Enilit RTU user manual EN
Contents
1. 26 DEO T a RT TTT 27 I 28 S EB PUENTE 29 Dida CIMA NCA attra 30 OCU AO me T 31 a es ee eee 32 SEL CCC A OA Ghee 33 3 9 Analogue Input Module ccc ccccccceeeeceeeeeeeeeeeeeseeeeeeaeeeeeeeeeeeeseeeeeeeeeeesaeaseeseeeseeeees 34 uc ae cece pa asa eran pase tm 36 PE e 37 PA FIDE Opie 38 3 11 Installation of System 38 AS DOOK rea 39 SLUTT NAS yc ce ace poe eee eee 39 MZ COIN Me MN arses ies acess a PUES 42 4s ERCO 43 AE MO o ET 43 dq AMES eae e HG e ene eee E E REE E eee eee eee 43 NS I HM oc trespass rose E ate aie a eaters E varies 43 45 B oH uiri REOR 50 SAM uUi 51 430 BIOUDS eee eee 51 CS VT E S Rm 52 4 0 Us Toamne O e E E E E E E eyes 56 O ET A E 57 d crac sears yas sas as ce2. quet Redi euet 139 4 10 8 DNP3 UDP TCP IP client configuration 141 4 10 9 Simulator master COMM CULATION 143 e S E 146 SNB CONG RR 148 4 11 1 IEC 60870 5 101 protocol 148 4 11 2 60870 5 104 protocol 158 AIS DNPS serial shive conprat 167 4114 DNP3 UDP TCP IP server configuration 169 4 12 TOP NAVA CO RIDE MEME MM MEME 172 MA nU RETE 176 4 15 Internal programmable logic siut rettet nera eer etie te us nep suuni 179 A AA duco Stata OS OIC T 132 AAA A function DIOCKS e dior Pede EEr TEE 184 Mee WAC EAR CAA Ly DCS ERO 192 qd d e POS TAN se rsa EE E E E tne aca octagon ato nid aep des oe DU A NUI RM DIR UNE 194 NA TSUN SIE um 194 4 16 Self control and 1 198 SALUS MEM ouvre sim m 198 Protocol MAO MA OM ID 200 Page 4 of 220 Cc ws Enilit RTU User Manual 15 03 Content User manual p NS L LXI MEE OE ROUES m 204 41 TEN C
3. Users qe Users Changes to a users group membership Remove are not effective until the next time the wo user logs on Figure 34 User Member of tab 4 6 Users authentication After run of Configurator Project Manager or CMS user must authenticate himself with own user name and password zeckck she She Shc hc apc Sic Password Cancel Figure 35 Log on window Without user registration you can only review configuration but not able to do anything else Even without user log on you can t manually start stop RTU with current configuration After user log on you will see in the Main window user name which have logged on The following figure shows that logged on user Enilit Figure 36 Logged on user Page 56 of 220 M S a RTU User Manual 15 03 Enilit RTU software Project manager 4 7 Project manager 4 7 1 Basic information With the help of Project Manager you can manage Enilit RTU configurations It allows import export project of Enilit RTU configuration You can have here many projects and start Enilit CMS with specific RTU configuration nal Enilit RTU project manager File Edit Project About New 51 8 Test EnilitR TU All Main Description Startup Directory Info Configuration version Created on Created user Creation date Modified on Modified user Modification date Test D
4. Page 82 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p N L Name Hardware tag name Item DPCI For example Item DPCI Length 1 255 DO output OFF Allows connecting hardware tag to digital output Not set m For example Slot 11 DO 04 BE DO output Allows connecting hardware tag to digital output Not set CMS For example Slot 11 DO 05 BE Inverse Invert of hardware tag NO E Range of Values Yes No Tag Name Hardware tag connection to Tag manager Tag Page 83 of 220 Ursa otc Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration 4 9 5 6 Multipoint command RTU III Card Slots i Hardware Points EHI Name 1 im Item MES1 Item SPC1 Item SP51 Wg Item SP52 alg Item SPS3 alg Item 5 54 fag Item SP55 318 Item SPS6 fag Item SP57 Item DPS1 item DPC1 Item 51 Item MPC1 Item SCT1 Item Offsetl Offset Command Short pulse Long pulse Type Connection DO Output bit 1 DO Output bit DO Output DO Output bito4 DO Output bitos DO Output bit06 DO Output bit 7 DO Output bit 8 DO Output bit o DO Output biti DO Output bit11 DO Output bit12 DO Output bit13 DO Output bit14 DO Output bit15 DO Output bit16 ff Enilit RTU Hardware Lexi a Item 1 Binary 10 1 Shart pulse
5. Enilit RTU User Manual 15 03 Enilit RTU software Self control and diagnosis p N L il TAG Manager File About e Parameters Description Comments system Status Configuration System Command Log RTU Time Days for history Max files size Record count UTC time stamp Logging Log status Tags Log measurment tags Log command tags Log incomming changes Log outgoing changes On Start Show Expand Show Monitor Name Tag Name Figure 139 Tag manager window Log RTU Time Additional column will be added to history files which shows event received time in TAG Manager Values No Yes Days for history How many days to keep events in Events list Range of values 10 1000 days Record count Record count in one Events list file 10000 unl Range of values 1000 100000 BEN UTC time stamp Time stamp of events to be saved in Events list No 365 Max file size Maximum size of all Events list files 100 Range of values 10 1000 Mb No Log status tags Log status changes to Events list files Yes Values No Yes Page 205 of 220 Niue ee a RTU User Manual 15 03 Enilit RTU software Self control and diagnosis N L Log measurements Log measurements changes to Events list files tags Values No Yes Log command tags Log commands changes to Events list files Values No Yes Log incoming Log incoming changes to Events list
6. Enilit RTU User Manual 15 03 Enilit RTU software Programmable logic ISaGRAF p N L me pew ine De kie oO With those parameters you have possibility to change value which you will take from the data source NewValue OldValue Offset1 Scalet Offset2 Start Value Initial Value of logic calculation with the first operation 14 4 Programmable logic saGRAF Enilit RTU CMS provides an interface to the saGRAF programming tool for the programming of additional function of RTU The following figure shows interface which enables to create inputs and outputs for the Programmable logic saGRAF fn Isagraf PLC fal Test Group cti Hescurcez Inputs Ah in Event Int To ISA1 Ad in Event Float ISAL out to Isa Bes From Isal out CoFloat to Isa Bes From 5 1 5 8 Outputs CoInt From Isa and result tolsal in CoFloat from Isa and result to Isal out Point Int from Isal um out Event From ISA Floatl Configuration Hame CPU Isagraf configuration Download configuration o False ETCE False Hidden True Hinimized True Port enabled False Hame Branch name length 1 Figure 113 Programming window Download Download saGRAF solution to saGRAF on system No configuration start in case Port enabled is Yes on start Values No Yes Page 182 of 220 M m ns das Enilit RTU User Manual 15 03 Enilit RTU software Pr
7. Main Data Link Name New data link Enabled on start No TEC 101 Main Data Link address 1 COT size 1 Common Address size 2 Other Ack E5 Yes Classi answers to Class2 Yes Disconnect time 10 Logging Log Yas Data Link Name Data link layer name New Data Link For example Measurements data controller Enabled on start Enables or disables data link on start Values No Yes Data link Data link address address Range of values 1 65534 if Data link addr length is set to 2 1 254 af Data link address length is set to 1 If Data link address length 15 set to 0 this parameter 1s not used COT size Cause of transmission size Range of values 1 2 bytes Page 149 of 220 ee Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols Common address size Class answers to Class2 Disconnect time Common address size Range of values 1 2 bytes Enables or disables E5 response to controlling device Values No Yes Enables or disables Classl data response to Class2 requests Values No Yes If data link layer doesn t get requests for more than particular time it will be considered as disconnected Values 0 60 seconds Log data link layers Values No Yes Page 150 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols 4 11 1 3 Application layer parameters Main App
8. Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L 4 10 2 3 Application layer parameters E IL 8 ET Application Name Mew Application layer Enabled on start TEC 101 Main Common address 1 Orginator Object address size 3 Object address structure Unstructured Yes Allow same IOA No Cyclic start Yes BO IOA Classi 0 IOA Class 0 IEC 101 Commands Wait COT termination Yes Use C IEC 101 Interrogation Time Qut IC 60 Reconnect 600 Status Point not topical No Interrogation general 3600 Interrogation group 1 0 Interrogation group 2 0 Interrogation group 3 0 Interrogation group 4 0 Interrogation group 5 0 Interrogation group 6 0 Interrogation group 7 0 Interrogation group 8 0 Interrogation group 9 0 Interrogation group 10 0 Interrogation group 11 0 Interrogation group 12 0 Interrogation group 13 0 Interrogation group 14 0 Interrogation group 15 0 Interrogation group 16 0 bul Application Application link layer name New Application Link layer For example Measurements data controller Enabled on start Enables or disables application on start Page 106 of 220 M RTU User Manual 15 03 Enilit RTU software Master protocols p N L Common address of data unit Common address Object address size Object address Structure
