Teleterm M2 Series RTU User Manual
Contents
1. Node Address 2 NodeA ddress 5 UMC2360BR05 paf 36 Omniflex Teleterm M2 Series RTU User Manual Remote node 5 on the CONET network has digital information in DIT register 100 Node 2 needs to monitor these digital inputs A regular update time of every 10s is quite satisfactory to determine that the remote system is still connected and functioning if nothing changes but the data should be sent immediately if any of the digital inputs changes state Node 2 is the Destination node it sets up the subscription and receives the data Node 5 is the sending node and requires no user configuration to participate in the subscription process Fill in the following data into one of the eight subscription blocks in the Subscription Table in the T2 CPU of Node 2 to configure this function Change of State Required Yes The data will also be sent whenever any bit the DIT registers 100 changes Update Time The regular updates can be 10 seconds apart want to start writing the received data Source Node Aasress fe Tre ocat CONET ID onthe Cnet network Se fe souca asan aor aseeseen Data Range We require 1 DIT register to be sent Table 6 2 Subscription Block Data Example When configured Node 2 automatically requests a subscription with the data from Node 5 on the Conet network Node 5 undertakes to send the contents of its own DIT register 100 over the network to2. 8 1 Battery ype rissies cece ols ecko Ee EE EO EE EE e ERRELE EEEN EE EEEE EGERET SES 46 8 2 Battery Replacement Procedure ccccccceceeseeeeeeceeeeeeeeeeseeneeeeeeeeeesesseeaeeneeeeeeeennes 46 9 Technical SUP OTE essence wince aeann esrar cxnie denna naan arra vatencinceninncialssieidinpisivncuvusdandusney 47 Table of Figures Figure 2 1 Mechanical Mounting Dimensions for the Teleterm M2 ceceeeeeeeeeeeeeeeeeeeeeeeees 11 Figure 2 2 Digital Input CONNECTIONS cee ceceeeeccececeeeeeeeeeeeeeeceeeeeeeseceeeaeeeeeeeeeeetenennineeeeseneeees 12 Figure 2 3 Digital Output CONMECHONS sssctccscrned dcaesubiibeiaivetideientncacretidasdiuvatenivessssurdadeateeienavartdaied 13 Figure 2 4 Analogue Input Connections c ccccccceeeeeeeeeeeeeeeceeeesesecnaeeeeeeeeesesesennieeeeeeeeseess 13 Figure 2 5 Analogue Output Connections c ccccccceeeeeeeeeeneeceeeeeeeeescenaeeeeeeeeeeesesennanseeeeeeetes 14 Figure 6 1 The Magazine Subscription Analogy cccccccessesecceceeeeeeeeeeenaeeeeeeeeesetecensaeseeeeeeeeees 34 Table of Tables Table 1 1 Product Feature Matrix senescence cues cc ccn cates ct ncccetend svecnessdinsheeteenevesspeiencessedehenssenereetsectacatess 7 Table 1 2 I O Configuration Options asp eciecats ca de So aceceit eee Daeachp sete aderadenateertecalnces 8 Table 1 3 Network Selection and Applications ccccecccceeeeeseceeeeeeaeeeeseeeaeeeeeeseeeeeeeeea
3. BIN16 Query Tigger 17 to 32 197 1 BIN16 Query Tigger 33 to 48 198 1 BIN16 Query Tigger 49 to 64 199 1 Reserved 7 1 7 ISaGRAF Program Information Isa GRAF Program Information 200 8 ASCII Application Name 208 2 UINT32 Application Date 210 2 UINT32 Application Checksum 212 1 UINT16 Application Version 213 1 INT16 Program Space Used 214 1 INT16 Variable Space Used 7 1 8 Digital Input Status Digital Input Status 250 1 BIN16 Digial Input Status DI 1 to 12 251 1 BIN16 Alarm Status Alarm 1 252 1 BIN16 Alarm Status Alarm 2 253 1 BIN16 Alarm Status Alarm 3 254 1 BIN16 Alarm Status Alarm 4 255 5 Reserved 7 1 9 Digital Output Status Digital Output Status 1 BIN16 Digital Output Status DO 1 to 10 8 Reserved UMC2360BR05 pdf 41 Omniflex Teleterm M2 Series RTU User Manual 7 1 10 Analogue Input Values Analogue Input Values 270 1 INT16 Measured Input A1 271 1 INT16 Measured Input A2 272 1 INT16 Measured Input A3 273 1 INT16 Measured Input A4 274 1 INT16 Measured Input A5 275 1 INT16 Measured Input A6 276 1 INT16 Measured Input A7 277 1 INT16 Measured Input A8 278 1 INT16 Measured Input A9 279 1 INT16 Measured Input A10 280 1 INT16 Measured Input A11 281 1 INT16 Measured Input A12 282 8 Reserved 290 2 INT32 Enginee
4. Timeout 30701 1 UINT16 Interquery Delay ms 30702 1 UINT16 Interpoll Delay ms 30703 1 UINT16 Retries 30704 4 Reserved 30708 1 UINT16 Query 1 Update Time 30709 1 2 x UINT8 Query 1 Slave ID msb Function Isb 30710 1 UINT16 Query 1 Slave Start Address 30711 1 UINT16 Query 1 Range 30712 1 UINT16 Query 1 Local DIT Start 30713 1 UINT16 Query 1 Local Port Number msb Local BIT position Isb 30714 4 UINT16 Reserved for future l e IP address for Modbus Master TCP 30718 10 Query 2 as per Query 1 30728 10 Query 3 as per Query 1 30738 10 Query 4 as per Query 1 30748 10 Query 5 as per Query 1 30758 10 Query 6 as per Query 1 30768 10 Query 7 as per Query 1 30778 10 Query 8 as per Query 1 30788 10 Query 9 as per Query 1 30798 10 Query 10 as per Query 1 30808 10 Query 11 as per Query 1 30818 10 Query 12 as per Query 1 30828 10 Query 13 as per Query 1 30838 10 Query 14 as per Query 1 30848 10 Query 15 as per Query 1 30858 10 Query 16 as per Query 1 7 2 6 Network Subscription Configuration Subscription Configuration 31398 1 UINT16 Subscription Cancellation Timeout 31399 1 UINT16 Subscription Cancellation Retries 31400 1 UINT16 Sub 1 Message Type 31401 1 UINT16 Sub 1 Update Time 31402 1 UINT16 Sub 1 Local Hardware Port 31403 1 UINT16 Sub 1 Local DIT Start 31404 1 UINT16 Sub 1 R
5. acct lett eesatecsecclntek eateesta erie nns tttn tennene ences 34 6 3 Setting up subscriptions atta nten ceeds Seeder ered ite eee neern 35 6 4 Number of subscriptions AlOWSC icc csccces ccecdesscnetsnestidesnesecseeeress t6biesienandenietendectaeeee 36 6 5 Subscription Application Example cccceeesceeeeeeseceeeeeeeaeeeeeeeaaeeeeeeseeeeeseeaeeeeeeneaaees 36 7 Detailed DIT Layout sccsisssissnsscsusveiccsinsanisseweuscannnevisarnnenddewessnnmeasaacvausweredsineativanawewedaans 38 7 1 Dynamic Data PAN Seco use iaeoe aa eei aE e eiae AEREE ERE 38 TAa SYVStemmlALOMMAt OM ss rsa A Eaa aa a iE 38 7 12 Communications POr Status sociis stheetl Riel ae ei aati paaid elit aidan 39 7 1 3 EventForth System Timers ccceecceeseecsseeeseceseaeeeseeecaeeeseeessaeeesaeesaeeesaeesaesesaeesaesesaeesaaeeesaeesaeseaaeeseaeeeaeeseaeeeaees 39 7 1 4 Network Status 00 ceececcececeeeeseneeeeeeseaeeeeaeeseaeeseaeescaeeseaeeseaeeseaeeseaeeseaeescaeeseaeeseaeeseaeessaeeseaeescaeeseaeeseaeeseaeeseeeseneeseaees 40 FMD SUDSCHPTION StALUS aia fo cate a eee e eae rea aa eieaa Warnes leh eats halve cuadee ch tts e ea O eaa aa E a aE aa Ea EA re EEA 41 71 6 Modbus Master Query Status enorsie arerioari n NEE ENEE AE AETI EUa NPr EEO EE ERE 41 71 7 ISaGRAE Program Information ss cciesc sfieece epiteeesdeeeencctheeG a a o Maneatis e taa e ae e anaa aa a aea a i 41 FASS Digital Input Status scannen a E a a a EA E E E E a a aii 41 7 1 9 Digital Output Status 22 ee
6. ccsceeeeeeeeeeeeeeeeeeeeeenaees 22 3 6 Quick F Sm U ION epee casas cu bose Gierawuiuedence e e E a E AE 22 3 621 Set the Real time Clockin Re de et ind ee dd he eee 22 3 6 2 Set the I O Points to the type required eeceeeeeceeeeeeeeeeneeeeeeeeeeeeeeeecaeeeeeesaeeseeesaeeseeeescaeeseeeesiaeeseeeessaeeseeeenaas 23 3 7 Configuring the Programming PoOft ccccccceceseeeeeeeeeeeeeeeeeeceeaeeeeeeeeeeeseeeeneeeeeeeeeeess 24 3 8 Configuring the Serial Port 1 saisciendinescasdinisainnitn nanmcinasnmncnlonasaaaace inadastoonvinnlaaca ans 25 3 9 Configuring the Conet c Network Port available on the Teleterm M2C onlly 26 3 10 Configuring the Conet r Network Port available on the Teleterm M2R only 27 3 10 1 Configuring the Radio Network Node Address cecccccceeeeteeeneeeeeeeeeneeeeeeseaeeeeaeeseaaeeeaeeeeeeeeaeeseeeeneeseneeeeeeeeeaes 27 3 10 2 Configuring the Inactivity Protection Timer ccecceeeceeseeeeeeeeeeeeeeeeeeseeeeeeeeesaeeeeeeesaeeeeeeescaeeseeeesiaeeeeeeesiaeeseaeenaas 27 3 10 3 Configuring the Hopping Sequence NUMbEL ceecceeeeeeeeeeeeeeeeeeeeeseeeeeeeeesaeeeeeesaeeeeeeesaeeeeeeescaeesieeestaeeeeeeenaas 27 3 10 4 Configuring the node as a Repeater or End Node cccceseceeeeeeeeeeeeeeeeeeeeeeesaeeeeeeescaeeeeeeeseaeeseeeeseaeeseeeessaeeseeeenaas 28 3 11 Other Configuration Settings sfovesscresincncsauscesvtresenencvialsasaeshcuviiwveutous SosiOeanbuncaswideuawberinelan
7. rails Top Hat Section DIN Rail 35 7 5mm in accordance with EN 60715 1981 Top Hat Section DIN Rail 35 15mm in accordance with EN 60715 1981 G Section Rail 32mm in accordance with EN 60715 1981 109 5 Height including serial cable 54 5 155 ro OOOOODOO00000 QBOBOOOBOOGOOOSOO C T y 45 Figure 2 1 Mechanical Mounting Dimensions for the Teleterm M2 UMC2360BR05 pdf 11 Omniflex Teleterm M2 Series RTU User Manual 2 3 Connecting direct Inputs and Outputs The Teleterm M2 has a unique feature of allowing each I O point to be software configured as analogue or digital input or output for the best possible utilisation of I O in any application Review your I O requirements and then make the optimum allocation of the I O taking into account the variations in specification of each I O Point See Table 1 2 I O Configuration Options 2 3 1 Connecting Digital Inputs Digital Inputs must be connected in accordance with the following schematic 9 30Vdc Supply DO 1 V 2 3 OV l 4 I l i n IOP 1 IOP 12 Figure 2 2 Digital Input Connections Digital Input Specifications Minimum High Level Input Voltage CV Maximum Low Level Input Voltage Cd _ UMC2360BR05 paf 12 Omniflex Teleterm M2 S
8. register address where the data will be 0 65535 written in this receiving node 0 65535 on Conet r 0 126 on Conet c local This can be expressed as a local network address plus the local slot and port to which the network is connected or it can be expressed as a global network address if network routing is configured in the CPU 128 254 on Conet c global Source DIT Start Address This is the first DIT register address of the block of 0 65535 registers to be sent from the source node Data Range This is the number of 16 bit DIT registers that will be 1 120 transferred in the subscription Table 6 1 Subscription Configuration Information 6 4 Number of subscriptions allowed There is a limit to the number of subscriptions that a Teleterm M2 RTU can receive and a limit to the number of subscriptions that it can send The M2 RTU can be configured to receive subscriptions from a maximum of 16 other nodes and can send subscriptions to a maximum of 8 other receiving nodes In other words each M2 RTU can act as data receiver for 16 subscriptions and data sender for up to 8 subscriptions simultaneously 6 5 Subscription Application Example Refer to the diagram of a simple network below Node 2 subscribes to data from Node 5 0 CONET ooooonooooooo cocooocooooo BSESSSaODDTOGOSA BESEODOTOGDEDGOA
