusivement leurs propri taires respectifs AutomationDirect nie tout int r t dans les autres marques et d signations Copyright 2009 Automationdirect com Incorporated Tous droits r serv s Nulle partie d
75. its values or messages to the KEPDirect EBC I O server using acommon convention A complete definition of the error information and it s format convention is available in the AutomationDirect EBC Help file This can be accessed either from the Start Menu gt Program gt KEPDirect EBC I O Server gt Help Documentation or through the Help menu from within the server The example below shows the list of error codes supported by the EBC I O server The most common errors for analog I O are 139 142 155 and 200 216 depending on the features supported in the specific analog module E AutomationDirect EBC Device Driver Help 3 10 x 2E oc oF Hide Locate Back Forward Print Previous Nest Contents Index Search Favorites er O 0 Q nu xx TD c Cx oO aS LS O m LL i GS Module re Em EBC D E AutomationDirect EBC JJ AutomationDire Drive Sta HotSwa TagDat Deseripti EA Error 2 10 Getting Started Range error A Help Contents 134 Length warning 2 Overview 135 Invalid base number E gt Device Setup 136 Invalid module type gt Performance Optimizations 137 Invalid offset a Data Types 138 Invalid boot version for OS 1 8 Addressing 139 Broken transmitter nn contains channel number that failed Pd 142 Channel fall muti tains channel BITS f dul A annel fail multiple nn contains channe rom module
76. ity for your product design installation or operation Our products are not fault tolerant and are not designed manufactured or intended for use or resale as on line control equipment in hazardous environments requiring fail safe performance such as in the operation of nuclear facilities aircraft navigation or communication systems air traffic control direct life support machines or weapons systems in which the failure of the product could lead directly to death personal injury or severe physical or environmental damage High Risk Activities AutomationDirect specifically disclaims any expressed or implied warranty of fitness for High Risk Activities For additional warranty and safety information see the Terms and Conditions section of our Desk Reference If you have any questions concerning the installation or operation of this equipment or if you need additional information please call us at 770 844 4200 This publication is based on information that was available at the time it was printed At AutomationDirect we constantly strive to improve our products and services so we reserve the right to make changes to the products and or publications at any time without notice and without any obligation This publication may also discuss features that may not be available in certain revisions of the product This publication may contain references to products produced and or offered by other companies The product and company names may be
77. ive Update The Live Update will retrieve the latest firmware and boot loader files from the Host Engineering RE ecwor lew web site and place them in the NetEdit3 Images folder that was created during the install of NetEdit3 The feature requires that you have a functional Internet connection dial up or broadband If the Images folder does not exist on your PC it will be created as part of the retrieval process Live Update Export Exit oA Live Update E Whe n yo u cl i ck th e G o butto n This utility will check for the latest firmware for most Hx and T1H products and on th e L ive U p d ate wi n d ow download them to the images directory N et Ed it3 wi com p are the Prior to continuing please make sure your internet connection is active version information of the files CEE ELEC EC on the Host Engineering web en site against the files you have locally on your PC and it will download any newerfiles Once this process is complete NetEdit3 will rescan the devices on your network and refresh the Update complete F and B columns next to the De listed devices Stop Ar 5 OK 2 F B C Columns The F B and C columns are provided to signify potential issues with Ethernet Address F B c Module Type devices on the network 00 E0 62 40 06 34 TiH EBC 00 062 20 21 ED HO ECOM The F column will display an OU E062 200108 en an FO 62 20 01 OF a
78. ix digit or five digit address In Modbus 50024 and 410024 are equivalent The screen capture below shows it as five digit Show Base Contents D x Base 0 Slot 1 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30001 30032 Base 0 Slot 2 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30033 30064 Base 0 Slot 3 Module Type 25 Analog Input 16 Double word inputs Modbus 584 984 Input registers 30065 30096 Base 0 Slot 4 Module Type 27 Analog Input Analog Output 8 Bit outputs Modbus 564 984 Configuration data 50024 8 Double word inputs Modbus 584 984 Input registers 30097 30112 4 Double word outputs Modbus 584 984 Holding registers 40001 40008 Control Byte Address 50024 Bit Function Output Enable Channel 1 30097 30098 Bit 0 0 Outputs OFF 1 Outputs Enabled Input Channel Address Channel 2 30099 30100 Unipolar Bipolar Channel 3 30101 30102 0 Unipolar Channel 4 30103 30104 1 Bipolar Channel 5 30105 30106 5V 10V Range Channel 6 30107 30108 0 5V Range Channel 7 30109 30110 1 10V Range Channel 8 30111 30112 Output Channel Address N A Channel 1 40001 40002 Channel 2 40003 40004 Channel 3 40005 40006 Reserved Channel 4 40007 40008 D 6 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Appendix D T1H EBC
79. ke the server when it attempts to connect and collect data from it In order for this automatic mode of operation to occur you must first create and configure a project Once you have created a project KEPDirect will automatically select the most recently used project when it is invoked by an OPC client Initially however you need to manually invoke KEPDirect using either the desktop icon if you chose to install it or by selecting KEPDirect from the windows start menu Depending on any changes you may have made to the appearance of KEPDirect once invoked you should be presented with the following interface To learn more about the various elements of the user interface see Basic KEPDirect Components While discussing how to start KEPDirect its important to understand what the system requirements are for running the server KEPDirect has been designed to place as little strain on your system as possible Recommended System Requirements 400Mhz Pentium 64 Megs of Ram 10 Megs of Hard Disk Space Windows NT SP6a 2000 Strongly recommended for industrial settings Available Ethernet Card er O 0 Q nu xx TD c Cx oO aS LS O m LL Adding a Channel A channel refers to a specific communications driver KEPDirect project can consist of many channels each with unique communications drivers or each with the same communications driver Depending on the driver or drivers you have installed you can define a number of chann