9. Figure 32 Select group window Select all Enilit user groups and click OK Page 54 of 220 UE RTU User Manual 15 03 Enilit RTU software Configurator p NS L select Groups Select this object type Groups RADUT Common Queries Columns Mame Starts with Description Starts with Find Now 1 Disabled accounts stop Non expiring password Days since last logon Search results Name RON In Folder Administrators RAON Backup Operators RAQ01 Cryptographic Operators RAO d Device Administrators RAO Distributed COM Users RADI A Allow Control RAD Enilit Allow Edit RADDI Users RADDI H Event Log Readers Guests Bem Figure 33 Advanced Select group window Following figure shows how should look Member Of tab in the last step Click OK and you will have user with the rights to log in configure and control Enilit RTU Configurator Enilit RTU Project Manager and Enilit RTU CMS User with all three groups will have full access to the Enilit RTU software but if you need users with different access level you can add only Enilit Users or Enilit Allow Edit Page 55 of 220 mo RTU User Manual 15 03 Enilit RTU software Users authentication N L Enilit Properties JE Enilt Allow Control Enilt Allow Edit
10. Main ID 35 Type Status Integer 64 bits Name Status 1 Description Comments States State ID State Name Value State Value 0 Time Quality 0 00000000 Not init Cause Not defined Data source Port ID Port Name Point ID Point Name Calculations Offset 1 Offset 2 Scale 1 Scale 2 1 1 Figure 100 edit window ID number Only for internal use Automatically increment value Tag data type You can t edit this value You must delete the tag and then create one new with the type you want Values Status Integer 64 bits Status Float 64 bits Command Integer 64 bits Command Float 64 bits Manual Status Integer 64 bits Manual Status Float 64 bits Manual Command Integer 64 bits Manual Command Float 64 bits Mapped Command _ sae ane TRaumwhedte ine Tmensme Quality of last change Page 174 of 220 m c Enilit RTU User Manual 15 03 Enilit RTU software Tag manager p NS L With those parameters you have possibility to 0 change value which you will take from the data LERNEN NewValue OldValue Offset 1 Scalet Offset2 Following picture shows Connect Tag to data source window In the left side you will see structure which you have created in Master protocols You can expand tree and find particular data point from master protocols points To the tag you can connect only one data or command point Connect
11. 15 3 A 120 V 1 5 A 240 V B300 AC3 750 W single phase motor DCI 16 A 24 V DC see Fig 3 1 0 22 120 V 0 1 A 250 V R300 Voltage control circuit of the relay rated value operating range Increased insulation resistance acc to IEC 60255 5 Power frequency withstand voltage 2 5 kV 50 Hz 1 min surge voltage 4 4 1 2 50 us 0 5 J Page 33 of 220 i _ s Enilit RTU User Manual 15 03 Enilit RTU Hardware Analogue Input Module AI 31 p N L 1 3 9 Analogue Input Module AI 31 The AI 31 analogue input module serves for the processing of up to twelve analogues current or voltage input signals Note Measuring current or voltage could be selected for each input separately by the internal jumper position 12 Al 31 16 8 3 D Y i99 d CES E _ a ez 8 gt 1 99 69 8 i a i Figure 14 s a I PIE TIAE 010700020152 Iil P Figure 13 Analogue input board front and side view Page 34 of 220 c RTU User Manual 15 03 Enilit RTU Hardware Analogue Input Module AI 31 p N L 1 Voltage 10 V to 10 V measuring Figure 14 Analogue input switch position No Explanation Function LED indication LED is OFF normal measured value LED is blinkin
12. Long Time 7 by Long Time 7 by E Inte Short time 3 by General General General General General General General General General _ Back Event Event Event Event Event Event Event Event Event 14 1008 Measured value normalized value Long Time 7 by General Event 15 1009 Measured value normalized value Long Time 7 by General Event 16 1010 Measured value scaled value Long Time 7 by General Event 17 1011 Measured value scaled value Long Time 7 by General Event 18 1012 Measured value short floating pai Long Time 7 by General Event 19 1013 Measured value short floating poi Long Time 7 by General Event 4 t Figure 94 IEC 60870 5 104 status points window um Create new status point Address 1014 Address Increment 1 IEC Type Single point Time Type Long Time 7 bytes Interrogation General Change Event Background No Calculations Offset 1 Scale Offset 2 Invert Address Information object address Add new data points dialog for IEC 60870 5 104 slave Figure 95 Address Here the information address can be specified Range of information address depends from Application layer parameter Information object address length Page 164 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p IN L IEC Type IEC 60870 5 104 data type single Point Values single point
13. The status of each communication interface is shown via the two software controlled LEDs that are installed in the connectors The yellow LED lights up if there is a physical connection to a device 1 e if the connection layer is in operation The green LED 15 activated during transmission of data in the transmission or the receive direction Page 22 of 220 ___ Enilit User Manual 15 03 Enilit RTU Hardware Central processor unit module CPU p N L 3 5 2 Ethernet interface RJ 45 The Ethernet communication interfaces are designed as 8 pole RJ45 connector with integrated LEDs Pin assignment Om ELLEN ELEM i 6 4 5 Figure 6 RJ45 connector The status of each communication interface is shown via the two software controlled LEDs that are installed in the connectors The yellow LED lights up if there is a physical connection to a device 1 if the connection layer is in operation The green LED 1s activated during transmission of data in the transmission or the receive direction Page 23 of 220 Enilit User Manual 15 03 Enilit RTU Hardware Central processor unit module CPU p N L 3 5 3 Technical Data Processor 64 bit microprocessor 1 6 1 8 GHz Intel Atom internal watchdog 1024 2048 MB Dynamic memory DRAM 16 GB Solid State Drive for software databases events
14. 100 4 9 4 Hardware items parameters 4 9 4 1 Digital input iffa Enilit RTU Hardware RTU Card Slots Power supply Main Power supply Digital input number CPU 111 Debouncing and Filtering AI 31 Analog Input Debouncing check time DO 31 Digital Output Filtering time Empty 1 Toggling configuration 01 31 Digital Input Item 5 51 DI Input Toggling time Transition number Name 1i Item SP51 DI Item SPS2 DI Input Toggling end time DI 04 Item DPS1 DI Input OFF SEE Se Debouncing checking time in 0 255 milliseconds 0 debouncing not BER Digital input number Debouncing check time Filtering time Toggling end time Toggling time Transition number Debouncing check time i car Figure 49 Digital Input parameters Number of digital input Only for internal use Depends on digital input For example 1 24 Debouncing checking time in milliseconds If the value is 0 then debouncing filter is not used Range of Values 0 255 ms Filter checking time in milliseconds If value is 0 then filtering is not used Range of Values 0 255 ms Time delay after which no changes are detecting Range of Values 0 60 s Toggling checking time If value is 0 then 1 toggling 15 not used Range of Values 0 60s Transition count in toggling time to set quality of binary input to Not Topical Range of Val
15. 4 8 2 2 To connect to RTU 1 Go to Start gt All Programs Accessories Remote Desktop Connection Js Accessories 54 Calculator 2 Connect to a Network Projector Getting Started Paint Remote Desktop Connection EM Command Prompt IS Run eg Snipping Tool t Sound Recorder Sticky Motes a Sync Center WordPad i Ease of Access 4 Back Seorch programs and files 2 2 Enter the Computer Name or IP address of the Enilit RTU you wish to connect to Page 65 of 220 T ima RTU User Manual 15 03 Enilit RTU software Main configuration N L Remote Desktop a gt Connection Computer 10 2 2 1 Username EMILITRTU Enilit You will be asked for credentials when you connect Show Options Connect Help 3 For more connection options click on Show Options Here you can save the connection profile adjust display properties run specified programs upon connection adjust connection bandwidth etc For more information on specific tabs click on Help Remote Desktop Connection General Display Programs Emerence Advanced Logon settings i A Enter the name of the remote computer t Computer 10 2 2 1 Username ENILITRTUNEnilt You will be asked for credentials when you connect Allow me to save credentials Connection settings Save the curent connection settings to file
16. Auto add Allow same IOA BO IOA Classl BO IOA Class2 Range of values 1 254 Originator Range of values 0 255 Size of information object address Range of values 1 3 Object address structure shows in what format Unstructured information object address 1s entered in configuration Range of values Unstructured Structured 8 8 8 Structured 8 16 Structured 16 8 Structured 8 8 Automatically adds all data points received after General Interrogation to the controlled device Values No Yes Allow to have same information object address NO for status and command points Values No Yes Yes next cyclic operation time is calculated at the end of operation No next cyclic operation time is calculated at the start of operation Values No Yes Information object address of buffer overflow for 0 not used Class1 Range of values 0 16777215 Information object address of buffer overflow for 0 not used Class2 Range of values 0 16777215 Page 107 of 220 IPM Ms Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Wait Wait response of activation termination for set termination points Values No Yes Use C_TA Enables to use commands with timestamp Values No Yes Timeout IC Timeout for interrogation commands Range of values 1 3600 seconds Reconnect If application layer 1s not connected how