9. setting For detailed configuration of each Input to suite your application select the actual I O Point in the left Group pane UMC2360BR05 paf 23 Omniflex Teleterm M2 Series RTU User Manual OmniSet Pro C2330A Template for Silent Sentry V1 20 03100402 C2330A osx File Edit Remote Data Help Oe ge a pau m E Connection Information Py Realtime Data 1 0 Configuration Summary fo Configuration 0 Point 1 Type Digital Input fe 1 0 Points 0 Point 2 Type Digital Input E 170 Point 01 0 Point 3 Type Digital Input 1 0 Point 02 0 Point 4 Type Digital Input 0 Point 03 0 Point 5 Type Digital Input 0 Point 6 Type Digital Input 0 Point 04 0 Point 7 Type Digital Input 140 Point 05 0 Point 8 Type Digital Input 0 Point 06 0 Point 9 Type Digital Input 1 0 Point 07 0 Point 10 Type Digital Input 70 Point 08 0 Point 11 Type Digital Input 70 Point 09 0 Point 12 Type Digital Input 0 Point 10 0 Point 11 y 1 0 Point 12 E SIM Card Settings Configure 1 0 Points 1 to 12 cl Message Settings Note 1 1 0 Points 1 to 10 can be configured for E Derived Inputs Analogue Inputs Ly Communications Digital Outputs About this product Digital Inputs c H Li c a 2 140 Points 11 and 12 can be configured for Analogue Inputs Analogue Outputs Digital Inputs Local CPU SIMULATION MODE 3 7 Configuring the Programming Port This port is set in the factory to its de
10. the Teleterm M2 Select one of the Real Time Data Groups to see the current data in the Teleterm M2 The Configuration Group contains all the Items that can be configured in a Teleterm M2 The value of an Item in the right hand pane can be changed in a number of ways 1 Double click the Item or 2 Right Click the Item and select New Value from the options provided Enter the new value in the dialogue box and then press Enter or the OK button Once you have completed the configuration of your Teleterm M2 you should save your configuration to your hard drive so you have a backup of the configuration Remember that if your Omniset is not synchronised to your target Teleterm M2 when you make any changes in Omniset these changes will not be written to the Teleterm M2 until you press the Write or Write All button 3 6 Quick Configuration This procedure is recommended to check the Teleterm M2 operation for the first time This provides the minimum amount of configuration necessary to achieve a simple functional test This will give you a good starting point for further customisation to suit your specific application 3 6 1 Set the Real time Clock The Real Time Clock Data Group shows the current date and time in the Teleterm M2 the time and date of the last power down and the time and date of the last power up UMC2360BR05 paf 22 Omniflex Teleterm M2 Series RTU User Manual To set the real time clock
11. 1 0 Point 02 Query 01 Query Type Cyclic 500ms Eg 1 0 Point 03 Update Time 500ms Cy 1 0 Point 04 Modbus Function Number 02 Read Input Status 2 Ey 170 Point 05 Slave ID E 1 0 Point 06 Slave Start Address 1000 Range E 1 0 Point 07 Local DIT Start E 1 0 Point 08 OCALDLI ALA asemnea ranee eanont eaeoe SAE nunnnnnnninnnnnininnnnnnnnint fj 1 0 Point 09 gii type ia trina Eg 1 0 Point 10 Query 03 Query Type 2g 170 Point 11 Query 04 Query Type Ey 170 Point 12 Query 05 Query Type Cy SIM Card Settings Query 06 Query Type Ly Message Settings aon ie oa pE E Message List Query 09 Query Type Ey Recipient List Query 10 Query Type Ey Timer Settings Query 11 Query Type E Maximum SMS hour Query 12 Query Type E Daily Update Query 13 Query Tyne Cy Derived Inputs g Ey Communications Ey Serial Port Port 1 2 Modbus Link E Modbus Slave 1 0 Map Ly Modbus Master ea Queries 011016 Pa About this nraduct KO z Local CPU SIMULATION MODE In the example shown above for Query 01 each data item has the following meaning Query Type Cyclic This means that the query will repeat on a timed cycle as set Update Time This setting shows often the query will be sent in this case every 500 milliseconds 0 5 seconds Modbus Function Number There are number of types of messages called functions that the Modbus protocol supports Function 3 for reading general purp
12. Baud rate 62 500 baud Switches 1 7 Conet ID r r 456 Set in binary b a Switch 1 LSB Switch 7 MSB Switch 8 Baud Rate Switch 8 OFF 62 5 kBaud Switch shown set to Address 2 Normal baud rate Conet Slow mode Baud rate 7 800 baud Switches 1 7 Conet ID mt tl te Switch 8 Baud ie e Switch 8 ON 7 8 kBaud Switch shown set to Address 2 Slow baud rate Table 3 1 Conet Port Address switch settings on the M2C RTU Each node on the Conet c network should be allocated a unique address in sequence starting at 1 While a Conet c network will operate reliably with missing node addresses UMC2360BR05 paf 26 Omniflex Teleterm M2 Series RTU User Manual best performance of the network will be achieved with all operating nodes having consecutive addresses All Conet nodes in a network must be set to the same baud rate Please refer to the Conet Installation Guide and Conet Protocol Datasheet for more information on the CONET network 3 10 Configuring the Conet r Network Port available on the Teleterm M2R only Conet r is a full peer to peer radio network which allows the system designer to take advantage of flexible network topologies The following parameters need to be configured in every node in the Conet r network These parameters can be found in the Omniset Configuration gt Communications gt Ports gt Radio Port group 3 10 1 Configuring the Radio Network Node Add
13. adio communications in the presence of high M2R interference C236xB 32 The M2R is ideally suited for communications in areas where cable connections are impossible and distances are relatively short between 0 5km and 10km dependent upon the model and antenna selected See the selection guide for choosing the model appropriate for your country of use The M2S is equipped with two additional serial ports Port 3 is an RS232 485 port with the same pin out and functionality as Port 1 the built in serial port Port 4 is an RS232 port with full hand shaking M2S C236xB 41 capabilities suitable for interfacing to external modems or to any other equipment capable of supporting a RS232 connection The M2S is ideally suited for interfacing to external modems or to other third party equipment using the RS232 RS485 standard Table 1 3 Network Selection and Applications UMC2360BR05 pdf 10 Omniflex Teleterm M2 Series RTU User Manual 2 Installing the Teleterm M2 RTU 2 1 Connecting the Internal Clock Battery Before installing the Teleterm M2 the internal clock battery must be connected The Teleterm M2 is shipped from the factory with a Battery Protector Tab protruding from the left side of the unit Pull on the tab to remove before use See section 5 for battery replacement details 2 2 Mounting the Teleterm M2 The Teleterm Teleterm M2 is designed to be clipped to one of the following mounting
14. af 34 Omniflex Teleterm M2 Series RTU User Manual The remote node will then send the data at an agreed time interval plus if required when the data changes state The receiving node expects these regular updates and will flag an error if the subscribed data is interrupted for any reason 6 3 Setting up subscriptions Just like the magazine subscription the receiving M2 is responsible for setting up and maintaining subscriptions with other nodes to replicate data across the network The advantages of using subscriptions over regular polling mechanisms are as follows 1 Only one message is required on the network for a data update as opposed to two ina Request Reply polling method This reduces network overhead allowing more data throughput on the network 2 The regular data updates can be much slower than the response time required for the system by using change of state detection The Source node will send data immediately there is a change of state providing the optimum system response without the need to have a fast regular update time This reduces network overhead allowing more faster data throughput on the network when something does change 3 On peer to peer networks multiple subscriptions can be configured between nodes in different directions each of which would operate independently of any other This provides far more flexibility than typical Poll Response Master Slave methods Subscri
15. ailure may NOT be saved 7 2 1 Input Configuration Input Configuration 30000 50 INT16 Configuration Input 1 30050 50 INT16 Configuration Input 2 30100 50 INT16 Configuration Input 3 30150 50 INT16 Configuration Input 4 30200 50 INT16 Configuration Input 5 30250 50 INT16 Configuration Input 6 30300 50 INT16 Configuration Input 7 30350 50 INT16 Configuration Input 8 30400 50 INT16 Configuration Input 9 30450 50 INT16 Configuration Input 10 30500 50 INT16 Configuration Input 11 30550 50 INT16 Configuration Input 12 7 2 2 Serial Port 1 Configuration Port 1 Setup Serial Port main board 30610 1 UINT16 Protocol and comms setting 30611 1 UINT16 RTS CTS Timeout 30612 8 Reserved for Port 7 2 3 Serial Port 2 Configuration Port 2 Setup Second Serial Port M2S Only 30620 1 Protocol and comms setting 30621 1 RTS CTS Timeout 30622 8 Reserved for Port 7 2 4 Programming Port Configuration Prog Port Setup UINT16 Protocol and comms setting UINT16 RTS CTS Timeout UNIT16 Reserved for Port UMC2360BR05 paf 43 Omniflex Teleterm M2 Series RTU User Manual 7 2 5 Modbus Port Configuration Modbus Slave Register map 30690 Modbus Slave Register Map 30698 Reserved Modbus Master Query Configuration 30700 1 UINT16 Query Response