80. longer responding User has removed a module in a Terminator I O slave system If Automatic Reset default is enabled for this slave it will reset itself once the replacement module is inserted If Manual Reset is enabled for this slave the user must 1 SET the slave disable flag for that slave in the first diagnostic output word 2 wait for bits 8 15 in second diagnostic input word to equal 1 then 3 RESET the slave disable flag in the first diagnostic output word E154 I O configuration has changed See E153 for reset methods E200 Unused analog input channels exist at channel xx 1 16 where xx Value 200 E216 example E212 indicates unused analog channel exists at channel 12 Extended Error Codes The following table lists the error codes for Words 5 20 in the Module Status System Memory area Error Code Description Decimal E32 Bitwise error where bit 5 is always SET Look at bit O thru bit 4 to get a possible list of errors Example 34 E63 decimal 22 hexadecimal Bit 5 SET and Bit 1 SET BIT Type of Error 0 Terminal block off 1 External P S voltage low 2 Fuse blown 3 Bus error 4 Module initialization error intelligent module 5 Fault exists in module this bit is SET if any of the above bits are e SET a e O O E117 Write attempt to an invalid analog channel a m E119 Data not valid Subnet mask or IP address not allowed EBC SDK data packet not constructed pr
81. n Transmitter Detection Monitor for counts less than 1638 when using 4 to 20mA T1F 08AD 2 T1F 16AD 1 T1F 16AD 2 T1F 14THM T1F 16RTD Input Registers Word 1 Ch1 Word 3 Ch2 Word 5 Ch3 Word 7 Ch4 Word 9 Ch5 Word 11 Ch6 Word 13 Ch7 Word 15 Ch8 Input Registers Word 1 Ch1 Word 3 Ch2 Word 5 Ch3 Word 27 Ch14 Word 29 Ch15 Word 31 Ch16 Input Registers Word 1 Ch1 Word 3 Ch2 Word 5 Ch3 Word 27 Ch14 Word 29 Ch15 Word 31 Ch16 Input Registers Word 1 Ch1 Word 3 Ch2 Word 5 Ch3 Word 25 Ch13 Word 27 Ch14 Word 29 Status Word 31 Status Input Registers Word 1 Ch1 Word 3 Ch2 Word 5 Ch3 Word 27 Ch14 Word 29 Ch15 Word 31 Ch16 No Software Configuration Input Range Depends on Input Signal 0 to 5V 0 to 4095 0 to 10V 0 to 8191 5V 4095 to 4095 10V 8192 to 8191 No Software Configuration Input Range Depends on Input Signal 20 to 20mA 8192 to 8191 0 to 20mA 0 to 8191 4 to 20mA 1638 to 8191 No Software Configuration Input Range Depends on Input Signal 0 to 5V 0 to 4095 0 to 10V 0 to 8191 5V 4095 to 4095 10V 8192 to 8191 No Software Configuration THM Type Set by Jumpers No Software Configuration RTD Type Set by Jumpers No Broken Transmitter Detection N A for Voltage No Built In Broken Transmitter Detection Monitor for counts less than 1638 when using
82. n be achieved by the network master control system Various master controllers with EBC slaves are shown below Example EBC Systems Various Masters with EBC Slaves MODBUS TCP Masters T1H EBC100 DirectLogic PLC PC based Control System un Operator Interface SN Eo ANN Serial T1H EBC UDP IP IPX 10Mbps Ethernet ET E T1H EBC100 TCP IP UDP IP IPX MODBUS TCP 10 100Mbps Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Introduction 1 5 Industry Standard The T1H EBC module supports industry standard 10Base T Ethernet communications Ethernet It allows up to10Mbps transfer rates between your master controller and and your l O The T1H EBC100 module supports industry standard 10 100Base T Ethernet communications It allows up to100Mbps transfer rates between your master controller and your I O e Q Q e WARNING For deterministic Ethernet communication you must use a dedicated network of EBC modules connected to your master control system The EBC modules and the master controller must be the only devices on the network wee FR T1H EBC The EBC installs to the right of the T1H EBC100 first power supply see chapter 2 for basic installation steps For further information about installing power supplies and I O modules consult the Terminator 1 0 Installation and 1 0 Manual T1K INST M RS 232 An RJ12 RS 232 serial port Seri
83. nator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with KEPDirect OPC Server B 11 KEPDirect Project Adding Tags to the Project There are two ways to get data from a device to your client application using KEPDirect The first method and most common method of defining tags is called User Defined Tags This requires that you define a set of tags in the server project and then use the name you assigned to each tag as the item of each OPC DDE link between the client and the server The primary benefit to this method is that all user defined tags are available for browsing within OPC clients Additionally user defined tags also support scaling The second method of defining tags is called Dynamic Tags Dynamic tags allow you to define tags in the client application Instead of providing the server with a tag name as the OPC DDE item you would provide the device address and optionally a data type The server will create a tag for that location and start scanning for data automatically KEPDirect allows tag groups to be added to your project Tag groups allow you to tailor the layout of OPC data in logical groupings that fit the needs of your application Using tag groups allows multiple sets of identical tags to be added under the same device This can be very convenient when a single device handles a number of similar machine segments From an OPC client standpoint the use of tag grouping allows you to segregate your OPC d
84. ndustry Standard Ethernet 0 eum et ode RE eme lee een le ete 1 5 THIH EBG TAHREBG 1 O0 Sinn a ds Ga RON o Oring MAS Seared Mal eee ke 1 5 RS 232G SerialPort 2 304 see a a Boe ace bach Ah ed 1 5 Chapter 2 Installation and Setup Installing the Ethernet Base Controller 2 2 Setting the Node Address susss 2 3 Several Methods for Setting Node Address 2 3 Setting the Node Address Using the Rotary Switches 2 3 Setting Node Address with Software Tool 2 3 10BaseT 100BaseT Network Cabling 2 4 10BaseT 100BaseTconnections 2 4 Serial POR RS 2 nent esse Cabane c eee ee ere Gays ss 2 5 Maximum 10BaseT 100BaseT Cable Length 2 5 T1H EBC Ethernet Base Controller Specifications 2 6 T1H EBC100 Ethernet Base Controller Specifications 2 7 LED Indicators and Hot Swapping I O Modules 2 8 Check External 24VDC Wiring Before Hot Swapping 2 9 Hot Swap I O Module Replacement 2 9 Ethernet Standards rene oe
85. ne read operation for every write operation In all cases if there are no write operations to perform reads will be processed continuously lt KEPDirect EBC 1 0 Server untitled opf A 0 xj File Edit View Users Tool ach i E a a ra a a NEW Channel Write Optimizations x gt q Oo 0 m s Click to add a channel fYou can control how the server processes writes on this channel Set the optimization method and write to read duty cycle below Note Writing only the latest value can affect batch processing or the equivalent r Optimization Method Write all values for all tags Write only latest value for nor boolean tags Write only latest value for all tags r Duty Cycle Perform 10 3 writes for every 1 read lt Back Cancel Help Clients O Active tags O of O Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Saving the New Channel Settings Using Multiple Channels in a Project B 7 Using T1H EBC 100 with KEPDirect OPC Server With Channel1 channel added to the server the KEPDirect window will appear as follows KEPDirect EBC 1 0 Server untitled opf File Edit View Users Tools Help Dae h PMlasgloseex sa ek Scaling Description Click to add a device Note that the channel is shown using the channel name given but it is also has a small red x below the channel icon The red x indicates that