17. Enilit RTU software Master protocols p NS L RS 485 Mode If used two wires mirrored data check should be Four wire used If serial port 1s RS 232 parameter is not important Range of values Four wires Two wires Reconnect How often try to reconnect to communication port if there was error Range of values 1 600 seconds Port Monitor Show port monitor on system startup undi Values No Yes Log raw data Log raw communication data mM Values No Yes 4 10 1 2 Data link layer parameters Next request Wait time before sending next request 50 Range of values 0 1000 ms Main ID Data Link Feeder 1 Enabled on start Yes IEC 103 Main Data Link address Frame size Time Quts Broken link Priority Classi Count Classi Time Reconnect Answer timeout Other Allow E5 Yes Use Status link Yes User Data with confirm Yes Use No Use CU timeout 0 Ignore DFC bit Yes Logging Log header Yes Log Answer TimeOut First Time Page 91 of 220 E s Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p IN L emene Data link layer name New Data Link layer Data link name Enabled on start Data link address Frame size Broken link Classl1 Count 1 1 Time Answer timeout Allow E5 Use Status link For example Feeder 1 Enables or disables data link on start Values No Yes Data link address Range of v
18. Interrogation group controlled device Interrogation Range of values 0 86400 seconds 1 4 Timeout CS Timeout for clock synchronization Range of values 1 3600 seconds Page 109 of 220 Nc Rs s Enilit RTU User Manual 15 03 Enilit RTU software Master protocols Allow Enables or disables clock synchronization synchronization Values No Yes Clock Cycle time of clock synchronization to the synchronization controlled device Range of values 1 86400 seconds UTC time Enables to use UTC time in requests and responses Values No Yes Day of Week In request with timestamp use Day of Week bit bul Values No Yes summer time In request with timestamp use Summer time bit Values No Yes Acquisition delay Use acquisition delay before sending clock synchronization C_CD NA 1 Values No Yes Timeout CD Timeout for delay acquisition und Range of values 1 3600 seconds Use for test Use test frame format C TS TA 1 Values No Yes Test Cycle time of test frame This parameter 15 not used when Is test frame used are set to No Range of values 1 86400 seconds FBP Fixed test bit pattern um Range of values 0 32768 Timeout TC Timeout for test command und Range of values 1 3600 seconds Timeout RP Timeout for reset process und Range of values 1 3600 seconds Enabled Enables file transfer function EE Values No Yes Dir on connect Request directory af
19. Operation Logic Operation used for value calculation Cancel Add Close Add Figure 109 Add new Logic calculation It is needed to assign Tag from Tag Manager and Operation then if Result is TRUE it will give value 1 to the next calculation else if Result is FALSE it will output value 0 to the next calculation With the parameters Result TRUE and Result FALSE it 15 possible to change result values to the next logic calculation Operation can be one of assign equal lt gt not equal less lt less or equal gt more gt more or equal OR OR bits AND AND bits XOR XOR bits addition subtraction multiplication division Em A lt gt lt gt gt OR Bits AND AND Bits AOR AOR Bits Figure 110 Integer type Logic operations Page 180 of 220 NU Irun ee a RTU User Manual 15 03 Enilit RTU software Internal programmable logic p N L m Figure 111 Float type Logic operations Main ID 34 Type Manual Status Integer 64 bits Name Status 1 Description Comments States State ID State Name Value State Value Time Quality 0 00000000 Not init Cause Not defined Calculations Offset 1 Offset 2 Scale 1 Scale 2 Startup Start Value Figure 112 Integer type Manual tag parameters mmm LLL Type of Manual tag Sem fwan Page 181 of 220 ee s da
20. Page 98 of 220 ap am a ee Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L IEC 60870 5 103 slave protocols you must check this checkbox Values Checked Unchecked Auto reset IEC 60870 5 103 data Type 2 are transient signals which means that slave device transmits only start of signal but never transmits the end of it In this case you must check this checkbox Values Checked Unchecked Invert Inversion of signals Type 1 and Type 2 Unchecked Values Checked Unchecked Offset 1 New value Old value Offsetl Scale Following three figures shows the list of data points and commands You can use double click to edit data or command point You can also select many points and then edit it with keyboard shortcut Ctr HE IEC Type 5 Tag 2 160 148 2 Measurands Type 3 and Type 9 3 160 148 3 Measurands Type 3 and Type 9 4 160 148 4 Measurands Type 3 and Type 9 5 160 148 5 Measurands Type 3 and Type 9 6 160 148 6 Measurands Type 3 and Type 9 7 160 148 7 Measurands Type 3 and Type 9 160 148 68 Measurands Type 3 and Type 9 9 255 10 Time Tagged Message Type 1 and Type 2 10 255 11 Time Tagged Message Type 1 and Type 2 1i 255 12 Time Tagged Message Type 1 and Type 2 30 Feeder 2 Circuit breaker 1 12 255 13 Time Tagged Message Type 1 and Type 2 13 255 14 Time Tagged Message Type 1 Type 2 Yes Yes 31 Feeder 2 Circuit breaker 2 14 255 15
21. Scale 1 Scale 2 Ox 00000000 Nat init Not defined Point ID Data source point System ID Outgoing data paths Port Hame Figure 98 Main windows of Tag manager Page 172 of 220 LL o paaa ye e o gt Enilit RTU User Manual 15 03 Enilit RTU software Tag manager p NS L New Branch Ctrl N New d Delete Del Goto Data source G Remove Data source Show Change Monitor Test Event Test Command Import Tags Export Tags Export OPC Tags for Wonderware InTouch Figure 99 Active popup menu when tree branch 15 selected Creates new branch in the tree structure CtrI N New Tag Creates new tag in selected branch You need to select from following types of Tags New Status Integer 64 bits New Status Float 64 bits New Command Integer 64 bits New Command Float 64 bits New Manual Status Integer 64 bits New Manual Status Float 64 bits New Manual Command Integer 64 bits New Manual Command Float 64 bits New Mapped Deletes selected branch Del Goto Data source If Tag is selected you can reach the data source G of Tag Remove Data source Disconnect Data source from Tag Export OPC Tags for Export Tags to CSV file for Wonderware Wonderware InTouch InTouch FSGateway software o o 9 o o o 9 o 9 e o Page 173 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Tag manager p NS L
22. Double point Step position Bit string of 32 bits Measured value normalized value Measured value scaled value Measured value short floating point value Time type Timestamp of data point No time Range of values No time Short time 3 bytes Long time 7 bytes Interrogation Assign data point to the specific interrogation General group Range of values General Groupl Group2 Group3 Group4 Group5 Group6 Group7 Group Group9 10 Groupl 1 Group 2 Group 13 Group 14 Group15 Group 16 On change You can specify data point class or cause of Class Event transmission If you choose to be Class1 Event or Class2 Event data point will be marked with Spontaneous cause of transmission Range of values Class Event Class2 Event Interrogation only Periodic cycle Background cycle Calculations Calculation of status item No conversion New Value Page 165 of 220 IDEEN Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p V L Invert Inversion of signals Type 1 and Type 2 Values No Yes Status points Command points ID IEC Type 5cale Offs Time Result PL NN RR RR RN 21 410411 Double command 22 410412 Double command 0 Figure 96 Command points for 60870 5 104 slave Create new command point Main Address 410413 Address Increment 1 IEC Type Double command Calculations Offset 1 0 Scale 1
23. In case if this 1s last 1000 milliseconds connection between RTU s and it 1s timed out then switchover from Standby RTU to Active happens Page 209 of 220 i E rt Enilit RTU User Manual 15 03 Enilit RTU software Redundancy p NS L 4 17 6 2 Redundancy Connection LAN2 parameters Ethernet port Choose RTU Ethernet port Empty n Values ETHI ETH2 ETHn D IP Address IP Address of redundant RTU 127 0 0 1 UT For example 10 2 2 1 HN TCP IP connection port 5404 Timeout Communication timeout In case if this 1s last 1000 milliseconds connection between RTU s and it 1s timed out then switchover from Standby RTU to Active happens 4 17 6 3 Redundancy Connection RS 485 1 parameters Com port Choose RTU COM port Empty Values COMI COM2 COMn Timeout Communication timeout In case if this is last 1000 milliseconds connection between RTU s and it 15 timed out then switchover from Standby RTU to Active happens 4 17 6 4 Redundancy Connection RS 485 2 parameters Com port Choose RTU COM port Empty Values COMI COM2 COMn o o o On Page 210 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Redundancy p NS L Timeout Communication timeout In case if this is last 1000 milliseconds connection between RTU s and it 1s timed out then switchover from Standby RTU to Active happens 4 17 7 Status signals commands and m