16. al 14 2 UINT32 MJD Power Down Date Date of last power down in MJD format 2 UINT32 IEC Power Down Time Time of last power down in IEC time format 2 UINT32 MJD Power Up Date Date of last power up in MJD format 2 UINT32 IEC Power Up Time Time of last power up in IEC time format 1 BIN16 System Register Bit 0 User Program HALTED 0 or RUNNING 1 Bit 1 Clock Backup Battery HEALTHY 0 or LOW 1 Bit 2 I O Fault Bits 3 15 Reserved 23 1 UINT16 Alive Counter 16 bit Running counter increments every 10ms 24 6 Reserved 30 1 INT16 PSU Voltage Incoming Power Supply Voltage with 0 1V resolution 31 1 INT16 Temperature CPU temperature with 0 1degC resolution 32 1 INT16 RTC Battery Voltage Backup Battery Voltage with 0 1V resolution 33 1 Reserved 34 1 INT16 SD Card Status 35 1 UINT16 SD Card Memory Used _ 36 1 UINT16 SD Card Memory Available 37 1 Reserved 7 1 2 Communications Port Status Communications Port Status 50 1 UINT16 Programming Port Inactivity Counter 51 1 UINT16 Serial Port Inactivity Counter 52 1 UINT16 Network Port 1 Inactivity Counter 53 1 UINT16 Network Port 2 Inactivity Counter 54 1 UINT16 Prog Port Local ID 55 1 UINT16 Serial Port Local ID 56 1 UINT16 Network Port 1 Local ID 57 1 UINT16 Network Port 2 Local ID 58 1 UINT16 Prog Port Global ID 59 1 UINT16 Serial Port Global ID 60 1 UINT16 Networ
17. an Omniset Template customised for each version of M2 RTU Browse through all of the Configuration Groups in Omniset The Help pane in Omniset will explain each of these additional settings 3 12 Programming the M2 RTU in EziFORTH Please refer to the separate EziFORTH Programmer s Manual UMC2360BR05 paf 28 Omniflex Teleterm M2 Series RTU User Manual 4 4 1 4 2 Modbus and the Teleterm M2 Overview A unique and powerful feature of the Teleterm M2 is its ability to read data from any device equipped with a Modbus port and send SMS Alarm messages based upon the contents of that data Examples of equipment that can be interrogated for alarm data are instruments such as PLC s SCADA packages on line analysers flow meters etc Modbus is the most popular standard for the exchange of data between industrial instrumentation today Modbus is a well established reliable standard that is easy to use Modbus is a serial multi drop Master Slave protocol This means that you can connect one or more Slave devices to a Master device over a serial communication link If only one Slave device is being used and the distance between the Master and Slave devices is less than 15m then the simpler more popular RS232 electrical standard can be used If two or more Slaves are to be connected to the Master Device or the distance between the devices is greater than 15m then the RS485 electrical standard must be used There are no inter
18. and machines All I O and configuration data variables are automatically accessible through Data Interchange Registers in a single Data Interchange Table allowing the implementation of Remote I O systems out of the box 1 1 2 Programmable Conventional remote I O systems can be implemented without the need for any software programming but the inclusion of two separate programming facilities within the M2 provides a powerful customisation capability The programming facility delivered in every M2 RTU is the EziForth programming language This facility is suited for simple logic control custom protocol implementation and similar tasks The EziForth Workbench programming software is the development environment used for these applications 1 1 3 Memory Card The SD Card Slot provides the ability to store readings on a removable SD Card for remote logging applications The data written to the SD Card is under control of the User Program allowing flexibility of file structure and contents 1 1 4 Versatile Configurable Inputs and Outputs A Teleterm M2 Series RTU provides the ideal low cost remote interface to your assets or processes to provide the control and information that you need to optimise your operations The M2 RTU s are all equipped with 12 direct Binary and Analogue Inputs and Outputs Each I O can be uniquely configured as an input or output analogue or digital 1 1 5 Built in Serial Port An RS232 485 serial port suppo
19. ations gt Ports gt Serial Port Port 1 Group UMC2360BR05 paf 25 Omniflex Teleterm M2 Series RTU User Manual amp OmniSet Pro C2330A Silent Sentry Template Silent Sentry Demo unit 03100101 C2330A osu DER File Edit Remote Data Help Dee 4 wea n G E Connection Information Pj Realtime Data Py Configuration 1 0 Points E 1 0 Point 01 Cy 1 0 Point 02 Cy 170 Point 03 Cy 1 0 Point 04 2g 1 0 Point 05 Cy 1 0 Point 06 E 170 Point 07 Cy 1 0 Point 08 Cy 1 0 Point 03 Cy 1 0 Point 10 Cy 1 0 Point 11 E 1 0 Point 12 E SIM Card Settings Ly Message Settings LJ Message List Cy Recipient List E General Settings Ey Daily Update Ey Communications Cu ED Modbus Link Ey Advanced Settings fy About this product Local CPU Description Value Port Settings Protocol Modbus Slave ASCII Hardware Handshaking Off Baud Rate 9600 Number of Data Bits 7 Parity None Stop Bits 2 Stop Bits Slave Address 2 Select Odd Even or No Parity SIMULATION MODE 3 9 Configuring the Conet c Network Port available on the Teleterm M2C only The Conet c Port selection switch is located on the top edge of the M2 RTU along side the Port 2 Conet Network connector Use this switch to configure the Node address of the RTU on the Conet network and the desired CONET baud rate Normal or Slow Communications Protocol Conet Address switch setting Conet Normal mode
20. connect 8 CTS In Do not connect 9 Do not connect Tx Data Out Table 2 4 Pin allocation of Port 3 serial port connector on Teleterm M2S NOTE This port is not isolated and the Signal Ground is connected internally to the M2S Power Supply 0 Volt connection NOTE The RTS and CTS handshaking lines are available for applications that require them It is not a requirement of the CPU to use handshaking In most applications connecting the RTS and CTS handshaking lines is not necessary UMC2360BR05 paf 18 Omniflex Teleterm M2 Series RTU User Manual The pin out of PORT 4 is given in the following table Pin number In Out Name Description 1 l CD Carrier Detect 2 l RD Received Data 3 O TD Transmitted Data 4 O DTR Data Terminal Ready 5 SG Signal Ground 6 l DSR Data Set Ready 7 O RTS Request To Send 8 CTS Clear To Send 9 l RI Ring Indicator Table 2 5 Pin allocation of Port 4 serial port connector on M285 NOTE This port is not isolated and the Signal Ground is connected internally to the M2S Power Supply 0 Volt connection 2 7 Powering up the Teleterm M2 Upon power up the Teleterm M2 will take approximately a few seconds to initialise the system and connect to the network The front panel LED s will all light for a short period before switching to their operational state UMC2360BR05 paf 19 Omniflex Teleterm M2 Series RTU Use
21. ct YE i lt none gt LocalCPU _ Port 1 Conet s on COM 5 4 2 2 Modbus Data Register Mapping The Modus protocol in the Teleterm M2 supports the reading and writing of a number of different types of data Digital Status Inputs Coil Outputs Input Registers and Holding Registers These Modbus Data types are mapped to specific areas of the Teleterm M2 s Scratch Pad Registers It is not normally necessary to change this layout but you may do so for specific applications The default settings are as follows OmniSet Pro C2330A Silent Sentry Template Silent Sentry Demo unit 0310 BAR Fie Edit Remote Data Help Doe TERTIT 745 fy Connection Information Py Realtime Data Holding Registers Cy Time Date Start DIT E Product Status End DIT 7g 10 Status f ha CJ Mobile Network Status shag egisters art DIT ii E Message Status End DIT 2 Modbus Link Status Cy User Scratch Pad DITs 350 399 Coils Py Configuration Start DIT E 1 0 Points End DIT E SIM Card Settings EJ Message Settings Input Status Start DIT Ey Message List End DIT 4 Recipient List Cy General Settings E Daily Update 2g Communications Ey Serial Port Port 1 2 Modbus Link fi Modbus Slave 1 0 Map This group provides the facility to map Modbus 1 0 types such Modbus Master as Coils and Input registers etc to DIT registers in the CPU Cy Queries 01 to 16 Note that a default Modbus 1 0 map is always assume
22. d drawings is the property of Omniflex and is issued on condition that it is not copied reprinted or reproduced or transmitted in any form or by any means electronically photocopying mechanical or otherwise nor its contents disclosed either wholly or in part without the consent in writing of or in accordance with the conditions of a contract with Omniflex The publication of information in the document does not imply freedom from patent or other protective rights of Omniflex or others Although every intention is made to ensure that performance figures and data are accurate the company reserves the right to alter without notice any product or specification Performance figures and data must therefore be specifically confirmed by the company before they become applicable to any tender order or contract In the case of electrical components enough data is included in the drawings to allow maintenance of the equipment However if component availability or substitution information is required please consult the factory for assistance as it is impossible to include data on every component in this document This product is sold without liability for consequential loss of any description UMC2360BR05 paf 47 Omniflex
23. d when serial port dipswitch is set to default Modbus communications ie sd Advanced Songs when SW8 is ON and Sw7 is OFF About this product This allows you to always return to a known setup should the CPU be programmed incorrectly The default setting is as follows Holding Register 1 is mapped to DIT 0 up to DIT 65499 4 lt none gt lLocalCPU Port 1 Conet s on COM 5 UMC2360BR05 pdf 30 Omniflex Teleterm M2 Series RTU User Manual The most efficient data type to use is Holding Register Read Modbus Function 3 and Holding Register Write Modbus Function 16 4 3 Modbus Master 4 3 1 Selecting the Master Protocol Details Setting up Modbus Master protocol requires configuration of the serial port in the Configuration Communications Serial Port group including ASCII and RTU mode Baud Rate Parity number of Data bits and Stop bits etc 4 3 2 Query Blocks In order to use the Modbus Master facility in the Teleterm M2 to get data from another Modbus Slave Query Blocks have to be configured that tell the Teleterm M2 where to get the data from which Slave where in the Teleterm M2 to place the data and which Modbus Function to use to acquire the data Up to 32 Query Blocks can be configured in the Teleterm M2 OmniSet Pro C2330A Template for Silent Sentry V1 20 03100402 C2330A osx File Edit Remote Data Help Dee a a GW HI G 4 170 Point 01 Description Value Ey