86. nel 13 Temperature V2030 Channel 14 Temperature V2032 Status Words Address Status1 V2034 CJC Temperature V2036 Read ERM Status MANUAL MODIFIED In this example 24VDC is applied to the T1F 14THM in Slave 1 Slot 1 and all channels are shorted CH to CH As seen in the DirectSoft Data View window below all channels will read the terminal block ambient temperature when shorted degrees F in this configuration All V memory values in this DirectSoft Data View window are displayed as Decimal DWORDs except V2034 which is displayed as a Binary WORD V2036 is the CJC temperature reading in degrees C with one implied decimal place So 27 2 C 80 9 F Datat J F El Decima oworo NUM gt V2034 Status 1 Word ent d S _ Bits 0 3 All Channels Enabled 0001 1 V2000 806 Bit4 T C Type Jumper 0 Installed 0 LEE BitS T C Type Jumper 1 Installed 0 5 v2006 815 Bit6 T C Type Jumper 2 Installed 0 ae Bit7 T C Type Jumper 3 Installed 0 al v2zo4 821 Bit 8 Units 0 Jumper Installed 0 vee pra Bit9 Units 1 Jumper Installed 0 V2022 803 Bit 10 pe ae V2024 805 emove v2026 809 Bit 11 CJC Installed Yes 0 V2030 806 V2032 788 Bits 12 13 Always ON Es oaan Bits 14 15 Always OFF E 6 l Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 T1F 14TH
87. nfiguration Bits Input Enable 0 All Channels Enabled BIOs 1 31 Number of Channels LE Enabled Starting With Channel 1 Bit 5 6 Reserved 0 Normal Response Bit 7 1 Fast Response Write T1F 08AD1 and T1F 08AD2 only Bit 8 15 Reserved Analog Output Module Configuration The Terminator I O analog output modules are configured using the following bit definitions located in the Configuration Data memory area of the T1H EBC100 s System Memory Analog Output Module Configuration Bits Outputs Enable Bit O 0 All outputs OFF Write 1 All outputs Enabled Unipolar Bipolar Bit 1 0 Unipolar selected Write 1 Bipolar selected 5V 10V Range Bit 2 0 5V range Write 1 10V range 0 20mA 4 20mA Range Bit 3 0 0 20mA range Write 1 4 20mA range Bit 4 15 Reserved a 43 0 Io T mo U i OKE U e Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M T1H EBC100 DHCP amp HTML Configuration In This Chapter T1H EBC100 DHCP Disabling DHCP and Assigning a Static IP Address Using HTML Configuration 5 2 T1H EBC100 DHCP Issues and HTML Configuration T1H EBC100 DHCP DHCP Issues The T1H EBC100 is configured at the factory to look for a DHCP Dynamic Host Configuration Protocol server at power up DHCP provides a way to allocate IP address dynamically to devices on a local area network LAN A system or network
88. ng Description CIASCI_Data_Imput EBC SPO DATAIN String 100 Mone inmput_0 S1 DI0 Boolean 100 None Channeli m Devicel Set Port to ASCII EBC SPO MODE Byte 4 I Clients O Active tags O of O Uh Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with KEPDirect OPC Server T1H EBC 100 1 0 Addressing I O slots must be individually addressed in the following form S lt ss gt lt t gt lt nn gt where ss is the slot number 1 to 93 tis the address type DI DO WI WO etc and nnis the address The address ranges from 0 to an upper limit determined by the module occupying the slot NO Type Data Type Discrete Inputs Dl lt nn gt Boolean Byte Char nn Bit Number decimal Word Short DWord Long Discrete Outputs DO lt nn gt Boolean Byte Char nn Bit Number decimal Word Short DWord Long Byte Inputs Bl lt nn gt Byte Char nn Bit Number decimal Byte Outputs BO lt nn gt Byte Char nn Bit Number decimal Wl lt nn gt Word Short nn Bit Number decimal Word Outputs WO lt nn gt Word Short nn Bit Number decimal DWord Inputs DWI lt nn gt DWord Long nn Bit Number decimal DWord Outputs DWO lt nn gt DWord Long nn Bit Number decimal Fl lt nn gt nn Bit Number decimal js ee Float Outputs FO lt nn gt nn Bit Number decimal Double Inputs DBl lt nn gt nn Bit Number decimal Double Outputs DBO lt nn gt nn Bi
89. nput Range Depends on Input Signal 20 to 20mA 8192 to 8191 0 to 20mA 0 to 8191 4 to 20mA 1638 to 8191 Analog Output Configuration T1F 8AD4DA 2 Output Enable Y 0 0 Outputs OFF 1 Outputs Enabled Unipolar Bipolar Y 1 0 Unipolar 1 Bipolar 5V 10V Range Y 2 0 5V Range 1 10V Range Y 3 N A Y 4 to Y 7 Reserved Input Range Depends on Input Signal 0 to 5V 0 to 4095 0 to 10V 0 to 8191 5V 4095 to 4095 10V 8192 to 8191 Analog Output Configuration T1F 08DA 1 Output Enable Y 0 0 Outputs OFF 1 Outputs Enabled Y 1 N A Y 2 N A 0 20mA or 4 20mA Y 3 0 0 20mA range 1 4 20mA range Y 4 to Y 7 Reserved No Built In Broken Transmitter Detection Monitor for counts less than 1638 when using 4 to 20mA No Broken Transmitter Detection N A for Voltage E 4 Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 M T1H EBC 100 Analog Module Addressing H2 4 ERM 100 Part Number Channel Data Module Configuration Data Diagnostics Data Analog Output Configuration T1F 08DA 2 Output Enable tput Dat Y 0 0 Outputs OFF de Te 1 Outputs Enabled V 2 Ch2 Unipolar Bipolar V 4 Ch3 ju T1F 08DA 2 Vi6 Cha 0 Unipolar V 10 Ch5 I Bipolar V 12 Ch6 5V 10V Range V 14 Ch7 Y 2 0 5V Ran F ge V 16 Ch8 1 10V Range Y 3 N A Y 4 t
90. o Y 7 Reserved Analog Output Configuration T1F 16DA 1 Output Enable Y 0 0 Outputs OFF Output Data 1 Outputs Enabled V 0 Ch1 V 2 Ch2 Y 1 N A T1F 16DA 1 V 4 Ch3 da Y 2 N A V 34 Ch15 V 36 Ch16 0 20mA or 4 20mA Y 3 0 0 20mA range 1 4 20mA range Y 4 to Y 7 Reserved Analog Output Configuration T1F 16DA 2 Output Enable Y 0 0 Outputs OFF 1 Outputs Enabled Output Data V 0 Ch1 Unipolar Bipolar V 2 Ch2 0 Unipolar T1F 16DA 2 V 4 Ch3 1 Bipolar V 34 Ch15 5V 10V Range V 36 Ch16 Y 2 0 5V Range 1 10V Range Y 3 N A Y 4 to Y 7 Reserved Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M E 5 Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 T1F 14THM Example Module in Slot 1 Using ERM Workbench below and the T1H EBC 100 Analog Module Addressing H2 4 ERM 100 chart above we can find all of the addresses associated with the T1F 14THM module in Slot 1 The addresses are listed in the tables below File View Help 10 x DH m8 8 ba Ethemet Remote Master H4 ERM CPU Interface Last ERM Error Bead ERM Status Detailed ERM Status PLC no error Ethemet Address 00 E0 62 60 0D 29 IP 192 168 0 147 Module ID 47 r Slave Status SEE Le 2a FM ran ese EM EME a 5 ip A E E o PLC Mode Fun 3 fio fit Mz fa ms Hit Read ERM Status button t