24. Master protocols p IN L EE Range of values 0 255 Timer 00 Timer OFF Timer 11 Change to SP This parameter is relevant only if IEC Type is Time Tagged Message Type 1 and Type 2 Double If received value 15 intermediate and timer is set to not zero it will be delayed for set time and if some data change occurs it will be ignored Range of values 0 3600 seconds 0 not used ee This parameter is relevant only if IEC Type is u Time Tagged Message Type 1 and Type 2 Double If received value is OFF and timer is set to not zero it will be delayed for set time and if some data change occurs it will be ignored Range of values 0 3600 seconds 0 not used This parameter is relevant only if IEC Type is Time Tagged Message Type 1 and Type 2 Double If received value is ON and timer 1s set to not zero it will be delayed for set time and if some data change occurs it will be ignored Range of values 0 3600 seconds 0 not used This parameter is relevant only if IEC Type is Time Tagged Message Type 1 and Type 2 Double If received value is indeterminate and timer is set to not zero it will be delayed for set time and if some data change occurs it will be ignored Range of values 0 3600 seconds 0 not used IEC 60870 5 103 protocol all status signals are Unchecked double points If you want to use single point signal in upper direction IEC 60870 5 101 or
25. No Yes Port name Name of the port and protocol New Communication Port unl For example COMI RP 570 master 4 10 10 2 Data link layer parameters RTU Number RTU Number or address Range of values 1 254 Max frame size Maximum frame length Range of values 50 255 bytes Answer timeout Wait timeout of response from controlled 500 device Range of values 50 30000 milliseconds Ask data every This parameter is important if you have more than one controlled device on one communication port You can use it for raring data requests to the desirable device Range of values 10 Page 146 of 220 reas ar Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Broken link Number of retries to determine if the connection is broken Range of values 10 No link cycle This parameter is important if there is no link to the controlled device With default value it sends requests every tenth cycle Range of values 10 Data link name Data link layer name New Data Link layer For example Feeder 1 Enabled on start Enables or disables data link on start Values No Yes Page 147 of 220 Ursa otc Enilit RTU User Manual 15 03 ENIU Enilit RTU software Slave protocols 4 11 Slave protocols 4 11 1 TEC 60870 5 101 protocol configuration 4 11 1 1 Communication port parameters Main Fort Name New
26. ORG D pui 100 Length 13 Information Jend deqguence Humber 4 Receive Sequence Humber 3 gt 56 00 OO 00 TE 80 05 00 3 00 00 00 00 EP 127 0 0 1 IP 127 0 0 1 gA 01 00 Length 4 APCI Supervisory APCI Receive dequence Humber 5 TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX TX Tz TX RE EX RE RE RE Figure 136 Standard slave protocol window Enabled Enables to view communication data Unchecked Values Checked Unchecked Follow Enables to follow last communication data Unchecked Values Checked Unchecked NEN Log to file Enables to log all data to log file Unchecked Ill Values Checked Unchecked RN This communication port monitoring tool is very useful at substation commissioning stage Commissioning engineer doesn t need any additional testing software even worse hardware for port monitoring and so on Page 202 of 220 c RTU User Manual 15 03 Enilit RTU software Self control and diagnosis N L 4 16 2 1 Status signals commands and measurements Connect TAG to datasource Master Client protocols ID Name Simulator master protocol EES Modbus TCP client protocol 12 TX Packets HH Bi Modbus Serial master protoco 21 RX Bytes E COMI IEC 103 master protoc 22 RX Packets EB Feeder 1 EX Feeder 1 31 Err Answer
27. Offset 2 0 Invert Mo IEC Type IEC type of point Figure 97 Add new command points dialog for IEC 60870 5 104 slave Information Here the information address can be specified 1 address Range of information address depends from Application layer parameter Information object address length Range of values 0 16777215 IEC 60870 5 104 command type Single Command Values Single command Double command Regulating step command Setpoint normalized command Setpoint scaled command Page 166 of 220 Ncc A Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p V L Setpoint short float command Bitstring command Calculations Calculation of status item No conversion New Value Old value Offset1 Scale Offset2 Invert Inversion of signals Type 1 and Type 2 Values No Yes 4 11 3 DNP3 serial slave configuration 4 11 3 1 Communication port parameters Baud rate Serial port baud rate Range of values 110 921600 Com port Communication port number For example with default value will be used COMI Range of values 1 255 Data bits Serial port data bits Values 7 8 Parity Serial port parity mu Values None Odd Even Mark Space Stop bits Serial port stop bits om Values 1 1 5 2 Port enabled Port enabled on system startup un Values No Yes Port name Name of the port and protocol New Communication Port om For example C
28. Page 85 of 220 IDEM Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p N L 4 9 5 7 Measurement parameters la Enilit RTU Hardware RTU Slots Hardware Points Ei Mame 1 Item MES1 8 Item MES1 Deadband WP Item SPC1 Zero suppresion 0 tag Item SP51 Deadband value 0 Deadband type Simple Calculation Scale offset type Linear Scale 1 Offset 0 Connection AI Input Slot 10 AI 01 Tag connection Tag Name Feeder 1 Measurement Hame MPS tag name 1 255 Figure 60 Hardware Tags tree and measurement parameters ID Identification number of hardware tag Only for Depends on tag internal use Range of Values 1 65535 Hardware tag name Item MV 1 For example Voltage U1 Length 1 255 AI input Allows connecting hardware tag to analog input Not set For example Slot 15 AI 01 Dead band Type of measurement dead band Simple Range of Values Simple Integrated Dead band value Change of measurement is sent if the change 15 more than this dead band value If the value is 0 then all changes are sent Range of Values 0 32767 LEN Set value to zero if it reaches below this value Page 86 of 220 i o Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p N L lt Range of Values 0 3276
29. Select Select Execute Execute Cancel Cancel Command Result No command No command Selecting Selecting Select Done Select Done Select Rejected Select Rejected Executing Executing Execute Done Execute Done Execute Rejected Execute Rejected Canceling Canceling Cancel Done Cancel Done Cancel Rejected Cancel Rejected Command in progress Command in progress Command already in progress Command already in progress Ack data link layer Ack data link layer Command time out Command time out Feedback wrong position Feedback wron position Feedback time out Feedback time out HACK link layer HACK link layer Unknown link layer Unknown link layer communication communication Bad configuration for point Bad configuration for point Bad value for command Bad value for command Command buffer overflow Command buffer overflow Bad command type Bad command type Undefined result Undefined result Source Disabled Source Disabled Interlacked Interlocked Source Deleted Source Deleted Execute rejected because na 5e Execute rejected because no Select Execute rejected because of sel Execute rejected because of select timeuot Execute rejected because of sel Execute rejected because of select was rejected Device in standby mode Device in standby mode IEC 61850 IEC61850 Unknown IEC61850 Unknown Device in standby mode Device in standby mode Figure 104 Initial Tag states window When you start to configure state for status signal it s needed to
30. bull Values No Yes Log Answer Log data link answer timeouts to system log Timeout Values Never First time Always 4 10 1 3 Application layer parameters Main ID 7 Application Name Feeder 1 Enabled on start No IEC 103 Main Common address General Interrogation Auto add Reconnect Time Time synchronization Day of Week Summer time Allow synchronization UTC time Other Generic Command Logging Log header Log IO Log IO Not configured NN Page 93 of 220 x Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Application layer Application layer name New Application layer name name For example Feeder 1 Enabled on start Enables or disables application layer on start Values No Yes Common address Common address of data unit mm Range of values 1 254 General Cycle time of general interrogation to the controlled device Interrogation Range of values 1 86400 seconds Auto add Automatically adds all data points received after Yes General Interrogation responses from controlled device Values No Yes Reconnect How often try to connect to remote application Application is considered connected on received any application data from remote device Range of values 1 3600 seconds Time Cycle time of clock synchronization to the synchronization controlled device Ra
31. cn cn tn n cn on n ri ri E E 11 ri E E E E prog pe eS Figure 135 Standard master protocol monitor window Enabled Enables to view communication data Unchecked Values Checked Unchecked Follow Enables to follow last communication data Unchecked Values Checked Unchecked Log to file Enables to log all data to log file Unchecked Idi Values Checked Unchecked NEN Next figure shows that you can view communication data in monitoring direction either serial or TCP IP between RTU and SCADA Page 201 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Self control and diagnosis N L lf Monitor New 104 slave protocol 8 2 Enabled iw Folow M Log to file APCI Information gt APCI Send demguence Humber 2 Receive Sequence Humber 3 66 14 00 00 67 01 07 00 69 00 00 00 2 63 OD 1 01 IP 127 0 0 1 DUI 1 IC 1 Interrogation command DUI Humber i DUI ODIS Cauze Activation termination DRAGO Dui 100 IO 0 IO QOI Htation interrogation global Length 14 APCI Information APCI Bend Sequence Humber 3 Receive Sequence Humber 3 EB 00 00 01 00 00 00 00 00 14 IP 127 0 0 1 gt DUI TI F 1 Directory DUI VAi Humber 39 DUI COT Cause Request