24. ds The Tx1 and Rx1 lights will go off to indicate Normal mode and will resume their normal mode if flashing whenever valid data is received UMC2360BR05 paf 24 Omniflex Teleterm M2 Series RTU User Manual Y OmniSet Pro C2330A Silent Sentry Template Silent Sentry Demo unit 03100101 C2330A osu DAR Fie Edit Remote Data Help EA TEETE E Connection Information Realtime Data Port Settings fo Configuration Protocol Modbus Slave ASCII y 1 0 Points Hardware Handshaking Ort E 170 Point 01 Baud Rate 9600 fy 1 0 Point 02 Number of Data Bits E 10 Point 03 Stop Bits 2 Stop Bits is ea E Slave Address 2 gt oint Cy 1 0 Point 06 Cy 1 0 Point 07 Cy 1 0 Point 08 Cy 1 0 Point 03 Cy 1 0 Point 10 Cy 1 0 Point 11 Ly 1 0 Point 12 Cy SIM Card Settings yj Message Settings LJ Message List Cy Recipient List Cy General Settings Ey Daily Update Eg Communications y Serial Port Port 1 6 2 Modbus Link Ey Advanced Settings E About this product Select Odd Even or No Parity Local CPU SIMULATION MODE 3 8 Configuring the Serial Port 1 The serial port Port 1 on the Teleterm M2 comes equipped with four protocol options 5 Modbus Master ASCII and RTU 6 Modbus Slave ASCII and RTU 7 Conet s protocol 8 User Protocol Requires an installed user program to access the serial port The required protocol including any address selection is made in the Configuration gt Communic
25. e Product File Compatibility is Yes Make sure that the Sync button Gis depressed and that the Sync mode icon is present in the Status bar at the bottom of the Omniset window This indicates that Omniset is in Sync mode and that the data visible in Omniset is synchronised with the Teleterm M2 connected In this Sync mode any changes that you make in Omniset will automatically be written to the Teleterm M2 If Sync mode is NOT enabled then changes you make to the configuration will NOT be written automatically to the Teleterm M2 You can write these values manually to the Teleterm M2 by selecting Write Current Group or Write All Groups from the Data menu You are now ready to view or change any of the parameters in the Teleterm M2 3 5 Overview of the Teleterm M2 Configuration Template The pane on the left of the Omniset window shows a list of Groups of Items to be viewed or changed arranged in Folders Select a Group in the group pane on the left to see the contents of the individual Items for that Group in the item pane on the right By selecting either a Group or an Item Help information will be displayed for that Group or Item in the Help pane below the Item pane at the bottom of the Omniset window See the Omniset Help for a more detailed description of the operation of Omniset There are two important Groups in the left group pane The Real Time Data Group contains the current status of all data items in
26. ed with RSSI above 128 1 UNIT16 M2R Inactivity Node 2 129 1 UNIT16 M2R Inactivity Node 3 130 1 UNIT16 M2R Inactivity Node 4 131 1 UNIT16 M2R Inactivity Node 5 132 1 UNIT16 M2R Inactivity Node 6 133 1 UNIT16 M2R Inactivity Node 7 134 1 UNIT16 M2R Inactivity Node 8 135 1 UNIT16 M2R Inactivity Node 9 136 1 UNIT16 M2R Inactivity Node 10 137 1 UNIT16 M2R Inactivity Node 11 138 1 UNIT16 M2R Inactivity Node 12 139 1 UNIT16 M2R Inactivity Node 13 140 1 UNIT16 M2R Inactivity Node 14 141 1 UNIT16 M2R Inactivity Node 15 142 1 UNIT16 M2R Inactivity Node 16 143 1 UNIT16 M2R Inactivity Node 17 144 1 UNIT16 M2R Inactivity Node 18 145 1 UNIT16 M2R Inactivity Node 19 146 1 UNIT16 M2R Inactivity Node 20 147 3 Reserved UMC2360BR05 paf 40 Omniflex Teleterm M2 Series RTU User Manual 7 1 5 Subscription Status Subscription Status 180 1 BIN16 Bit Status for Subscriptions 1 to 16 181 1 BIN16 Bit Status for Subscriptions 17 to 32 182 1 BIN16 Bit Status for Subscriptions 33 to 48 183 1 BIN16 Bit Status for Subscriptions 49 to 64 184 6 Reserved 7 1 6 Modbus Master Query Status Modbus Master Query Status 190 1 UINT16 Last Known Error Code 191 1 BIN16 Bit Status for Queries 1 to 16 192 1 BIN16 Bit Status for Queries 17 to 32 193 1 BIN16 Bit Status for Queries 33 to 48 194 1 BIN16 Bit Status for Queries 49 to 64 195 1 BIN16 Query Tigger 1 to 16 196 1
27. eee cece eeeneeeeeeeeaee tease eeaeeseaeesaeeseaeeeaeeseaeescaeeseaeesaeeseaeeseaeeseaeeseaeeseaeeseeeseaeeseeeseeeesaees 41 7i t0 Analogue Input Value Ssss esinen liek ence de ae e aae ra ar aaa EE E SE Eaa EE ea Gadus Ea E 42 7As11 Analogue Output Stat Sssrsrcren inaen EE EEE AN e TEN aE EE 42 7 1 12 User Dymamic REGISterS i 5 2 yecevecegcecs Spcave cee edavccdes leaned rae aaae ian Panar ea a aaar eaa iea aig Ka SEAE aKa PAE SERA 42 7 2 Static Data Sg cosas ceetecet csc coe cee eden tss t Entr tE EEES S EEEE EENES SE EEEE E EE EEnE Ennn eneen reene 43 7 2 1 NPUECONJUr AON ia iiaeie eaeoe e aa nR O Ee eE a PE e R araa a p naiari anori aiaa 43 7 2 2 Serial Port 1 COmfiQuration 0 eecceeecseceseeceneeeeaeeceaeeeeaeesaeeeeaeeseaeeseaeesaeeseaeesaeeseaeessaeeseaeeseaeeseaeessaesseaeessaeeseaeessaes 43 UMC2360BR05 paf 4 Omniflex Teleterm M2 Series RTU User Manual 7 2 3 Serial Port 2 Configuration seei eee eetecence cence teaeeeeaeeteneeteaeeteaeeseaeesaeessaeeseaeesaeesaeesaeeseaeeseaeeseaeessaeeseaeessaeeeeaeessaees 43 7 2 4 Programming Port Configuration 43 7 2 5 Modbus Port Configuration cccccccceeseeceseeeeneeeeeeeeeeeceaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeessaeeseeeseneeseeeeeaees 44 7 2 6 Network Subscription Configuration ccecceseseeeseeeseneeeeeeseeeeeeeeeseaeeeseeeseaeeesaeeseaeesaeeseaeesaeeseaeesseeeseaeesseeeseaeeenaees 44 8 MAINO ANCE sssr dienian nianiar iaaa aaia aaa aiaia 46
28. eeeeees 10 Table 2 1 Pin allocation of connectors on M1831A programming Cable s 15 Table 2 2 Pin allocation of Port 1 serial port connector on TeletermM M2 eeeeeeeeeeee tees 15 Table 2 3 Pin allocation of Conet port connector on the Teleterm M2C eceeeeeeeeeeeeees 17 Table 2 4 Pin allocation of Port 3 serial port connector on Teleterm M2S ccceeeeeeteeeeees 18 Table 2 5 Pin allocation of Port 4 serial port connector ON M2S eeeeeeeeeee eee ee ee eeeeeeeeeeeeeeeees 19 Table 3 1 Conet Port Address switch settings on the M2C RTU ccccecesesseseceeeeeeeeeseseees 26 Table 6 1 Subscription Configuration Information c ccccccceceeeeeeeeeeeeeeeeeeeesecseneeeeeeeeeeeseesenes 36 Table 6 2 Subscription Block Data Example ccccceeeeeeeeeeeeeeeeeeeeeenneeeeeeenaeeeeeeeneaeeeeeeneeeeees 37 Table 7 1 DIT based ISaGRAF Virtual I O Module List Error Bookmark not defined UMC2360BR05 paf 5 Omniflex Teleterm M2 Series RTU User Manual 1 GENERAL DESCRIPTION 1 1 Overview The TELETERM M2 Series of RTU s is designed specifically for industrial telemetry and remote I O applications combining powerful industrial network communications features with ease of use 1 1 1 Communications The TELETERM M2 Series RTU is available with a wide range of communications network options to enable communication with a broad selection of devices
29. eeeeneeeeneeeeaes 17 2 6 3 Teleterm M2R Model C236xB 31 32 33 34 with Radio Network Poft c ceecceesceeeeeeeeeeeeeeeeneeeeeeeseneeeeeeeeeaes 17 2 6 3 1 Connecting the ANTON iciccaccgiescciscis cdoisccsceaschlececiseseedssdsitelncacsaderseasssticbacssies 17 2 6 3 2 Positioning the Antenna sce ccs Secs cet actee cece acietdicbncsacelecatiiestirenieteieiudeiecictans 18 2 6 4 Teleterm M2S Model C236xB 41 with two additional Serial Ports eccecsceeeeeeceeeeeeeeeseeeeeeeeeeeeeeseeeeseaeeeeeeenaas 18 2 7 Powering up the Teleterm M2 2 ssoe cc gon essccec res ssceatedes a taeceleciceiG aye weet cal eSendcccebiSacceetaee 19 3 Configuring the Teleterm M2 wiicssicscecnsicsisanstenssseadadiasnsiercusnaiscduuntineisunsdandasbiwecienniiiads 20 3A INT ierisinde eea alee esta Actes a aa ah wa aRar eE iaaa rA REEE 20 3 2 Incompatibility with Previous Versions Of Omniset ccccceeeeeeeeeeeeeeeeeeeeeeeneeeeeeeenaees 20 3 2 1 Versions of Omniset prior tO 7 3 eee ceceeeeeeeeeeeeeeeeeeeeeeeeeeeseeeeeeeessaeeeeeeessaeseaeeesaeseeeesaeeeeeeescaeeseeeesiaeeseeeesiaeeseerenaas 20 3 3 Installing Omniset from the CD supplied eee eecceeeeeeeceeeeeeeeeeaeeeeeeeeeeeeeeaaeeeeeeneaaees 20 3 4 Connecting Omniset to the Teleterm M2 for first time ceececeeceeeceeeeeeeeseceeeeeeees 21 UMC2360BR05 paf 3 Omniflex Teleterm M2 Series RTU User Manual 3 5 Overview of the Teleterm M2 Configuration Template 0
30. eeeessneeess 6 elle PrOGFAMIMAbl eS ssie oarn aO a AES ced r Aa r 6 Ti Meo Memory Cardia a e eased a a a a tate case E a eee 6 1 1 4 Versatile Configurable Inputs and Outputs 20 2 eeeeeeceeeeeeeeneeeeeeeeeaeeeeaeeeeaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeeseaeesseeseeeeeaees 6 14 5 Built in Serial POrts 22 i accicscceediveccceidesicccdassciagsiascceehdgeas opidayiea a EEE EAEE aa A EE E aE EAE Ea ON PEE E TEE EENES 6 1 2 Product Feature MAK viicoccccnevessencnecssateaeetseninrssansaerduersessavecasteueesieeaveeeeetdesneenere 7 1 3 Feature Descriptions geen meer ne er reanree nee rrr eens ae ener ere eee ee eee ee eee eer 8 131 VO Tenn alS serieen aaea eE nerea PEE aa aE RER Eae aa pena ao Eae ea Ea E REE ea renTo E aae EEE Eire niia 8 1 3 2 Programming Port RS232 ire iseia niao aa ni ae aa aeaea ae E a A Ea AA AA aaao AOA a o E ESE eina 8 1 3 3 Port 1 RS232 RS485 Serial POE edaccsedecdesesccactsansecedeeconcareianidiecessiok seccetscoceveetanecdateeteire ale evniert ucla nistaeieces 9 1 3 4 Port 3 onwards Network Pott c cccscsccececcccesseceevessbencgesbieeesecteeeddachneseyeeebendeeeebesdueeeeesdeceebeccentevecdenesecdseerserdeensbeetee 9 2 Installing the Teleterm M2 RTU ssannnnnnnnsnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nnmnnn 11 2 1 Connecting the Internal Clock Battery cccccceccseeeccececeeeeeeeceneeeeeeeeeeesecennineeeeeeeeeees 11 2 2 Mounting the Teleterm M2 cee i eee eee 11 2 3 Connect