91. o refresh Click on slave above to see its Last Error 1 Configure ERM 2 Select Slaves 3 Write to ERM fis 16 Slave 1 no error Time of 75 05 45 last read Clear Last Error Slave 1 Slave 1 s Error List 1 0 Module PLC Start lt reserved gt Slave 1 Slave 1 Slot 1 Slave 1 Slot 2 Slave 1 Slot 3 Slave 1 Slot 4 Slave 1 Slot 5 Slot 6 Slot 7 Slave Slave x300 x320 Y300 Slave Status Bits ERM Status Word Disable Slave Comm T1H EBC100 16 Double Word Input 16 Double Word Out 8 Discrete Output 8 Double Word Input 4 Double Word Output 8 Discrete Output 8 Double Word Input 8 Double Word Output 8 Discrete Output 8 Discrete Input 8 Discrete Output 2000 Y350 V40414 V40415 V40514 V40515 40515 40516 V40416 V40516 hotswap auto E theret Address 00 ED 62 40 22 9F on 32 bit Binary 32 bit Binary 32 bit Binary 32 bit Binary 32 bit Binary 32 bit Binary Input Channel Address Channel 1 Temperature V2000 Channel 2 Temperature V2002 Channel 3 Temperature V2004 Channel 4 Temperature V2006 Channel 5 Temperature V2010 Channel 6 Temperature V2012 Channel 7 Temperature V2014 Channel 8 Temperature V2016 Channel 9 Temperature V2020 Channel 10 Temperature V2022 Channel 11 Temperature V2024 Channel 12 Temperature V2026 Chan
92. ode The Hot Swap Settings can be set to either Automatic or Manual mode If Automatic mode is selected the base will automatically rescan once a module has been Hot Swapped T1H EBC EH Thank 1 Do Studio ConnectrvityCenter Comhiguration 3 Configuration View Diver Devices Took Window Hop Da a caja See re TAP ORDA x L NUM Stat fay Thok amp Do Shafo Prose rs Do Studio Desig X Think amp Do Studio Ci 4 1207PM Module Info tab Hot Swap If Manual mode is selected you will need to write a logical 1 to the Eth_Rescan And Manual Mode Clear Errors Status Item Value to force the base rescan once the module Hot Swap Reset has been performed This information is listed under the Board Status Mapping tab HA Think amp Do Studio ConnectivityCenter Configuration DX Contiguaton View Devers Devices Joos Window Help le x pelej aj caja ele Ne tato ed ed Good Missing Bo Extr se Duplicate Bas TIHEBC Slave 1 Write a 1 here T AS vaut Egg Think k Do Siuo Projec 2 Think amp Do Swdo Dasg 5 Think E Do Studio C i 126P Board Status Mapping tab Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M C o e m W e gt 2 gt Qo O gt D 5 x gt a o S lt X 5 Q ES Q lt E e on Using T1H EBC 100 with Think amp Do Analog I O M
93. odule Configuration Click on the analog I O module graphic to be configured and the Module Info tab in ConnectivityCenter For the analog output modules select the module Signal Sign and Range For the analog input modules T1F 08AD1 and T1F 08AD2 only select either Fast Response or Normal Response default mode Analog Output Module Analog Input Module Y Think Do Studio Connnctiva Center Corday Cotton Von Diver Davies eos Mido Heb Ojea a aja ajaja e zl sali salia Sial Sign 2 JUnipular TN y 0 0 20 ma SV ON 0 20 mA 4 20 mA Asun Proiec EE Think Do Studo Derio 3X Think Do Studio C 1215P Module Info Tab Module Info Tab I O Module Status Word Bits I O Module diagnostic information is listed for each I O module under the Module Status Mapping tab Click on a module graphic to display its Status Item Descriptions Status Indicator 1 Error Start ui Thrk t Do Studo Presos Ai Thek t Do Shade Denis I Think amp Do Studio fa um Module Status Mapping Tab Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with Think amp Do Using EZTouch EZText Panel with the RJ 12 Serial Port The T1H EBC has a built in RS232C serial port that can be used to connect to an operator interface panel Use ConnectivityCenter to configure the connection from the T1H EBC to the EZTouch or EXText panel T
94. operly 3 t E121 Analog input channel error O 2 E E122 Unused analog input channels exist 9 E139 Broken transmitter on one of the analog input channels E142 Channel failure E146 Communications failure Hitachi drive on board relay set E153 The module which was in this slot is no longer responding User has removed a module in a Terminator I O slave system If Automatic Reset is enabled for this slave it will reset itself once the replacement module is inserted If Manual Reset is enabled for this slave the user must 1 SET the slave disable flag for that slave in the first diagnostic output word 2 wait for bits 12 15 in second diagnostic input word to equal 1 then 3 RESET the slave disable flag in the first diagnostic output word E154 One or more new modules has been inserted into the base See E153 for reset methods E155 Terminator module status error One or more of the modules in the T1H EBC100 base has an error For more detail check extended errors E200 Unused analog input channels exist at channel xx 1 16 where xx Value 200 E216 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Modbus TCP ES The Terminator I O analog input modules are configured using the following bit definitions located in the Configuration Data memory area of the T1H EBC100 s System Memory Only the T1F 08AD1 and T1F 08AD2 support Fast Response Analog Input Module Configuration mode Analog Input Module Co
95. or I O EBC User Manual 2nd Edition Rev B T1H EBC M 199 019 434 UM 001 993 g xipuaddy B 8 Using T1H EBC 100 with KEPDirect OPC Server KEPDirect Project Adding and Configuring a Device Adding a Device Once a channel has been configured in a KEPDirect project a device must be added to the channel Devices represent PLCs I O devices or other hardware that the server will communicate with Device selection is restricted by the device driver the channel is using To add a device to a channel select the desired channel and use the Edit menu gt New Device the Toolbar Add Device or the Click to add a device dialog lt KEPDirect EBC 1 0 Server untitled opf D EE H7 Fie Edit View Users Too iol IAE imas New Device Name xl Channeli device name can be from 1 to 256 characters Description O 0 A T E Dz AMM click to add a device in length D It must begin with a letter but the remaining C characters can be any combination of letters o z numbers and the underscore character Q Q o Is Device name O faa Devicel Lu lt Back Cancel Help Clients 0 Active tags 0 of 0 Selecting the The Model parameter allows you to select the specific type of the device Device Model associated with a device ID The contents ofthe model selection drop down will vary depending on the chosen communication driver
96. ose timing counting pulsing modules that can solve a variety of high speed counting precision timing stepper pulse control applications ERM Workbench insta ERM Workbench is an essential tool for configuring the Hx ERM Ethernet Remote Master modules on your Ethernet Remote 1 0 Network NetEdit3 Ethernet Setup Utility insta NetEdit3 is the utility that s used to configure and firmware upgrade most of our Ethernet devices EBCs ECOMs EDRVs amp ERMs Adobe Acrobat Reader O insta Adobe Acrobat Reader enables you to view PDF files Some of our DirectSOFT32 products provide OnLine Documentation using the PDF file format Adobe Acrobat Reader is a registered trademark of Adobe Systems Incorporated www adobe com Click on Install NetEdit3 A series of windows will step you through the installation process Fill in the necessary information as the installation wizard prompts through the install In the Setup Type window select Typical setup This setup type is recommended for most users The installation process places NetEdit3 in the CAHAPTools directory default Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using NetEdit3 Launching There are three methods to launch NetEdit3 NetEdit3 The three methods are e using the Windows Start menu Programs gt AutomationDirect Tools gt NetEdit3 as shown below e launching DirectSoft32 if installed from the programming window select P