32. disabled Counter Interrogation controlled device Interrogation general Range of values 0 86400 seconds Counter Cycle time of Counter Interrogation group to the 0 disabled Counter Interrogation group controlled device Interrogation Range of values 0 86400 seconds 1 4 Timeout CS Timeout for clock synchronization Range of values 1 3600 seconds Allow Enables or disables clock synchronization synchronization Values No Yes Clock Cycle time of clock synchronization to the controlled device synchronization Range of values 86400 seconds UTC time Enables to use UTC time in requests and responses Values No Yes Summer time In request with timestamp use Summer time bit Values No Yes Acquisition delay Use acquisition delay before sending clock synchronization CD 1 Values No Yes Timeout CD Timeout for delay acquisition und Range of values 1 3600 seconds Use test frame format C TS TA 1 Values No Yes Test Cycle time of test frame This parameter 15 not 0 disabled used when Is test frame used are set to No Range of values 1 86400 seconds FBP Fixed test bit pattern 21930 um Range of values 0 32768 Use for test C TS TA 1 Day of Week In request with timestamp use Day of Week bit NO Values No Yes Timeout TC Timeout for test command Page 121 of 220 i mE Enilit User Manual 15 03 Enilit RTU
33. o o Enilit RTU User Manual 15 03 Enilit RTU software Cyber security capabilities p N L 4 18 4 Supervisory monitoring and control In addition to the Audit Trail capability the Enilit RTU monitors security related activity and make the information available through a real time communication protocol for transmission to a supervisory system If serial communications are used for the configuration of the Enilit RTU and the supervisory communications port separate serial communications ports 1s provided for configuration and supervisory monitoring Configuration port activity not interfere nor disable the supervisory monitoring port with the exception of a configuration Information to be monitored and transmitted falls into two groups Event and Alarm 4 18 4 1 Events Events are defined as authorized activities which can be expected to occur in the routine use and maintenance of the Enilit RTU All events can be monitored and transmitted to the supervisory system Event points have momentary change detect capability so that the occurrence of an event will be reported on the next scan of the Enilit RTU by the supervisory system The Enilit RTU reports each occurrence as an individual event 4 18 4 2 Alarms Alarms are defined as activities which may indicate unauthorized activity The following will cause an Alarm occurrence e Unsuccessful login attempt defined as configured incorrect password entries insuccessio
34. 128 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L DC attributes measurement attributes MX and extended definition EX attributes Values MX ST DA Value Data attribute for Value For example stVal Data attribute for Time DA Quality Data attribute for Quality Calculations Calculation of status item No conversion New Value Old value Offset1 Scale Offset2 Invert Inversion of command mE Values No Yes Following figure shows manual creation of new command points for IEC 61850 protocol ID 2 Device 01 RET6 0LD0 LNode LLM DATA Mod FC CO DA Value Calculations Offset 1 0 Scale 1 Offset 2 0 Invert Ma LI Device Logical Device Next Figure 80 Add new command points manually IEC 61850 Logical device node of IEC 61850 structure LDevice Logical device name of IEC 61850 structure For example System Page 129 of 220 am Enilit User Manual 15 03 Enilit RTU software Master protocols p NS L DA Value Calculations Each logical device contains one or more logical nodes A logical node is a named grouping of data and associated services that is logically related to some power system function For example LLNO Data object name of IEC 61850 structure Each m logical node contains one or more elements of Data Ea
35. 12V PS output voltage status LED is ON voltage is OK o Page 25 of 220 Enilit RTU User Manual 15 03 Enilit RTU Hardware Power Supply Module p N L 1 AC 3 LED indicator EE PS input voltage status LED is ON voltage is OK 110V DC 220V DC Input voltage connection terminals 12V DC output connection terminals 3 6 1 Wiring diagram Enilit RTU External Terminal AC DC display 7 3 s Power supply Figure 8 Power supply wiring diagram Page 26 of 220 See da Enilit RTU User Manual 15 03 Enilit RTU Hardware Power Supply Module p NS L 3 6 2 Technical Data Setup rise time 500ms 20ms 230V 1200ms 30ms 115V at full load Hold up time Typ 25ms 230V 30ms 115V at full load Input voltage range Input voltage range PS 11 88 132VAC Input voltage range PS 21 176 264VAC Input voltage range PS 31 88 132VDC Input voltage range PS 41 176 264VDC Current Typ 3A 115V 2A 230V Inrush current Typ COLD START 40A 230V Working temperature 25 70 C Refer to output load derating curve Working humidity 20 90 RH non condensing Page 27 of 220 Enilit User Manual 15 03 ENIU Enilit RTU Hardware Digital Input Module 3 7 Digital Input Module The digital input module serves for the processing of up to 24 digital input signals 1
36. 2 RI Figure 9 Digital input board front and side view No Explanation Function LED indication LED is ON input is active LED is OFF input is inactive LED indicators for mE Digital input status E ALL LEDS are blinking together no connection each digital input with CPU or digital input board error Connection terminals o Oo S o o o o o o Page 28 of 220 Enilit RTU User Manual 15 03 Enilit RTU Hardware Digital Input Module 3 7 1 Wiring diagram Terminal Function DI 1 DI 2 DI 3 DI 4 DI 5 DI 6 DII2 EN EN 10 Enilit RTU D 1 N Digital input board wiring diagram Page 29 of 220 External device output contacts External device output contacts External device output contacts On ES Enilit RTU User Manual 15 03 Enilit RTU Hardware Digital Input Module p N L 3 7 20 Technical Data Galvanic isolation from system electronics Yes optocoupler of the channels from one another No groups of 8 channels share a common ground Signaling circuit voltage Input voltage range DI 11 24 30 V DC Input voltage range DI 21 39 72 V DC Input voltage range DI 31 88 150 V DC Input voltage range DI 41 175 264 V DC Increased insulation resistance acc to IEC 60255 5 2 5 kV 50 Hz min Power freque
37. 255 Allows connecting hardware tag to binary input Not set For example Slot 13 DI 01 Delay on stable state after which the hardware tag is set to OFF 100 ms Range of Values 0 1000 Delay on stable state after which the hardware tag is set to ON 100 ms Range of Values 0 1000 Type of tag timestamp Event can be with start or Yes end of filtering timestamp Values Yes No Auto reset hardware tag from ON to OFF No Values No Yes ERN Invert of hardware tag NO Values No Yes Hardware tag connection to Tag manager Tag manager tag name Page 76 of 220 Enilit User Manual 15 03 Enilit RTU software Hardware configuration 4 9 5 2 Double point parameters Wf Enilit RTU Hardware E I Card Slots Hardware Points 5 18 Name 1 im Item MES1 Item 5 1 Wg Item 5 51 tag Item SP52 fag Item 5 53 318 Item SP54 Name Filtering OFF delay ON delay Intermediate 00 delay Indeterminate 11 delay Time tagging start ENIU 12 Item DPS1 0 0 10 10 Yes fll Tram 5 55 Item SPS6 Logic Inverse Connection DIInput OFF Slot DI Input ON Slot Tag connection Tag Name tag SP57 13 DF 4 13 DE 05 Feeder 1 Double point Name DPS tag name 1 255 Figure 55 ID Identification number of hardware tag Only for Depends on tag
38. 3 Export project With the Export project feature you can export project to external network or other storage for RTU configuration backup Export project Destination directory D Projects Enilit Project name Test Figure 43 Export project window Destination directory Where to save exported project File name of exported project in our case Test ezip Page 60 of 220 Ncc as Rn Enilit RTU User Manual 15 03 ENIC Enilit RTU software Main configuration 4 8 Main configuration Enilit RTU has Windows Embedded Operating System Parameters regarding network configuration you can configure with default Windows applications without need of any third party applications 4 8 1 IP addresses Enilit RTU has by default three Network adapters Network adapters are independent and each has own MAC address In that case all Network adapters can have different IP address with a different gateway You can choose also Static IP address or obtain it by DHCP To configure a Static IP address for one of three Enilit RTU network adapters work through the following steps 1 Launch Control Panel System and Security Review your computer s status Back up your computer Find and fix problems Network and Internet View network status and tasks Choose homegroup and sharing options Hardware and Sound View devices and printers Add a device Connect to a projector Adjust commonly used mobility settin
39. 4 9 5 3 Multipoint status fla Enilit RTU Hardware RTU EHI Card Slots Hl Hardware Points 5 18 Name 1 Item MES1 310 Item SPC1 Filtering Stable delay Time tagging start Calculation Scale Offset Connection Tag connection DI Input 001 DI Input bit 2 DI Input bit 3 DI Input bit 4 DI Input bitos DI Input 006 DI Input bit 7 DI Input bit 8 DI Input bito9 DI Input biti DI Input bitii DI Input biti2 DI Input bit13 DI Input biti4 DI Input biti5 DI Input biti6 DI Sign Tag Name Name MPS tag name 1 255 Figure 56 14 Item MPS1 Binary Not set Not set Not set Mot set Mot set Not set Not set Not set Not set Mot set Not set Not set Not set Not set Mot set Not set Not set ENIU Hardware Tags tree and double multipoint status parameters ID Identification number of hardware tag Only for internal use Range of Values 1 65535 Name Hardware tag name For example Item MPS1 Length 1 255 Page 79 of 220 Depends on tag Item MPSI oo o o Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p IN L DI Input 6101 DI Input bit16 DI Sign Stable delay Time tagging start Range of Values Binary BCD from N bits Gray Allows connecting one of multipoint status item Not set to binary input For example S