31. emote ID 31405 1 UINT16 Sub 1 Remote DIT Start 31406 1 UINT16 Sub 1 Range 31407 2 UINT16 Reserved 31409 7 UINT16 Reserved 31416 16 Subscription 2 as per subscription 1 31432 16 Subscription 3 as per subscription 1 UMC2360BR05 paf 44 Omniflex Teleterm M2 Series RTU User Manual Subscription 4 as per subscription 1 Subscription 5 as per subscription 1 Subscription 6 as per subscription 1 Subscription 7 as per subscription 1 Subscription 8 as per subscription 1 Subscription 9 as per subscription 1 Subscription 10 as per subscription 1 Subscription 11 as per subscription 1 Subscription 12 as per subscription 1 Subscription 13 as per subscription 1 Subscription 14 as per subscription 1 Subscription 15 as per subscription 1 31448 16 31464 16 31480 16 31496 16 31512 16 31528 16 31544 16 31560 16 31576 16 31592 16 31608 16 31624 16 31640 16 Subscription 16 as per subscription 1 User Configuration Area 34000 4000 Non volatile registers available to the user UMC2360BR05 paf 45 Omniflex Teleterm M2 Series RTU User Manual 8 Maintenance 8 1 Battery Type The Teleterm M2 is equipped with an internal clip in battery for retaining the real time clock during power failures This battery is a type CR2032 L
32. er tighten This connector should be only finger tight to avoid damage 2 6 3 2 Positioning the Antenna The antenna should be placed away from the Teleterm M2R in a position that gives the best possibility of good reception Avoid proximity of the antenna to shielding materials such as metal enclosures The signal strength of the chosen location can be easily checked by using the Omniset configuration software CAUTION The antenna emits RF energy on a continuous basis and should be positioned away from sensitive instrumentation and away from areas where close proximity to personnel on a regular basis would occur 2 6 4 Teleterm M2S Model C236xB 41 with two additional Serial Ports The M2S is equipped with two additional serial ports called PORT 3 and Port 4 Port 3 is capable of either RS232 or RS485 operation Port 4 is RS232 only with full handshaking suitable for driving a modem or other external serial device Port 3 is capable of RS232 RS422 or RS485 communications two wire or four wire The selection of either RS232 or RS422 RS485 is achieved by specific wiring of the serial port connector No other settings need be changed to select between RS232 and RS422 485 Pin Communication Standard number RS232 RS485 1 Do not connect Rx Data In 2 Rx Data In Rx Data In 3 Tx Data Out Do not connect 4 Do not connect Tx Data Out 5 Ground Ground 6 Do not connect Vcc 7 RTS Out Do not
33. eries RTU User Manual 2 3 2 Connecting Digital Outputs Digital Outputs must be connected in accordance with the following schematic 9 30Vdc Supply IOP 1 IOP 10 Figure 2 3 Digital Output Connections Digital Output Specifications Minimum High Level Output Voltage P Vpgy 2 5V 2 3 3 Connecting Analogue Inputs Analogue Inputs must be connected in accordance with the following schematic 9 30Vdc Supply IOP 1 IOP 12 Figure 2 4 Analogue Input Connections UMC2360BR05 paf 13 Teleterm M2 Series RTU User Manual Analogue Input Specifications I O Points 1 2 11 and 12 Parameter LED Indication I O Points 3 to 10 Parameter LED Indication 6mV 10 bits 0 15 of reading 6mV 2 3 4 Connecting Analogue Outputs Analogue Outputs must be connected in accordance with the following schematic 9 30Vdc Supply IOP 11 IOP 12 Figure 2 5 Analogue Output Connections UMC2360BR05 pdf 14 Omniflex Teleterm M2 Series RTU User Manual Analogue Output Specifications Minimum Controllable Output Current OmA maximum Output Resolution 25yuA 2 4 Connecting the Programming Port The programming port is normally reserved for the programming function but can be used as an additional RS232 serial port if desired When connecting the programming port to a standard PC compatible serial port DB9 the Omniflex programming cable Part Number M1831A supplied se
34. erye 28 3 12 Programming the M2 RTU in EZIFORT Aucseciceiscocccncssecssetcccessisdacsasinnasassadesteadendactacteases 28 4 Modbus and the Teleterm M2 si sesiiicisetntncnuntstadwsnicnnnneainteeasntiiaciunlotaininsiaanralntnondatieniny 29 4l CVI VION ee a e Ee E E E E E E E E 29 42 2 8 0 ESR 2 ene er ee on a E E E a eee eee 29 4 2 1 Selecting the Slave Protocol DetailS eccceeseceeseeeeseeeeseeeeeeeeesaeeeeeessaeeeaeeeesaeeeaeeessaeseaeeessaeeeeeesaeeeeeessaeeneeeenaas 29 4 2 2 Modbus Data Register Mapping ceescceeeesceeeseseeeeeeneeeeeeaeeeeeeaeeeeeeaeeesesaaeeeseaeeeeseaeeeeseaeeseseeeeessnaeeeeseaeeeensneeees 30 AS Modbus Master acts ac ciesteaet ia eso aes cccmses verte cc nantica ves aes cee AAAA ced vende cernenicteeaeseeeseeeeatd 31 4 3 1 Selecting the Master Protocol Details ccceseceseceeseeeeeeeeeeeeeeaeeeseeeesaeeeaeeessaeeeaeeesaeeeeeessaeeseeeseaeeseeeesiaeeseaeenaas 31 A3 2 QUELY BIOCKS E cachet sttectueda ace lee ante sous caiecettcchesedsaaaeesuecnwdepaaandasdubaateised E guacneian naaie 31 5 The Data Interchange Table explained ccccccesssseseeeeeeeeeeeeeseeeeeeeeeeeeeeeeesneees 33 5 1 DIT Table Layout viiesa ae aa a E EE A ee EE 33 6 The Subscription Service Explained ccccccsccsccscssescscesscssacasansnccessaseacessadaaccesnssecasantaans 34 6 1 Introduction to SDS O Scns ae ecu s ca cecsel acta ahead eed oe detcet cuca pouns 34 6 2 HOW Subscriptions Work 5 cis ccc nn csc
35. etwork in the intended position of the antenna and checking that the signal strength on the phone is good CAUTION The antenna emits RF energy on a continuous basis and should be positioned away from sensitive instrumentation and away from areas where close proximity to personnel on a regular basis would occur A separation distance of in excess of 30cm is recommended 2 6 2 Teleterm M2C Model C236xB 21 with Conet network port It is recommended that the Teleterm M2C be connected to the Conet network using the C6169 Conet Termination Board and interconnecting cable This ensures the integrity of the Conet network during maintenance of the RTU and provides additional surge suppression and protection to the Teleterm M2C See the C6169 Datasheet with application notes for full Conet installation details Pin number Description 2 Signal 5 Cable screen S 8 Signal 1 3 4 6 7and9 No connection Table 2 3 Pin allocation of Conet port connector on the Teleterm M2C 2 6 3 Teleterm M2R Model C236xB 31 32 33 34 with Radio Network Port 2 6 3 1 Connecting the Antenna The M2R RTU is equipped with an RPSMA antenna connector found on the top edge of Teleterm M2R RTU UMC2360BR05 pdf 17 Omniflex Teleterm M2 Series RTU User Manual The appropriate antenna suitable for the application must be selected and purchased separately Screw the antenna s cable into the Antenna socket Do not ov
36. fault of Conet s protocol used for programming the Teleterm M2 The programming port on the Teleterm M2 comes equipped with four protocols options 1 Modbus Master ASCII and RTU 2 Modbus Slave ASCII and RTU 3 Conet s protocol 4 User Protocol Requires an installed user program to access the serial port CAUTION It is not recommended that the programming port be assigned to other duties other than reserved for programming because of the increased difficulty for configuration changes and debugging caused in the field when the programming port is not available for this purpose The programming port can be switched between two operating modes Program mode and General mode As shipped the programming port is configured to allow programming in either mode Programming Mode is selected by holding down the black SD button on the lower right corner of the unit for three seconds Programming mode is indicated by the Tx1 and Rx1 LED turning steady on When in programming mode the Prog Port is always set to the Conet s programming protocol required by the programming tools While in Program mode the Prog Port s Normal Mode settings may be changed The required protocol including any address selection is made in the Configuration gt Communications gt Ports gt Programming Port group of Omniset To enable these settings to take effect the Prog Port must be switched to normal mode by holding down the SD button again for three secon
37. ing direct Inputs and Outputs 0 eee eee eeeee ee eeeeeeeeeeeeeeeeeeeeaeeeeeseeaaeeeeeeeeaaees 12 2 3 1 Connecting Digital Inputs sssrin aeree eiia EAN EENEN eee EnC eee 12 2 3 2 Connecting Digital Outputs isrener aaee eeacees Sao aes ted aaa ES EE ind ibd EN NEDENE E anes 13 2 3 3 Connecting Analogue INDUtS eeecececeeeeeeeeeeeeeeeeeeeeeeeeeeesaeeeeeeessaeeeeeessaeeeaeeesaeeeeeescaeeeeeeeseaeeseeeescaeeeneeesiaeeseeeenaas 13 2 3 4 Connecting Analogue Outputs cc ceceeeeeeeeeeeeeeeeeeeeeeeeeeeseeeeeeesaaeeeeeesaeeeeeeesaeseeeescaeeeeeeescaeeseeeescaeeeeeeessaeeeeaeenaas 14 24 Connecting the Programming POM s ciccaiesececiaccssandsdaccesdsctcsicsedersetsatisbhinadesdeciesirctecssnncs 15 2 5 Connecting Serial Port 1 sssicciscsentonstantiniaieninasadioddmdotenieamiaiaieninnnamoluianiamaeianiat 15 2 6 Connecting Network POMS wississi csicincatseded seciatiscraaaseatertaacdeincbansbivacebednbniaandescatoitcestecaas 16 2 6 1 Teleterm M2G Models C236xB 11 12 with internal GSM 3G MOdEM ccceeeceeeseeeeeeeeeneeeeeeeteeeeeeeeteeeeeeeeeeaes 16 2 6 1 1 Inserting the Network SIM Card ssccsarsicveinscceesintedictabowncuiietieoecssetiernitroleaaiets 16 2 6 1 2 Connecting the Antenna cccccccceeseseeneeeceeeeeeeeceeaeeeeeeeeeeesecsesnnaeeeeeeeeess 17 2 6 1 3 Positioning TIVE ea ce ect ete neat eee 17 2 6 2 Teleterm M2C Model C236xB 21 with Conet network POrt c ceeecceeseeeeeeeeeneeeeeeeseeeeeeeeeeeeeeeeeeeee
38. ith Omniset To install Omniset from the CD supplied follow these steps 1 Insert the CD into the CD drive of your computer The Omniset installation should start automatically If it does not then using Windows Explorer navigate on the CD drive to the Omniset directory and double click the file setup exe 2 Follow the prompts on the screen to complete the installation 3 Select the COM port that you wish to use with Omniset by selecting COM Port on the Data menu 4 Omniset uses templates to customise its appearance to suit the product being configured Omniset is supplied with a complete library of templates for all Omniflex products including the Teleterm Teleterm M2 This library is frequently being updated with new products and enhancements If your computer is connected to the Internet you can easily check for and download the latest template library by selecting Update Template Library from Web on the Omniset File menu Follow the prompts to update your template library to the latest version If you installed UMC2360BR05 paf 20 Omniflex Teleterm M2 Series RTU User Manual Omniset from the CD supplied with your Teleterm M2 and you do not have access to the Internet then do not worry You will already have the template necessary to configure the Teleterm Teleterm M2 although it may not be the latest version available 3 4 Connecting Omniset to the Teleterm M2 for first time To se