97. ot 4 8 Double Word Input Slave 1 Slot 5 8 Double Word Output 8 Discrete Output Slave 1 Slot 6 8 Discrete Input Slave 1 Slot 7 8 Discrete Output V40414 40415 40514 hotswap auto Ethemet Address 00 E0 62 40 22 SF on 32 bit Binary 32 bit Binary 40515 32 bit Binary 32 bit Binary 40515 32 bit Binary 32 bit Binary 140516 140416 Y40516 j Read ERM Status MANUAL MODIFIED NUM a Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M E 7 Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 A AAAAAAAA A AAA A AAA AAA AA A A AAA A AA4A T1F 16DA 2 Example Module in Slot 2 fW ERM Module 00 EO 62 60 OD 29 ERM Workbench ioj xj File View Help Oe em 4 167 7 Ethemet Remote Master H4 ERM Ethemet Address 00 E0 62 60 OD 29 IP 192 168 0 147 ModulelD 47 EE Slave Status a 1 Configure ERM Interface BEE GE ee Mate 15 14 15 6 7 fe 2 Sabot Slaves LastERM 9917 PucMode Run Ho GT ae ne ma ms e pi Hit Read ERM Status gy n 3 White to ERM button to refresh Click on slave above Slave 1 no error to see its Last Error Bead ERM Status Time of 15 05 45 last read z Clear Last Error Slave 1 Slave 1 s Error List Detailed ERM Status 1 0 Module 170 Points PLC Start V Map lt reserved gt Slave Status Bits x300 x317 40414 ERM Status Word x320 x337 40415 Disable
98. pper left section of the NetEdit3 screen displays the Ethernet Address of the modules currently on the network File Metwork wow in If modules are added or removed from the network click on the Scan Network button to update the list Ethernet Address Notice that the MAC Address is the factory assigned address that is on the permanent label on the module 00 E0 62 40 00 02 00 E0 62 20 01 08 00 0 62 20 01 OF Select a specific module here by clicking on the MAC Address or by using the arrow keys The selected module is highlighted NOTE The Module window may list the MAC Addresses of devices not covered by this manual ox O Module Type IP Module Type IP Address ID Name Description So Address and ID TLH EBC1O0 192 166 26 47 Station 1 Machine Control Oper Z TA 10 1 1 31 55 The upper mid section ofthe NetEdit3 screen displays the Module Type IP Address module D Name and Description ofthe modules currently on the network A new EBC will have an IP Address of 0 0 0 0 a Module ID of O zero and no Module Name or Description To assign or change a module an IP address ID name or description refer to the EBC Settings gt General Information description later in this section Right clicking on an EBC module listed al on the NetEdit3 screen will display the Serial Port window to the right This is an 1 0 Base alternative to using the Module Info or LES E
99. quest before considering the request to have failed If your environment is prone to noise induced communications failures you may want to increase the number of retries the driver performs Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with KEPDirect OPC Server Automatic OPC The automatic OPC tag database generation features of KEPDirect have been Tag Database designed to make the setup of your OPC application a Plug and Play operation Generation Since the Automationdirect EBC communication driver supports this feature you can configure it to automatically build a list of OPC tags within KEPDirect that correspond to device specific data The automatically generated OPC tags are then browsable from your OPC client The OPC tags that are generated are dependent upon the nature of the supporting driver Each field selection is defined in detail in the Automated OPC Tag Base Generation section in the KEPDirect on line help file KEPDirect EBC 1 0 Server RE opf AIS x E Channell The device you are defining has the gaw to Cickto add a device lautomatically generate a tag datal Determine if the device should create a database on startup what action should be performed on previously generated tags group to add tags to and allowing subgroups Startup Do not generate on startul Action Delete on create z Add to group F Allow automatically
100. r I O EBC User Manual 2nd Edition Rev B T1H EBC M Modbus TCP Modbus 584 984 Addressing T1H EBC100 Modbus Data Type ue Range Decimal Points Memory Type Access 1 1024 1024 Discrete Output Read Coil Write 1025 10000 Reserved 10001 11024 1024 Discrete Input Read Input only 11025 20000 Reserved Modbus Data Type Range Decimal Words Channel Memory Type 16 bit 82 bit Analog Input 30001 30512 512 256 Analog Input Register Read see table below only Input Register 30513 32000 Reserved Input Register F Bit Input Register 32001 32064 64 32 Discrete Input Bit Read Register only Input Register 32065 37000 Reserved Analog output 40001 40512 512 256 Analog Output Read see table below Register Write Bit Output 42001 42064 64 32 Discrete Output Bit Read Register Register Write Hold Register 42065 44000 Reserved Note NetEdit3 Show Base Contents function will list the MODBUS addressing for each 1 0 module on the base For the analog I O the module Configuration Data registers are also listed Refer to Chapter 3 for information on NetEdit3 Show Base Contents x Base 0 Slot 1 Module Type 26 Analog Output 8 Bit outputs Modbus 584 984 Configuration data 50022 8 Double word outputs Modbus 584 984 Holding registers 40001 40016 a z 1
101. ration of the Ethernet Base Terminato fu Controller EBC You will find the AAN necessary information for configuring the T1H EBC or T1H EBC100 installing the module and connecting the EBC to a 10Base T or 100BaseT Ethernet network In this manual the EBC designation is used when the subject applies to both the T1H EBC and T1H EBC100 Otherwise the specific part number will be listed You may find other technical manuals useful for your application For technical information related to your PC based control software your PC or other network masters please refer to the appropriate manual for that product e Terminator I O Installation and I O Manual T1K INST M You will find this manual helpful for setup and installation if you have chosen to use the following e Network master PC based Control with embedded Ethernet 1 0 drivers KEPDirect EBC 1 0 Server or DirectLogic PLCs WinPLC using the Ethernet Remote Master ERM module e Automationdirect Terminator I O products A familiarity with Ethernet communications and with the setup and installation of industrial controls is helpful An understanding of electrical codes is essential We strive to make our manuals the best in the industry We rely on your feedback to let us know if we are reaching our goal If you cannot find the solution to your particular application or if for any reason you need additional technical assistance please call us at 770 844 4200 Our technic