40. BEEN Data bits Serial port data bits Stop bits Serial port stop bits 1 U Polling type One by one means first polling all data from Cyclic first device then second and so on Cyclic means sending first request to first device second request to second device and so on Values Cyclic One by one o o it Page 131 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols Parity Serial port parity Even Values None Odd Even Mark Space RS 485 mode If used two wires mirrored data check should be Four wires used If serial port 15 RS 232 parameter is not important Values Two wires Four wires 10 Next request Wait time before sending next request Range of values 0 1000 ms Log raw data Log raw communication data Values No Yes 4 10 5 2 Application layer parameters Main Appl Name New Application layer Enabled on start No Modbus Main Device address Max PDU Size Timeouts Pooling time Response timeout Broken link Mo link time Logging Log Header Log Values Application layer Application layer name New Application layer name name For example Application layer Enabled on start Enables or disables application layer on start No Values No Yes 1 Device address Device link address Range of values 1 255 Max PDU Size Maximum PDU size in bytes Range of values 10 252 Pooling time The time to pool the d
41. Enable Wrong Card Type ar Slot 11 DO 31 Digital Output a Connected SE Enable Wrong Card Type Slot 12 Empty el Slot 13 01 31 Digital Input a Connected H Enable Wrong Card Type zi Slot 14 5T 61 Fiber optics Connected Zl Enable Wrong Card Type Nol 1 ar Figure 133 Hardware status signals commands and measurements Connected Central processor communicates with card The card works without error Type Status item 0 Normal Page 199 of 220 a Enilit RTU User Manual 15 03 Enilit RTU software Self control and diagnosis N L _ OO Voltage Power supply voltage measurement Type Status item Enabled Enabled or disabled card Type Status item 0 Enabled 1 Disabled Enable Enables or disables central processor communication with card Type Command item 0 Disable command 1 Enable command Wrong Card Central processor detects wrongs card type AI31 DI31 DO31 CPU Type Status item 0 Ok Fault lemperature Central processor voltage measurement MT Type Status item Led2 State Central processor Led2 state Type Status item 0 Led2 off 1 Led2 on Led2 Control Control of central processor Led2 state Type Command item 0 Off 4 16 2 Protocol monitoring lype The following figure show communication port popup menu With this popup menu you can run Protocol
42. IEC 101 slave protocol Enabled on start No Init time 0 Communication COM port Not assigned Baud rate 19200 Data bits 8 Stop bits 1 Parity None R5 485 Mode Four wire IEC 101 Link address size 1 Max frame size 250 Logging Log raw data Yes Port Name Name of the port and protocol New IEC 10I slave For example IEC 101 slave protocol Enabled on start Port enabled on system startup Values No Yes Init time Protocol initialization time on startup During this time no events will be generated Range of values 0 600 seconds Com port Communication port number Ia Range of values COM 1 COM 255 Baud rate Serial port baud rate uui Range of values 110 921600 Data bits Serial port data bits ud Values 7 8 Stop bits Serial port stop bits mE Values 1 1 5 2 Parity serial port parity E Values None Odd Even Mark Space Page 148 of 220 Not assigned 19200 Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p NS L RS 485 Mode If used two wires mirrored data check should be Four wires used If serial port is RS 232 parameter is not important Values Two wires Four wires Link Address Data link address size size Range of values 0 2 bytes Max frame size Maximum frame length Range of values 40 255 bytes Log raw data Log raw communication data Values No Yes 4 11 1 2 Data link layer parameters
43. Not set Not set Not set Mot set Not set Not set Not set Mot set Not set Not set Not set Mot set Not set Not set Not set Mot set Tag connection Tag Name Name MPC tag name 1 255 Figure 59 Hardware Tags tree and multipoint command parameters Long pulse Long pulse length in seconds Range of Values 1 600 Short pulse Short pulse length in 10 milliseconds 10 Range of Values 10 6000 Type If command got with unknown or undefined type Pulse short it will be overridden with this type of pulse Range of Values Pulse short o o o o n o Page 84 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p V L Pulse long ID Identification number of hardware tag Only for Depends on tag internal use Range of Values 1 65535 Name Hardware tag name Item 1 For example Item MPCI Length 1 255 Type Select type of multipoint command Binary Range of Values Binary BCD from N bits Gray DO Output 6101 Allows connecting one of multipoint command Not set item to binary output DO Output bit16 For example Slot 13 DO 04 Offset Offset value for conversion Range of Values 0 100 DENN Offset2 Offset value for conversion n Range of Values 0 100 DEN Scale Scale value for conversion 1 BM Range of Values 0 100 Tag Name Hardware tag connection to manager Tag
44. Redundancy Connect Timeout Reconnect If the connection is broken cycle time of 10 reconnection Range of values 1 600 seconds Next request Wait time before sending next request 50 undi Range of values 0 1000 ms 55 Port monitor Show port monitor on system startup No Log raw data Log raw communication data Yes Page 115 of 220 IDEM M 4 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L 4 10 3 2 Data layer parameters Main ID 0 Data Link Name New Data link Enabled on start No Time outs 15 10 20 12 No frame I Not used No frame I timeout Sizes Common address size Cause of transmisition size Frame size Logging Log APCI Data link name For example Data link Enables or disables communication port on start Values No Yes Acknowledgement time out 1 Range of values 1 600 seconds Acknowledgement time out 2 Range of values 1 600 seconds Connection test timeout Range of values 1 600 seconds Maximum number of unacknowledgments ADPUs Range of values 1 32 767 Maximum number of received ADPUSs for acknowledgments Range of values 1 32 767 No frame I Change behavior of I frame Not used Values Not used Send STOP DT Disconnect Page 116 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p N L No frame I timeout Common address size Cause of transmissio
45. Time Tagged Message 1 Type 2 Yes 15 255 16 Time Tagged Message Type 1 and Type 2 Yes 32 Feeder 2 Circuit breaker 3 16 255 17 Time Tagged Message Type 1 and Type 2 Yes 17 255 18 Time Tagged Message Type 1 and Type 2 Yes 4 p Figure 65 List of status points Columns between Function type and Offset 2 are status point configuration parameters Value Time Quality Cause will show real time data from controlled device Page 99 of 220 KE Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Create new command point Main IEC Type General Command Function 1 Function Increment Information Information Increment Calculations Offset 1 Scale Offset 2 Invert TEC Type IEC 60870 type of point Cancel Add Close Figure 66 Create new command point window IEC Type IEC 60870 5 103 data type General Command Values General Command General Command Double composed from to General Commands which is addressed 1 a row Function Here the function type of the employed protection equipment can be defined The following paragraph lists the meaning of some of the function types For a complete list of all function types please refer to the IEC 60870 5 103 norm Range of values 0 255 Function Used only for configuration After adding new Increment command function will be automatically incremented by se
46. TimeStamp TimeStamp of event un RN Data type LINT Quality Quality of event GEN Data type UDINT IsEvent If Yes then Event is active Data type BOOL 4 14 2 IsaGraf data types select before Operate SBO Page 192 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Programmable logic ISaGRAF N L E COACK COMMAND ALREADY IN PROGRESS Command already in progress E COACK COMMAND IN PROGRESS Command in progress E COACK COMMAND QUEUE FULL Command queue full E COACK EXECUTE DONE Activation confirmation E COACK EXECUTE REJECTED Activation rejected E COACK INTELOCKED Interlocked E COACK LINK DISABLED Link disabled E COACK LINKLAYER ACK E COACK LINKLAYER NACK E COACK LINKLAYER UNKNOWN E COACK NO COMMAND E COACK NO LINK E COACK SELECT DONE E COACK SELECT REJECTED E COACK TIME OUT E COACK UNDEFINED RESULT Link layer acknowledgement Link layer no acknowledgement Link layer unknown acknowledgement No command Select confirmation select rejected Command time out Command execution undefined result 7 Command quality E COSUB LONG PULSE E COSUB NOT DEFINED E COSUB PERSISTENT E COSUB SHORT PULSE Long pulse Not defined Persistent Short pulse Quality of event Blocked Good E QUAL BLOCKED E QUAL GOOD E QUAL INVALID E QUAL INVALIDTIME E QUAL NOTINIT E QUAL NOTTOPICAL E QUAL OVERFLOW E QUAL SUBSTITUTED Invalid time Not initialized Not topic