39. ithium Battery This battery is commonly available from electronic stores or can be obtained from Omniflex by specifying Part Number 3 5701 001 It is recommended that the battery be replaced at least every three years or when the battery low indicator in the Teleterm M2 shows LOW See the Real Time Product Status Group in Omniset 8 2 Battery Replacement Procedure To replace the internal battery proceed as follows 1 lo Sl ee Be Remove the top cover of the Teleterm M2 by undoing the two hex cover screws on the top of the unit The cover is connected to the unit by the internal antenna cable so be careful not to place any strain on this cable while removing the cover or inserting the SIM card You will see the battery toward the left lower side of the unit Unclip the old battery and replace with a new battery Replace the top cover Restore power to the Teleterm M2 Using Omniset check that the Battery Indicator is showing Healthy Take care in disposing of the old Lithium battery to preserve the environment and to prevent accidents UMC2360BR05 paf 46 Omniflex Teleterm M2 Series RTU User Manual 9 Technical Support Lifetime technical support for all Omniflex products is available by email on techsupport omniflex com Alternatively you can check the knowledgebase on the Omniflex web site at www omniflex com COPYRIGHT AND PROTECTIVE NOTICES 1 The Copyright of this document and the associate
40. k Port 1 Global ID 61 1 UINT16 Network Port 2 Global ID 62 1 UINT16 Serial Port Dipswitch 63 1 UINT16 Network Port 1 Dipswitch 64 1 UINT16 Network Port 2 Dipswitch 65 1 Reserved 80 1 UINT16 System Timer 0 81 1 UINT16 System Timer 1 82 1 UINT16 System Timer 2 83 1 UINT16 System Timer 3 UMC2360BR05 paf 39 Omniflex Teleterm M2 Series RTU User Manual 84 1 UINT16 System Timer 4 85 1 UINT16 System Timer 5 86 1 UINT16 System Timer 6 87 1 UINT16 System Timer 7 88 1 Reserved 7 1 4 Network Status M2R Signal Strength M2R Node Page Selection 0 node 1 20 1 Node 21 40 2 41 60 etc This register sets the page of 20 nodes to view for both RSSI and Network 100 1 2 x UINT8 Inactivity Timers in the next table 101 1 2x UINT8 M2R RSSI Node 1 amp 2 102 1 2 x UINT8 M2R RSSI Node 3 amp 4 103 1 2 x UINT8 M2R RSSI Node 5 amp 6 104 1 2 x UINT8 M2R RSSI Node 7 amp 8 105 1 2 x UINT8 M2R RSSI Node 9 amp 10 106 1 2x UINT8 M2R RSSI Node 11 amp 12 107 1 2 x UINT8 M2R RSSI Node 13 amp 14 108 1 2 x UINT8 M2R RSSI Node 15 amp 16 109 1 2 x UINT8 M2R RSSI Node 17 amp 18 110 1 2 x UINT8 M2R RSSI Node 19 amp 20 1 111 Reserved Network Inactivity Timers paged in groups of 20 127 1 UNIT16 M2R Inactivity Node 1 pag
41. nal GSM 3G modem 2 6 1 1 Inserting the Network SIM Card The Teleterm M2G requires a SIM card not supplied to enable the unit to operate on the selected GSM mobile phone network To insert the SIM card 1 Remove the top cover of the Teleterm M2 by undoing the two hex screws holding the top cover of the unit using a 2 5mm hex key supplied The cover is connected to the unit by the internal antenna cable so be careful not to place any strain on this cable while removing the cover or inserting the SIM card 2 Insert the SIM card into the SIM card holder you will see in the centre of the unit Take special care that the SIM card is correctly seated in the connector and that the SIM card holder is properly closed Press firmly down and slide forward to close securely 3 Replace the top cover UMC2360BR05 pdf 16 Omniflex Teleterm M2 Series RTU User Manual 2 6 1 2 Connecting the Antenna The supplied Antenna s cable should be screwed into the Antenna socket Do not over tighten This connector should be only finger tight to avoid damage 2 6 1 3 Positioning the Antenna The antenna should be placed away from the Teleterm M2G in a position that gives the best possibility of a good signal on the mobile phone network Avoid proximity of the antenna to shielding materials such as metal enclosures The signal strength of the chosen location can be easily checked by holding a mobile phone connected to the same n
42. nal settings in the Teleterm M2 for selecting RS232 or RS485 All that is required is to wire the appropriate pins of the serial connector for the chosen standard Modbus Slave 4 2 1 Selecting the Slave Protocol Details Setting up Modbus Slave protocol only requires configuration of the serial port in the Configuration gt Communications gt Serial Port group including ASCII and RTU mode Baud Rate Parity number of Data bits and Stop bits etc The simplest operating mode for Modbus Slave is to configure the Teleterm M2 and the Master Device as follows UMC2360BR05 paf 29 Omniflex Teleterm M2 Series RTU User Manual OmniSet Pro C2330A Silent Sentry Template Silent Sentry Demo unit 0310 MBR File Edit Remote Data Help Os BWA n h E Connection Information Py Realtime Data Port Settings E Time Date Protocol Modbus Slave ASCII 0g Product Status Hardware Handshaking Z 1 0 Status Baud Rate 9600 4 Mobile Network Status Number of Data Bits 7 Parity None Co Message Status Stop Bits 2 Stop Bits 2 Modbus Link Status Slave Address 2 2 User Scratch Pad DIT s 350 399 Py Configuration Ey 1 0 Points Cy SIM Card Settings Lj Message Settings E Message List Ey Recipient List Cy General Settings Ey Daily Update Communications Serial Port Port 1 2 Modbus Link E Modbus Slave 1 0 Map Ey Modbus Master Cy Queries 01 to 16 E Advanced Settings fj About this produ
43. node 2 whenever any of the bits change or every 10s if no change occurs in that time The information will be placed in node 2 s DIT register 110 Node 2 can monitor the status of the subscription by monitoring the relevant bit in the Subscription Status DIT register If this bit is clear then the subscription is operating successfully If this bit is set then the subscription has failed and received data is not valid or the subscription has not been correctly set UMC2360BR05 pdf 37 Omniflex Teleterm M2 Series RTU User Manual 7 Detailed DIT Layout 7 1 Dynamic Data Area DIT Registers 0 29999 These are volatile registers i e They are not retained on power fail 7 1 1 System Information System Information DIT No of Datatype Description Start DITs Product Code Unique Number in BCD format that reflects the version of the product as follows 0350 M2360B 0 M2 1350 M2360B 11 M2G GSM 2350 M2360B 12 M2G 3G 3350 M2360B 21 M2C Conet Industrial LAN 4350 M2360B 31 M2R 2 4GHz 5350 M2360B 32 M2R 920MHz 6350 M2360B 41 M2S Serial Port Firmware DIT Revision Number in BCD containing the firmware revision in the format MM mm MM Major firmware version number which also reflects the version of the DIT layout If the DIT layout changes then the major version will also change mm minor firmware version number e g 0614 BCD Firmware Version 6 14 Su
44. ns and their applications Order Network Code Port E The standard Teleterm M2 is equipped with only a M2 C236xB 0 programming port and an RS232 485 serial port The M2G is equipped with an internal GSM modem capable of communicating over standard GSM mobile phone networks using dial up SMS or GPRS data services The M2G is ideally suited for communicating with C236xB 11 i M2G remote assets over very large distances even different C236xB 12 countries The 11 option unit is compatible with all GSM networks worldwide The 12 option unit is compatible with the Telstra NextG network in Australia Product Description The M2C is equipped with a Conet network port Conet is the world s most rugged Industrial LAN capable of running over existing plant cabling up to 10 kilometres Up to 126 nodes may be connected to a Conet network in a token passing peer to peer M2C C236xB 21 Conet architecture The M2C is ideally suited for local in plant communications where the cost of laying special networking cable is considered uneconomical for the application but where existing cabling of any sort is already in place UMC2360BR05 pdf 9 Omniflex Teleterm M2 Series RTU User Manual The M2R is equipped with an internal FHSS digital radio transceiver operating in the licence free radio bands FHSS stands for Frequency Hopping Spread Spectrum and is an advanced technique for implementing secure C236xB 31 error free r
45. options to comply with different country regulations Please ensure that the correct unit is specified for your application 2 4GHz Band is suitable for use all countries 5 920MHz Band is suitable for use in USA Australia and New Zealand The M2R3 version has fixed output power of 100mW This version is not recommended for new installations This model has been replaced with the M2R4 6 868MHz Band is suitable for use in Europe and Southern Africa 7 920MHz Band is suitable for use in USA Australia and New Zealand The M2R4 version has presettable output power of 1mW to 1W The M2R4 is NOT compatible with M2R3 installations A 1 3 Feature Descriptions 1 3 1 I O Terminals The Teleterm M2 is equipped with 12 software configurable input output points lO points Each IO point can be individually configured as digital or analogue input or output selected from the options given in the following table Digital Analogue Input Input Output Output Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes 0 30Vde 0 4 20mA_ 0 30Vde 0 4 20mA_ See the specifications section for electrical specifications of each IO point option Table 1 2 I O Configuration Options 1 3 2 Programming Port RS232 The programming port is normally reserved for all programming functions in the unit Although it is possible to reconfigure this port as an additional serial port this option should be carefully considered as it does make tro