102. rect Project Adding and Configuring a Channel B 4 RUINA INS SEMELLE ele he dah ee ela ie oa ere ts lala ane ee a oats e B 4 AOGING AG NANO eset bit a M ant Sons Se Nia HOS ES de i B 4 Selecting the Device Driver 10002 Hess team es Ge ts dent ad Para ete tee el B 5 Selecting the Network Adapter B 5 Setting the Server Writes Optimizations B 6 Saving the New Channel Settings B 7 Using Multiple Channels in a Project B 7 KEPDirect Project Adding and Configuring a Device B 8 POGING a DB TEA RTE SR LA A ats VALS RAE A EA A Saha B 8 Selecting the Device Model B 8 Setting the Device Timeout Properties B 9 Automatic OPC Tag Database Generation B 10 Saving the New Device Settings B 10 KEPDirect Project Adding Tags to the Project B 11 User Defined Tags esas sts a son os ee en ee ee B 11 Creating a User Define Tag 22 184448 888 a ee hee eee REO eA RE Meee ete B 13 T1H EBC 100 I O Addressing 2 ixeedeer eine ari a Hennes B 14 T1H EBC 100 I O Add
103. ressing Example B 14 Analog Output Module Configuration B 15 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Table of Contents Appendix C Using the KEPDirect OPC Quick Client Creating a KEPDirect Quick Client Project C 2 Connecting the Client to the OPC Server 2 cece cece eens C 2 Creating a Client Group 1 A A eee hate ied haat C 2 Selecting a Group Nemec Lie eee ee eatin au ety Ake Sea eee eee C 3 Item Operations cect desde Pee aes Behe Ss ee rt ad eee C 4 Using the RJ12 Serial Port in ASCII Mode C 5 Appendix D T1H EBC100 Analog Module Addressing Modbus TCP T1H EBC100 Analog Module Addressing Modbus TCP D 2 Appendix E T1H EBC 100 Analog Module Addressing H2 4 ERM 100 T1H EBC 100 Analog Module Addressing H2 4 ERM 100 E 2 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Introduction In This Chapter Manual Overview Ethernet Base Controller Overview Ethernet Standards 12 Introduction e S jo O pus Manual Overview Overview of this Manual Other Reference Materials Who Should Read This Manual Technical Support This manual describes the installation and ope
104. s If your PC is connected to the internet clicking on Hosteng com will take you to Host Engineering s web site where the most current firmware files are available for downloading to your PC You must use NetEdit3 to upgrade the module Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using the T1H EBC 100 With Think amp Do In This Appendix Mapping T1H EBC 100 I O Points Hot Swap Setup Analog I O Module Configuration O Module Status Words Bits Using EZTouch EZText Panel with the RJ 12 Serial Port QO oD kr S lt X 5 Q eo Q lt e on Using T1H EBC 100 with Think amp Do Mapping T1H EBC 100 I O Points We recommend that you are familiar with the Getting Started and Creating a Project chapters in the Think amp Do Studio Learning Guide before attempting to map the EBC I O points channels to Data Items using ConnectivityCenter Launching To launch ConnectivityCenter Connectivity Center Tool 1 Launch Think amp Do Studio ProjectCenter from the Windows desktop by clicking on Start gt Programs gt Think amp Do Studio gt ProjectCenter Or click on the ProjectCenter icon to start 2 Click on the File Menu and either Open your Think amp Do Project or select New 3 Within ProjectCenter select Windows 2000 or NT Certified PC as the Runtime Target 4 Then click Tools gt ConnectivityCenter to launch ConnectivityCenter Or
105. s sections applicables du Code national de pr vention des incendies du Code national de l lectricit et des codes de la National Electrical Manufacturer s Association NEMA Des organismes de r glementation ou des services gouvernementaux locaux peuvent galement vous aider d terminer les codes ainsi que les normes respecter pour assurer une installation et un fonctionnement s rs L omission de respecter la totalit des codes et des normes applicables peut entra ner des dommages l quipement ou causer de graves blessures au personnel Nous ne garantissons pas que les produits d crits dans cette publication conviennent a votre application particuli re et nous n assumons aucune responsabilit l gard de la conception de l installation ou du fonctionnement de votre produit Nos produits ne sont pas insensibles aux d faillances et ne sont ni con us ni fabriqu s pour l utilisation ou la revente en tant qu quipement de commande en ligne dans des environnements dangereux n cessitant une s curit absolue par exemple l exploitation d installations nucl aires les syst mes de navigation a rienne ou de communication le contr le de la circulation a rienne les quipements de survie ou les syst mes d armes pour lesquels la d faillance du produit peut provoquer la mort des blessures corporelles ou de graves dommages mat riels ou environnementaux activit s risque lev La soci t AutomationDirect n
106. ss is assigned to the EBC module if your network will be using the IP Address TCP IP or MODBUS TCP IP T1H EBC100 only protocols If you have a separate dedicated network for your EBCs you may be able to use the Module ID identifier IPX protocol for communications instead of an IP address To set an IP Address use the twelve digit number assigned to the EBC module by your network administrator If you change the IP address do not use the number 0 or 255 in any field Doing so will cause communications problems The valid settings are 1 through 254 The module ships from the factory with an IP Address of 0 0 0 0 This is not a usable IP Address for communications Click on Use the following IP settings radio button before clicking on the OK button to write the updated settings to the module s flash memory It is extremely important not to have duplicate IP Addresses on your network Example Client Subnet Mask 255 255 0 0 Valid Client IP Address 192 168 50 2 lest Valid settings for Valid EBC IP Address 192 168 55 5 Bol number elds Valid EBC IP Address 192 168 70 15 Do not duplicate WARNING If you are using the T1H EBC100 be sure to read Chapter 5 concering DHCP issues de TENN Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Using NetEdit3 ET EBC Settings gt Clicking the Serial Port button in the EBC Configuration Configuration gt Settings gt Configuration box brings up the Ser
107. sterick beside any device whose firmware is older than its firmware file in your Images folder The B column will display an asterick beside any device whose boot loader is older than its boot loader file in your Images folder The C column will display an asterick beside any device that has a configuration conflict with another device on the network Duplicate module IDs that are non zero and duplicate IP Addresses that are not 255 255 255 255 will report as conflicts Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M 3 12 Using NetEdit3 Locating the MAC Address Label od D gt NetEdit3 MAC Address Factory assigned MAC Address Host Auto Products T1H EBC100 5A 0704 00 E0 62 4003 B7 MFG IES A unique Media Access Control MAC Address is assigned to each module at the factory and cannot be changed It is a twelve digit number and it is printed on a label permanently attached to the EBC circuit board The MAC address label can be viewed through the translucent module cover NetEdit3 and HTML Configuration can be used to read the MAC address Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Modbus TCP for T1H EBC100 In This Chapter Modbus TCP IP Supported Modbus Function Codes Modbus 584 984 Addressing Modbus 584 984 Addressing for Function 3 Clients T1H EBC100 System Memory Current Last State Error Codes