47. add with the priority 0 type irrelevant and quality Not topical with the value Yes Then you add normal states like Reset 0 and Set 1 Following picture show this configuration Page 177 of 220 UU RTU User Manual 15 03 Enilit RTU software Tag manager Tag States Ell RTU event states Reset Set 1 Reset Set Description Reset 0 Set 1 Comments Name State Name r State descriptions and parameters Prior Name Type 0 Unknown Irrelevant 1 Reset Value Figure 105 Configured status state If the state is configured properly then is possible to assign state to the signal or command in the Tag Manager window like in the following picture Main ID 30 Type Status Integer 64 bits Name Circuit breaker 1 Description Comments States State ID 1 State Name Value State Unknown Value Time Quality 0 00000000 Not init Cause Not defined Data source Port ID 5 Port Name COM1 IEC 103 master protocol Point ID 11 Point Name FT 255 IN 12 AL Feeder 1 DL Feeder 1 Calculations Offset 1 0 Offset 2 0 Scale 1 1 Scale 2 1 Figure 106 Configured Tag with assigned state Page 178 of 220 Enilit RTU User Manual 15 03 o a o 3 Qu Enilit RTU software Internal programmable logic p N L 4 13 Internal programmable logic Internal programmable logic are included in Enilit Configuration and Management Software by defaul
48. events overflows with Remove first overflow this parameter you can select which event to remove from queue Range of values Remove first Remove last Remove all Overflow IOA Overflow information object address for Class 0 not used Classl On buffer overflow this IOA will be set to 1 and when there 1s free places in buffer it will be set to 0 When it changes to 0 controlling device should initiate general interrogation Event buffer Class2 Spontaneous Events buffer of Class 2 size 1000 size Change has only take effect after system restart Range of values 10 10000 events Event buffer class2 Ifthe buffer of class 2 events overflows with Remove first Background Cycle time of data marked with Background COT Range of values 10 10000 seconds overflow this parameter you can select which event to remove from queue Range of values Remove first Remove last Remove all Overflow IOA Overflow information object address for Class2 0 not used Class2 On buffer overflow this IOA will be set to 1 and when there 1s free places in buffer it will be set to Page 153 of 220 ee Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p NS L 0 When it changes to 0 controlling device should initiate general interrogation Use SQ bit Recommended to use only if most part of information object addresses are incremented by one Values No Yes Log data
49. files changes Values No Yes Log outgoing Log outgoing changes to Events list files changes Values No Yes Page 206 of 220 UN cra N Enilit RTU User Manual 15 03 Enilit RTU software Redundancy p NS L 4 17 Redundancy 4 17 1 Redundancy support Safety reliability high availability and functionality are vital components of every control system in today s world Enilit system utilize dual RTU and power supplies redundancy The system provide for automatic monitoring of primary and hot standby RTU Failures are detected automatically and trigger a switchover from the primary RTU to hot standby RTU All communication channels are automatically switched to primary RTU The switchover and data transfer is fast and bumbles thereby ensuring that there is no interruption in process control 4 17 2 Redundancy types 4 17 2 1 Cold Standby A method of redundancy in which the secondary RTU system is only called upon when the primary system fails The system on cold standby receives scheduled data backups but less frequently than a warm standby Cold standby systems are used for non critical applications or in cases where data 1s changed infrequently 4 17 2 2 Warm Standby A method of redundancy in which the secondary RTU system runs in the background of the primary system Data 15 mirrored to the secondary RTU at regular intervals which means that there are times when both servers do not contain
50. for simple and straightforward configuration maintenance management and PLC programming of Enilit RTU with IsaGRAF software In the course of RTU configuration the user can specify communications protocols and define relationships between master and slave protocols Also you can define relationships between hardware connections and slave protocols Supported protocols are e control direction IEC 60870 5 101 o IEC 60870 5 103 o IEC 60870 5 104 o DNP3 serial o DNP3IP o IEC 61850 o Modbus RTU ASCII o Modbus o RP 570 e monitor direction o IEC 60870 5 101 IEC 60870 5 104 o DNP3 serial o DNP3IP Enilit RTU can be used as gateway between the IEC61850 substation bus and SCADA protocols IEC 60870 5 101 and 104 4 2 System capabilities Enilit RTU CMS capabilities e Not less than 50 000 information objects database e Not less than 1000 events second e Upto 96 serial slave devices 4 3 Licensing Page 43 of 220 i _ Ss Enilit RTU User Manual 15 03 Enilit RTU software Licensing p NS L Enilit RTU CMS software is included by default Windows 7 Embedded operating system license is included in the Enilit RTU price IsaGRAF license can be added by the request IEC 60870 5 104 IEC 60870 5 104 SCADA 2 L IEC60870 5 101 IEC60870 5 101 2 4 SCADA 1 Modbus RTU IEC 60870 5 101 am an an an Measure devices Other RTUs IEC 61850 Enilit RTU 1 608
51. must belong to this group if they want to work with Enilit CMS Enilit Allow Control Allows users to simulate controls in Enilit CMS Enilit Allow Edit Allows users to edit Enilit CMS configuration 4 5 2 Create user groups First step to start working with RTU software is to Create Enilit user groups from RTU Configurator To create Enilit user groups in Windows user group list you can use Enilit Configurator Run Enilit Configurator program and select from the menu Edit then Create Enilit user groups Successful creation shows the following figure You can use this function without log in Page 51 of 220 Ncc m Enilit RTU User Manual 15 03 Enilit RTU software Configurator p IN L Configurator User groups successfully created Do not forget to add at least one user to all created user groups to be able to work with Enilit software Control panel gt Adminastrive tools Computer managment gt users and gt Users gt Select or create new user and add it to all Enilit groups Figure 28 User groups successfully created 4 5 3 Create user with rights Second step open Computer Management tool from Control Panel Administrative Tools Go to Local Users and Groups Create new user in Users folder like shown in following figure View Help E Computer Management Local Full Name Description if admin di cL f Administrator Built in accoun
52. o o i o o LER o o Page 123 of 220 RTU User Manual 15 03 Enilit RTU software Master protocols p NS L SCD file SCD file of substation You can browse the file with Open file dialog button la Values File name and path 8 1 Enilit CMS saves the file in Projects SCD folder When you select SCD file the main parameters like IP address Gateway Subnet mask are taken from SCD file automatically You should see following figure with your IEDs HEE New 1 61850 client protocol New IEC 61850 client protocol HM IED EQ01_RET670 51 Hil IED EQ04_REF630 AP 51 Hil IED EQU3 REF630 51 l IED EQ02_RED670 51 Hil IED EQ01_REF630 51 9 8 IED EW REB670 51 IED EQ02_REF630 AP 51 5 1 1 0 004 RED670 51 Figure 74 Imported IED devices from SCD file Main ID 1 Name IED EQO1 RET6 0 AP 51 Enabled on start No EQU1 670 AP Name 51 GetDataValues Time 1 Communication IP 10 10 10 11 TCP Keep Alive 1000 TCP No delay Yes Log SCSM Yes Log SCSM TX Yes Log SCSM RX Yes GetDataValues Yes Compability Reports Only needed data BRCB BRCB No Data Set URCB URCB No Data Set Synchrocheck Interlock Operate Term Cancel Term Page 124 of 220 eee Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Figure 75 IEC 61850 IED device parameters window Name Name of IED A
53. ports Ethernet ports OPC Isagraf Graphics Logs Debug and other Enilit RTU Configurator File Edit About Device Version 1 RTU Yes Log directory CAEnilit CMS Logs Debug Enable No Directory D Debug_ Tools Program Start Monitor Crash bat w Other RTU Setting for device type Yes PC Do not set to Yes if this is your Figure 24 Configurator window Edit About Log On Log Off Save Ctrl 5 Exit Figure 25 File menu Log On Log on as a user Log Off Log off currently logged user se CS Page 50 of 220 i Mum RTU User Manual 15 03 Enilit RTU software Configurator p L File Edit About Check configuration Create Enilit user groups Remove Enilit user groups a Figure 26 File menu Menu item Description Check configuration Checks RTU description file Create user groups Creates Enilit user groups in Windows user groups list Remove Enilit user groups Removes Enilit user groups from Windows user groups list 4 5 1 User groups A Enilit Allow Control Allows users to simulate controls in Enilit Allow Edit Allows users to edit Enilit CMS configuration A Enilit Users Users must belong to this group if they want to work with Enilit CMS Figure 27 Created user groups in Windows user groups list There are three groups of users Menu item Description Users