46. ose Holding Registers is the most commonly used for this purpose because it is the most efficient for reading larger amounts of data UMC2360BR05 pdf 31 Omniflex Teleterm M2 Series RTU User Manual Read Coil Status Write Single Holding Register Write Multiple Coils Write Multiple Holding Registers Slave ID This is the Modbus Address of the Slave device to be polled Slave Start Address This is the address of the first Holding Register to be read from the Slave device Range This is the number of Holding registers to be read from the Slave device Local DIT Start This is the starting address of the local Register in the Teleterm M2 where the data will be written The registers in the range 350 to 399 are reserved for this purpose in the Teleterm M2 Once the Queries required are configured then you need to unplug the programming cable from the serial port switch the serial port back to normal mode by holding down the Mode pushbutton until the OK light is steady green and then plug in the slave device to the serial port UMC2360BR05 paf 32 Omniflex Teleterm M2 Series RTU User Manual 5 5 1 The Data Interchange Table explained DIT Table Layout All data exchange with the M2 RTU is done via the Data Interchange Table DIT Any exchange of data between functions in the M2 RTU and or with the outside world takes place through this DIT The Data Interchange Table DIT in the M2 RTU is
47. parately can be used If another cable is to be used the following connections will apply Signal Name DB9F Pin No FCC 68 Pin No Rx Data from M2 2 4 Tx Data to M2 3 1 Ground Reference 5 2 All other pins are reserved and must not be connected Table 2 1 Pin allocation of connectors on M1831A programming cable 2 5 Connecting Serial Port 1 This serial port is capable of RS232 RS422 or RS485 communications two wire or four wire The selection of either RS232 or RS422 RS485 is achieved by specific wiring of the serial port connector No other settings need be changed to select between RS232 and Table 2 2 Pin allocation of Port 1 serial port connector on Teleterm M2 RS422 485 Pin Communication Standard number RS232 RS485 1 Do not connect Rx Data In 2 Rx Data In Rx Data In 3 Tx Data Out Do not connect 4 Do not connect Tx Data Out 5 Ground Ground 6 Do not connect Vcc 7 RTS Out Do not connect 8 CTS In Do not connect 9 Do not connect Tx Data Out UMC2360BR05 paf Omniflex Teleterm M2 Series RTU User Manual NOTE The RTS and CTS handshaking lines are available for applications that require them It is not a requirement of the CPU to use handshaking In most applications connecting the RTS and CTS handshaking lines is not necessary 2 6 Connecting Network Ports 2 6 1 Teleterm M2G Models C236xB 11 12 with inter
48. pported Functions Indicates any special functions enabled on this unit Application Version The version number of any factory loaded application User Tag Name The user is able to write up to 8 ASCII characters into these DIT registers two characters per register to uniquely identify each Teleterm M2 This User Tag Name is used by the Omniset software tool to verify that the matching M2 is connected If this Tag Name is populated then it must match the Tag Name set in Omniset to allow the configuration to be changed Configuration Version The configuration version in the format MM mm MM Major configuration version number mm minor firmware version number e g 0103 BCD Configuration Version 1 03 This number is set in Omniset from the File gt Properties menu When a Write All Groups is performed in Omniset this register is written with the value set here Assists the user to check the configuration version loaded UNIT16 Configuration Revision This number is automatically incremented in Omniset and written to the target when a Write All Groups is performed 10 2 UINT32 MJD Current Date The current date in Modified Julian Date MJD format Number of days elapsed since 17 November 1858 12 2 UINT32 IEC Current Time The current time in IEC time format number of 100us periods since midnight UMC2360BR05 paf 38 Omniflex Teleterm M2 Series RTU User Manu
49. ption Setup Registers Setup Message gt Data q lt Regular Data updates Source A The Receiving The Sending Node Node The node acting as a data producer the sending node requires no user configuration to participate in a subscription contract with another node The node acting as data consumer the receiving node is configured by the user for the required data The consumer node then automatically manages the subscription including sending the requests to the data source and managing errors in the process UMC2360BR05 paf 35 Omniflex Teleterm M2 Series RTU User Manual The following table shows the information required to configure a subscription ITEM DESCRIPTION VALID RANGE Change of State Required This sets whether the subscription data block will be sent Yes No when any data in the block changes Update time This is the time between regular updates of data that will 1 63 seconds 1 63 minutes be sent whether the data has changed or not Communications Port This is the Network Port in this the receiving node to which the network containing the remote source node is connected Source Node Address This is the node address of the sending or source node from where the required data originates Refer to the relevant product template file for network ports available on specific product suitable for subscriptions Destination DIT Start Address This is the first DIT
50. r Manual 3 3 1 3 2 3 3 Configuring the Teleterm M2 Overview The Teleterm M2 is configured using the Omniset software utility version 7 3 or above Omniset is a Windows98 NT 2000 XP compatible software package designed to configure a wide range of Omniflex products including the Teleterm Teleterm M2 Omniset is available in two versions The standard Omniset software is on the CD supplied with the Teleterm M2 RTU Omniset may also be downloaded for free from the Omniflex web site www omniflex com Omniset allows the Teleterm M2 to be configured through the serial port on the front of the unit The EziFORTH Workbench software is used for more advanced programming of the Teleterm M2 Incompatibility with Previous Versions of Omniset 3 2 1 Versions of Omniset prior to 7 3 The Teleterm M2 is only compatible with Omniset or Omniset PRO Version 7 3 onwards If you have a previous version of Omniset installed on your computer then you need to upgrade to the latest version You can check which version of Omniset you have installed by opening Omniset and then selecting the Help gt About menu item Installing Omniset from the CD supplied Omniset is Windows98 NT 2000 XP compatible and requires access to an RS232 port on your Windows computer If your computer does not have a serial port available for use with Omniset then inexpensive USB to Serial Converter modules are readily available that can be used w
51. r nodes in the system to one and makes the system update times very slow where many outstations are involved The Teleterm M2 provides a far superior mechanism to accomplish this commonly used function through its Subscription Service The subscription Service runs on all Conet c industrial LAN and Conet r FHSS radio and Conet e Ethernet networks and is supported on all Omniflex products supporting these network types This allows the M2 RTU to be used as remote I O for other Omniflex equipment such as the Maxiflex Process Automation Controller Suite of products or to be interconnected in a unified data environment How Subscriptions Work The Subscription Service operates as follows The node requiring the data the receiver sets up a subscription with the node that has the data the sender very much like you would subscribe to a magazine through your newsagent You establish a magazine subscription by telling the newsagent which magazine you want your home address and how often you want it and then the newsagent takes the responsibility to send you the magazine whenever a new issue becomes available Request subscription a August issue g Newsagent September issue c October issue etc Figure 6 1 The Magazine Subscription Analogy In the same way the M2 s Subscription Service allows the M2 acting as a node on the network to subscribe to a range of DIT registers on a remote node UMC2360BR05 p
52. ress Each M2R connected to the radio network is considered a Node on the network Each node must have a unique address Set the address for each node uniquely in this item Node addresses can be in the range 1 65535 If the node address is set to 0 then the radio will not transmit data on to the network and will be unable to respond to requests from the network 3 10 2 Configuring the Inactivity Protection Timer This timer is used to reset the radio channel when an unacceptable length of time has elapsed without radio communications In unusual network conditions it is possible for the radio network to enter a deadlock condition where radio communications is prevented This protection timer is used to prevent this extreme condition from causing permanent loss of communications Set this timer to longer than you expect the network to ever be quiet If this timer times out without network activity then the M2 will assume that a deadlock condition has occurred and will reset the radio channel to allow communications to resume 3 10 3 Configuring the Hopping Sequence Number The Conet r network uses a Frequency Hopping Spread Spectrum FHSS to improve noise immunity and to allow multiple networks to exist within range of each other FHSS is a technique where the transmitting node transmits for short time on one frequency and then hops to another frequency to continue transmission and so on through a range of frequencies in a par
53. ring Input E1 Counter Input C1 292 2 INT32 Engineering Input E2 Counter Input C2 294 2 INT32 Engineering Input E3 Counter Input C3 296 2 INT32 Engineering Input E4 Counter Input C4 298 2 INT32 Engineering Input E5 Counter Input C5 300 2 INT32 Engineering Input E6 Counter Input C6 302 2 INT32 Engineering Input E7 Counter Input C7 304 2 INT32 Engineering Input E8 Counter Input C8 306 2 INT32 Engineering Input E9 Counter Input C9 308 2 INT32 Engineering Input E10 Counter Input C10 310 2 INT32 Engineering Input E11 Counter Input C11 312 2 INT32 Engineering Input E12 Counter Input C12 314 6 Reserved 7 1 11 Analogue Output Status Analogue Output Status 340 2 INT32 Engineering Output F11 342 2 INT32 Engineering Output F12 344 16 Reserved 360 1 INT16 Calibrated Output B11 361 1 INT16 Calibrated Output B12 362 8 Reserved 7 1 12 User Dynamic Registers The following registers are available for the user These register contents are NOT retained during power down User Area User Area Volatile Registers Last Dynamic DIT UMC2360BR05 paf 42 Omniflex Teleterm M2 Series RTU User Manual 7 2 Static Data Area DIT Registers 30000 65000 These are non volatile registers i e They are retained on power fail CAUTION It can take up to three seconds for data written to these registers to be saved to non volatile memory Any values changed within three seconds of a power f