108. t menu gt New Server Connection or click on the New Server icon in the toolbar menu Eag Server Properties Ex De General Registered Servers 2 8 OPC Data Access Servers Version 1 0 Lg DSData OPC Server E AutomationDirect KEPDirectS erver 8 amp OPC Data Access Servers Version 2 0 e AutomationDirect KEPDirectS erver Be a OPC General Date Prog D AutomationDirect KEPDirectServer Remote Machine Name Cancel Help Ready Specify the Prog ID of the OPC Server the client should connect to You can browse for registered servers by expanding any of the branches Double clicking on any registered server will automatically update the Prog ID field For more information on the registered servers click on the Help button to display the Server Connection section of the on line help file Once a connection to the OPC server has been established additional Server Operations can be accessed by right clicking on the highlighted server in the right window column or by using the Tools menu gt Server selection A group is used to organize a collection of items with a common set of properties To add a Group to the Quick Client you can use the Edit menu gt New Group or click on the New Group icon in the toolbar menu OPC Quick Client Untitled oxi B E General j Auton Name Update Rate ms fo t Time Bias min D Percent Deadband D Language ID CEE Eee Update Notific
109. t Number decimal T1H EBC 100 I O Each field selection is defined in detail in the Tag Properties section in the Addressing KEPDirect on line help file Example er O 0 Q nu xx cs aF te lt O m LL Terminator 1 0 Slot 1 Slot 2 Slot 3 Slot 4 Slot 5 Slot 6 EBC Module 8 Digital Input 16 Digital Input 8 Digit Output 16 Digital 8 Analog Input 16 Analog Output Output Slot 0 Addresses Addresses Addresses Addresses Serial I O Port S1 DIO S2 DIO S3 DOO Addresses S5 DWIO Addresses to to to S4 DO0 to S6 DWOO EBC SPO item S1 DI7 2 DI15 S3 DO7 to S5 DWI7 to S4 DO15 S6 DWO15 Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Using T1H EBC 100 with KEPDirect OPC Server Analog Output Module Configuration Analog Output Module Configuration Byte Module Control de Description Byte y Outputs Enable Bit 24 DOO_POINT 0 All outputs OFF Write 1 All outputs Enabled Unipolar Bipolar Bit 25 DO1_ POINT 0 Unipolar selected Write 1 Bipolar selected 5V 10V Range Bit 26 DO2_POINT 0 5V range Write 1 10V range 0 20mA 4 20mA Range Bit 27 DO3_ POINT 0 0 20mA range Write 1 4 20mA range DO4 POINT Bit 28 31 Reserved DO7_POINT The following example shows the KEPDirect OPC Quick Client discussed in Appendix C used to setup a Terminator I O analog output voltage module in slot 3 The highlighted selections are configured for Output
110. tains the data requested if no error occurs If an error occurs the field contains an exception code that the master uses to determine the next action to be taken The data field can be nonexistent in certain types of messages a z 1 0 Io LS mo i OKE U e Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M ES Modbus TCP l ModScan32 is a Windows based application program that can be used as a Modbus gt master client to access and change data points in a connected slave server device i e T1H EBC100 The utility is ideally suited for quick and easy testing of Modbus TCP network server devices Visit www win tech com to download a free ModScan32 trial demo and for more information on ModScan32 Supported Modbus Function Codes The following Modbus function codes are supported by the T1H EBC100 base controller Modbus Function Function Code 01 Read Output Table 02 Read Input Table 03 Read Holding Registers when addressing mode is 584 984 this function is used to ac cess analog output registers 04 Read Input Registers when addressing mode is 584 984 this function is used to access analog input registers 05 Force Single Output 06 Preset Single Registers 08 Loop back Maintenance 15 Force Multiple Outputs 16 Preset Multiple Registers Q E 102 J a TD For T1H EBC100 Terminato
111. tation for that software product to determine the best method to configure the EBC Depending on which software you are using it may not be necessary to use NetEdit3 Ethernet In the upper left corner of the NetEdit3 screen you will find buttons labeled PX and Communication TCP IP The EBC module understands these protocols Both protocols are Protocol permanently resident in the firmware of the module When you click on one of these buttons you are selecting the protocol you want your PC to use to communicate with the EBC module You are not telling the module which protocol to use because it is using both protocols all the time IPX is a Novell standard in widespread use and UDP IP is a popular protocol supported by the TCP IP suite of protocols in your PC The figure to the right shows the NetEdit3 Protocol selection buttons in the upper left corner of the NetEdit3 screen The File Network View Help choice you make here tells your PC which protocol to send to the EBC to link NetEdit3 to the module Buisn Scan TCPAP Network Ethernet Address F B 00 EO 62 40 00 02 RES 00 FA A end na lo m 2 9 Some PC based control software products may support only one of these protocols Read the documentation for your software to be sure the protocol you select is supported Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M ES Using NetEdit3 Ethernet Address The u
112. the channel does not contain a valid configuration Channel1 is not valid because a device has not yet been added to the channel KEPDirect supports the use of multiple channels As you add channels to your project you can specify either the same communications driver or different communications drivers Most communication drivers offered by KEPware support operation on up to 16 communications ports or ethernet network connections simultaneously By defining multiple channels you can improve the overall performance of you application In the case of either a serial driver or Ethernet driver using multiple channels allows you to spread large communications loads across the multiple channels A good example of this would be a serial driver that is being used to communicate with eight devices on the serial line Normally the communications driver used in this application would be responsible for gathering data from all eight devices in a round robin fashion If this same application is reconfigured to use multiple channels assigned to multiple communications ports the device load can be divided across the channels The end result is reduce work load on each channel and dramatic improvements in the responsiveness of your application The need to use multiple channels is dependent solely on the needs of your application In either case there is no additional cost involved to use a licensed driver on multiple communications or Ethernet ports Terminat
113. tions The same two organizations produced EIA TIA TSB40 Additional Transmission Specifications for Unshielded Twisted Pair Connecting Hardware The purpose of this document is to specify transmission performance requirements and connecting hardware requirements c amp wT g wn and Setup Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M Configuring the T1H EBC 100 Using NetEdit3 In This Chapter NetEdit3 Software Using NetEdit3 Locating the MAC Address Label ER Using NetEdit3 NetEdit3 Software od D gt NetEdit3 Installing NetEdit3 NetEdit3 is a software utility which can be used to set network identifiers Module ID or IP Address configure the EBC serial port perform diagnostic and troubleshooting tasks and upgrade the firmware in the EBC module if necessary The T1H EBC100 requires NetEdit 3 x or later You can install NetEdit3 on Windows98 ME 2000 XP or Windows NT4 NetEdit3 is included with this manual on the AutomationDirect Software Product Showcase CD also available online at www automationdirect com After inserting the CD into the drive the following window will appear 4 Macromedia Hash Payer 6 E Install Purchased f Software Demo Software Browse Catalog Contact Information CTRIO Workbench O insta Use this utility to configure all of your Hx CTRIO Counter 1 0 modules The Hx CTRIO modules are general purp
114. to 8191 5V 4095 to 4095 10V 8192 to 8191 No Broken Transmitter Detection N A for Voltage T1F 16AD 1 Input Data V 0 Ch1 V 2 Ch2 V 4 Ch3 V 34 Ch15 V 36 Ch16 No Software Configuration Input Range Depends on Input Signal 20 to 20mA 8192 to 8191 0 to 20mA 0 to 8191 4 to 20mA 1638 to 8191 No Built In Broken Transmitter Detection Monitor for counts less than 1638 when using 4 to 20mA TIF 16AD 2 Input Data V 0 Ch1 V 2 Ch2 V 4 Ch3 V 34 Ch15 V 36 Ch16 No Software Configuration Input Range Depends on Input Signal 0 to 5V 0 to 4095 0 to 10V 0 to 8191 5V 4095 to 4095 10V 8192 to 8191 No Broken Transmitter Detection N A for Voltage T1F 14THM Terminator I O EBC Manual 2nd Edition Rev B T1H EBC M Input Data V 0 Ch1 V 2 Ch2 V 4 Ch3 V 32 Ch14 V 34 Status 1 V 36 Status 2 Status info is only available if T1F 14THM is date code 1205 or later No Software Configuration THM Type Set by Jumpers Status 1 Data Number of Channels Enabled Inverted 0001 All Channels 1110 One Channel T C Type Jumper 0 O installed 1 removed T C Type Jumper 1 T C Type Jumper 2 T C Type Jumper 3 Units 0 Jumper Units 1 Jumper Calibrate Enable Jumper CJC Installed O Yes 1 No Always ON Always OFF Bits 0 3 Bit 4 Bit 5 Bit 6 Bit 7 Bit 8 Bit 9 Bit 10 Bit 11 Bits 12 13 Bits 14 15
115. turing customers true plug and play connectivity and the freedom to choose products based on their automation requirements While KEPDirect is first and foremost an OPC server KEPware recognized that a number of legacy applications still depend upon DDE for their underlying client server technology Early in the development of Windows Microsoft provided a generic client server technology called DDE Dynamic Data Exchange DDE did provide a basic architecture that would allow many windows applications from a wide range of vendors to share data But there was one problem DDE was not designed for the industrial market lacking much of the speed and robustness desired in an industrial setting However this did not stop DDE from becoming a dominant client server architecture largely due to its availability in most windows applications KEPDirect Enhanced OPC DDE Server is a 32 bit windows application that provides ameans of bringing data and information from a wide range of industrial devices and systems into client applications on your Windows PC KEPDirect falls under the category of a Server application It is very common to hear the term client server application in use across many software disciplines and business segments In the industrial market it has usually come to mean the sharing of manufacturing or production data between a variety of applications ranging from human machine interface software and data historians to large MES
116. work activity detected 100MBIT green On Ethernet activity is auto detected at 100bps Off with LINK ACTIVITY On Ethernet activity is auto detected at 10Mbps ERROR red On watchdog timer timeout represents hardware communications or network fault power on reset or reset within master device software SERIAL TX green On EBC RJ12 serial port is transmitting SERIAL RX green On EBC RJ12 serial port is receiving Serial Communications Port RJ12 RS232C K Sequence protocol ASCII MODBUS RTU serial not functional when used with H2 ERM H4 ERM at this time Base Power 350mA 5VDC Requirement General Specifications Installation Requirements mounts to right of first power supply Operating Temperature 32 F to 131 F 0 C to 55 C Storage Temperature 4 F to 158 F 20 C to 70 C Relative Humidity 5 to 95 non condensing Environmental Air No corrosive gases pollution level 2 UL 840 Vibration MIL STD 810C 514 2 Shock MIL STD 810C 516 2 Noise Immunity NEMA ICS3 304 Impulse noise 1us 1000V FCC class A RFI 144MHz 430MHz 10W 10cm Terminator I O EBC User Manual 2nd Edition Rev B T1H EBC M EH Installation and Setup LED Indicators and Hot Swapping 1 0 Modules The Hot Swap feature allows Terminator I O modules to be replaced with Terminator I O system power ON Be careful not to touch the terminals with your hands or any con
117. xtended Error Code 6 i e channel 6 of an analog module 11 Extended Error Code 7 i e channel 7 of an analog module 12 Extended Error Code 8 i e channel 8 of an analog module 13 Extended Error Code 9 i e channel 9 of an analog module 14 Extended Error Code 10 i e channel 10 of an analog module 15 Extended Error Code 11 i e channel 11 of an analog module 16 Extended Error Code 12 i e channel 12 of an analog module 17 Extended Error Code 13 i e channel 13 of an analog module 18 Extended Error Code 14 i e channel 14 of an analog module 19 Extended Error Code 15 i e channel 15 of an analog module 20 Extended Error Code 16 i e channel 16 of an analog module 38041 40000 Reserved 420291 422250 a an z 1 0 Io Ti m U i OKE U e For clients that only support function code 3 to read word data continued Terminator 1 0 EBC User Manual 2nd Edition Rev B T1H EBC M Modbus TCP Current Last State Error Codes The following table lists the error codes for Words 2 4 in the Module Status System Memory area Error Code Description Decimal EO No error E121 Channel failure E122 Unused analog input channels exist E139 Broken transmitter on one of the analog input channels if supported by analog module E142 Multiple channels failed E153 The module which was in this slot is no
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