54. rting a number of protocols including Modbus and Conet s allowing signals from a variety of sources to be monitored and controlled via the M2 RTU communications network of choice As a basic I O outstation the M2 RTU s are easily configurable using the free Omniset configuration software Using Omniset PRO the M2 Series can also be configured remotely over the installed network UMC2360BR05 paf 6 Omniflex Teleterm M2 Series RTU User Manual Programming SD Memory Port Card Slot Antenna RS 232 485 C2360B 11 Serial Port agp p Optional SIM card payd 1 2345678 Ol ann under cover Diagnostic OO Lights LEDs SD Card I O Indicators O Terminals Eject Button Figure 1 1 Front View of the Teleterm M2G with internal GSM modem 1 2 Product Feature Matrix The following table identifies the features available on each of the products in the range Product Order ELS he aie Table 1 1 Product Feature Matrix NOTES 1 The EGSWGPRS port is a quad band device operating on 900 1800 850 1900MHz This is suitable for use on most countries GSM networks Consult the factory for specific compatibility with your network 2 The 3G UMTS port is a tri band device operating on 850 1900 2100MHz This interface is specifically approved for use on the Australian Telstra NextG network UMC2360BR05 paf 7 Omniflex Teleterm M2 Series RTU User Manual 3 The M2R version is available in a number radio band
55. ticular order The frequencies are used in a predefined pseudo random sequence that both the transmitter and receiver know Receiving nodes listen in order on each of these frequencies to receive the entire message Because the system transmits on a number of frequencies the communication is more reliable and resistant to interference than a a system operating on a single frequency By varying the hopping sequence different radio networks can coexist within the same geographic area UMC2360BR05 paf 27 Omniflex Teleterm M2 Series RTU User Manual The M2R can be set with one of 7 Hopping Sequences 0 6 All nodes on a single network must have the same Hopping Sequence Number 3 10 4 Configuring the node as a Repeater or End Node If an RF link is weak an M2R in the network is out of range or a difficult RF environment is present then repeaters can be used to extend the effective range and reliability of the radio network A repeater is a regular Teleterm M2R node that has repeating enabled Any node ina Conet r network can be designated as a repeater node or as an end node Select Repeater Node for radios that you wish to perform the repeater function All other nodes must b set to End Node 3 11 Other Configuration Settings There are a number of other settings that can be made in Omniset to fully configure your Teleterm M2 The settings for your particular M2 RTU will vary dependent upon the model There is
56. tup the Teleterm M2 using Omniset follow this procedure e Plug the programming cable supplied into the serial port on the front of the Teleterm M2 marked Port 1 and into a serial port on your computer e Ensure that the Omniset software utility is running on your computer e Hold down the MODE pushbutton on the Teleterm M2 until the MODE LED indicator starts to flash green and red alternatively This places the Teleterm M2 into programming mode e Select Connect from the File menu Select the Teleterm Product Group if prompted and press OK Connect Select target product group Teleterm X OK Cancel If successfully connected you should see the following screen in Omniset OmniSet Pro C2330A Silent Sentry Template 03100101 C2330A osx File Edit Remote Data Help Oe 4 Sam 7 e e Correction Infomation a Realtime Data _ Product Name C23304 Teleterm Silent Sentry Configuration Tag Name fy About this product Product File Compatibility This is the of the Product connected to your computer This item this software recognises the product type connected If this item displays Unknown Product then this description file MUST NOT be used to configure the product lt none gt Local CPU Port 1 Conet s on COM 5 UMC2360BR05 pdf 21 Omniflex Teleterm M2 Series RTU User Manual Check that the Product Name is correct for the version of Teleterm M2 connected and that th
57. uble shooting and field maintenance more difficult When using this port as a serial port the serial port settings can be changed to suit the application This will make this port incompatible with the programming tools The SD pushbutton can be used to switch between programming mode and user mode UMC2360BR05 paf 8 Omniflex Teleterm M2 Series RTU User Manual 1 3 3 Port 1 RS232 RS485 Serial Port The Teleterm M2 RTU is equipped with a user serial port labelled PORT 1 on the front of the unit This serial port can be used as a communications port to third party equipment This serial port can be wired for RS232 or RS485 communications In normal mode the serial port can be configured for a number of protocol sets a Modbus protocol Master or Slave device ASCII or RTU protocol is available on this port allowing easy connection to other third party products such as Alarm Annunciators PLC s DCS or SCADA systems b Conet s protocol is available for integration into Conet networks and for programming the Teleterm M2 c User control which allows custom protocols to be implemented in the EziFORTH programming language in the M2 RTU 1 3 4 Port 3 onwards Network Port Each M2 RTU in the series is equipped with a different network port called PORT 3 and onwards if there are more ports The type of network port is dependent upon the Model of M2 RTU The following table gives an overview of the available network port optio
58. used for reading and writing all configuration and dynamic data in the M2 The DIT is an array of 16 bit registers accessible from any function or communications port in the M2 RTU Even the Omniset configuration template interfaces to the M2 RTU through the DIT Each data register in the DIT has a data address on the range 0O to 65535 Not all addresses are accessible See the DIT Table Detailed Layout in Section 8 for more details for your particular product Any of these registers may be accessed through any of the network ports allowing remote I O systems to be implemented out of the box without any programming required UMC2360BR05 paf 33 Omniflex Teleterm M2 Series RTU User Manual 6 6 1 6 2 The Subscription Service Explained Introduction to Subscriptions Central to many applications involving communications across networks is the need to replicate data between nodes on the network Examples include a SCADA system acquiring data from remote telemetry units in the field or a point to point telemetry application where inputs are transmitted from one location to outputs at another location In all these cases the traditional method is for a controlling master node to poll the slave nodes regularly for data in case something has changed This crude method is an inefficient use of the limited network bandwidth and is inherently slow in typical and worst case update times It also limits the number of maste
59. write the current time and date to the relevant Data Items in this Data Group The clock will run immediately from this new time when it is written to the Teleterm M2 To change a data item double the Item or right click and select New Value OmniSet Pro C2330A Silent Sentry Template 03100101 C2330A osx File Edit Remote Data Help Ose 4 Bn He i _ h Eq Connection Information Py Realtime Data Current Date amp Time Cy Current Date 2005 07 12 0 Product Status Current Time 16 12 24 2300 24 1 0 Status P D Date amp Ti ower Down Date amp Time m Hoa ApS i Power Down Date 2005 07 11 n Ca Odbus Link otatus Power Down time 14 46 00 1220 2 User Scratch Pad DITs 350 399 Configuration Power Up Date amp Time fa About this product Power Up Date 2005 07 12 Power Up Time 15 46 12 4320 Real Time Clock Data Group All data relating to M2s on board Real Time Clock is available in this group as follows Current Date and Time This is the real time on the M2 Power Down Date and Time This is the time that the M2 last lost power Power Up Date and Time This is time that the M2 was last powered up lt none gt Local CPU Port 1 Conet s on COM 5 3 6 2 Set the I O Points to the type required The default setting as shipped from the factory is with all inputs set as digital inputs Ensure that these inputs as set as Digital Inputs by selecting the I O Points Group This gives a summary of each Input
60. z lt L L on LLI Y Teleterm M2 Senes RTU s Models C 236xB UserManual AUTOMATION PRODUCTS SCOPE Products Covered by this Manual This User Manual provides information on how to install configure and use the Teleterm M2 Series RTU s This manual covers the following product Models Description C2360B xx Teleterm M2 B Series RTU s Manual Revision History Date Revision Comments 12 Jan 2009 Initial Issue 2 Mar 2009 Conet r configuration details expanded 3 Jun 2009 DIT Table added 26 Aug 2009 Number of 0 30V channels corrected to 4 2 Feb 2011 Ethernet option moved to Model C2360C versions Software Copy Available This manual is available in Adobe Acrobat pdf format The pdf file is named UMC2360BR05 paf Teleterm M2 Series RTU User Manual Table of Contents Products Covered by this Manall i c c cc ccsseccccccescetecsiascecacectecssanssasccciecasceassnsascanceesaees 2 Manual Revision TIS TONY occa ech sactsada oc Shes aacesetks eats enc taee pence teccidedacdn ad ce tectaleledtcbatdealeees 2 Software Copy Available scierie repi erei tek eda Ee reda aE Aae 2 1 GENERAL DESCRIPTION ccsecccccsce ce sects sere ccc ainainen anaana aaa aaa aana aaa aaa aaan aia 6 tA IVI TW oseca n cay acne da cae cuak tbe S E ee eeaee ss 6 1 1 1 COMMUNICATIONS cccccceceneceeeseceeeeeaeeeeeesaeeeceaeececeaeeeescaaeceseaaeecssaeeeeecaaeeesceaeeeeseaaeeescaeeesscaeesesceeeescceeesesn
Download Pdf Manuals
Related Search