54. resistance acc to IEC 60255 5 2 5 kV 50 Hz min Power frequency withstand voltage 4 4 kV 1 2 50 us 0 5 J surge voltage Page 37 of 220 IDEM Enilit RTU User Manual 15 03 Enilit RTU Hardware Fiber optic module ST 61 p N L 3 10 Fiber optic module ST 61 The ST 61 is designed to provide communication from six fiber optic ports to one RS 422 RS 485 serial port The ST 61 uses a separate LED emitter and photo detector operating at an 820 nm wavelength Connections to the emitter and detector are done with ST type connectors Almost any multimode glass fiber size can be used including 50 125 um 62 5 125 um 100 140 um and 200 um Two fibers are required between the two devices one each direction of data n ST 61 66 60 AS XL Cua t S N 1020 Figure 16 Fiber optic board 3 11 Installation of System Housing Multi frame systems RTUS are usually installed in a cabinet horizontal installation A station s height 15 6 height units U 1 e 266 mm It is important to leave one U free between two stations in order to allow for sufficient ventilation Another possibility is to install the RTUs in a swing frame or on a mounting plate Note The RTUs should be installed in a dry clean environment with an ambient temperature range of 0 60 C standard and an air humidity of 0 95 non condensation Page 38 of 2
55. software Master protocols p V L Range of values 3600 seconds Timeout RP Timeout for reset process Range of values 1 3600 seconds Enabled Enables file transfer function ME Values No Yes Dir on connect Request directory after connection starts uid Values No Yes Receive files After receive list of files download all files from controlled device Values No Yes Segment size Segment size to use in file transfer 0 segment size 15 calculated from max frame length If segment size plus headers 1s more than max frame length segment size will be calculated from max frame length Range of values 0 255 bytes Log header Log application layer header NN Values No Yes Log IO Log information objects ME Values No Yes Log IO not Log not configured information objects configured Values No Yes 4 10 3 4 Points Status points Command points ID IOA IEC Type Inv Offs Sc Offs Val Ti Quali Ca Tag ID 1 900 Single point ENCE SED DID nn ae 3 902 Double point 903 Double point 904 Measured value normalised value 905 Measured value normalised value 906 Measured value scaled value 907 Measured value scaled value 908 Measured value short floating point value 909 Measured value short floating point value c ao tn Figure 72 Status points Page 122 of 220 SS Enilit RTU User M
56. software Redundancy p NS LIT Standby RTU will change to Active RTU and Active RTU will change to Standby RTU Because Standby RTU always acquires process information from Active RTU the switchover is fast and bumbles 4 17 5 Monitored fault locations This section describes what can be monitored and used for automatic switchover form standby to active RTU Most of those monitored information 15 user selectable from system self control and diagnosis Tags See description about 4 13Self control and diagnosis Monitored information Communication paths between Active and Standby RTU s this is done by default and is not user selectable RS 485 RS 232 port hardware errors and state Ethernet port hardware errors and state Cards hardware errors and state Inner voltages and temperatures Main CPU state Power supply state Main Watchdog relay on CPU card Digital Input type card will be needed on both of RTU s to check relay state Other specifics can be added on customer request All this monitored information can be used for configuration of automatic switchovers according to user needs 4 17 6 Communication channel configuration 4 17 6 1 Redundancy Connection LANI parameters Ethernet port Choose RTU Ethernet port Empty MT Values ETHI ETH2 ETHn Address IP Address of redundant 127 0 0 1 ees For example 10 2 2 1 LL TCP IP connection port 5404 Timeout Communication timeout
57. unit identifiers Values No Yes Log information objects Values No Yes 4 11 1 4 Points Data points and command points in monitoring direction are freely configurable All the configured data and command points you will connect to the tag which you have already connected to the data sources Status points Command points i d Time Type Inte _ On Cha Back Offs Scale d D Single point information Long Time 7 TUN Classi Event Emi ES mc 104411 Single point information Long Time 7 by Generi Classi Event 104412 Double point information Long Time 7 by General Classi Event 104414 Step position information Long Time 7 by General Classl Event 104415 Bitstring of 32 bits Long Time 7 by General 551 Event 104416 Measured value normalized value Mo time General Classi Event 104413 Double point information Long Time 7 by General Classi Event 104417 Measured value normalized value No time General Classi Event 104418 Measured value scaled value No time General 551 Event 104419 Measured value scaled value No time General Classi Event 104420 Measured value short floating point No time General Classl Event 104421 Measured value short floating point No time General Classi Event Figure 89 Data points for IEC 60870 5 101 slave Page 154 of 220 NU Irun ee a RTU User Manual 15 03 Enilit RTU software Slave protocols p N L nal Create n
58. user ID logged into to the Enilit RTU at the time of the event e Event Type 4 18 3 3 Audit trail event Types The following events shall cause an entry into the Audit Trail record e Log Successful log in e Manual Log Out User Initiated e Timed Log Out Log out of User after defined period of inactivity elapses e Value forcing Operator action that overrides real data with manual entry and or causes a control operation e Configuration Access Download of the configuration file e Configuration Change Upload to the Enilit RTU of a new configuration file or keystroke entry of new configuration parameter e Password Creation Creation of new password or modification of password level of authorization Page 215 of 220 UN croco Enilit RTU User Manual 15 03 Enilit RTU software Cyber security capabilities e Password Revocation Revocation of a password ENIU e Audit Log Access User access of audit log for viewing or file download e Time Date Change User request to change time and date Keywords Date and Time Source EventID Task Category Audit Success 2013 12 04 08 24 56 Microsoft Windows securi 46 2 Special Logon Audit Success 2013 12 04 08 24 56 Microsoft Windows securi 4624 Logon Audit Success 2013 12 04 08 24 55 Microsoft Windows securi 46 2 Special Logon Audit Success 2013 12 04 08 24 55 Microsoft Windows securi 4624 Logon Audit Success
59. waveforms parameters Communication interfaces RS485 RJ45 socket 8 pin socket DTE max speed 115 2 Kb Ethernet interface Ethernet 10 100 1000 Base TX RJ45 socket 8 pin socket Twisted pair cable CATS speed 10 100 1000 Mbps Working temperature 0 60 C on request range can be extended Working humidity 5 95 non condensing 3 5 4 WatchDog Normal Device 15 turned on Enilit CMS 15 working RTU hardware configuration state has no abnormal card states Device is turned off Lee Page 24 of 220 Enilit RTU User Manual 15 03 Enilit RTU Hardware Power Supply Module p NS L 3 6 Power Supply Module There is four type of power supply module available Application Module Input voltage 115V AC PS 11 Input voltage 230V AC PS 21 Input voltage 110V DC PS 31 Input voltage 220V DC PS 41 Each type off power supplies has 12V DC output which can be used to connect power supply for external monitor or some other device Max power for this output is 3 Amps In one Enilit RTU can be installed two power supply units whose one can work from different voltages one from AC and another from DC supply voltage at the same time PS 21 qb l o 5 DC 2 o V DC 230V AC 3 gt 5 4 Figure 7 Power supply front and side view No Explanation Note Function LED indication 1 LED indicator 5V PS output voltage status LED is ON voltage is OK p LED indicator
60. window In the above picture right top corner you can choose primary data source You can connect tags to Communication ports RTU hardware points or PLC If you have connected Tag to the Data source and connected it also to Slave protocol all the information regarding linkage you can see in the tag configuration of window Also you can see here real time value state timestamp quality and cause of transmission of selected tag Page 175 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Tag manager p NS L Value State Norma Value 0 Time 2015 02 11 13 59 50 323 Quality Ok Cause Spontaneus Figure 102 Signal monitoring 4 12 1 Tag states Tag states configuration tool allows you to configure description to Tag Values If it is configured then Change Monitor you can see state of the signal or command not only value For example it 1s possible to configure description SET if Value 1 and RESET if Value 0 Tag States have two types of states Status State and Command State New Branch Ctrl N New Status States New Command States Delete Del Figure 103 New Tag State window Following picture shows initial Tag States window Page 176 of 220 M rcs s Enilit RTU User Manual 15 03 Enilit RTU software Tag manager p NS L Tag States Jj RTU event states RTU event states Description Comments Command Type
61. you start Enilit RTU CMS the first window is System log window This window 1s also written to the file The location of logs is described in the RTU description file ift Enilit RTU CMS console Test 1 E appls cpp Function MLayer_Appls Unknown common address of ASDU 1 File d projectsc scadaseruer protocolsslaue pr 51 iecilld pr 51 iecilld mlavyer appls cpp Function MLayer_Appls RaA_Receive nknown common address of ASDU 1 od Xprojectsc scadaseruer protocolsslaue pr 51 1 104 zl iecilld mlauyer 1 Function 15 RaA_Receive nknown common address of ASDU 1 di projectscscadaserver protocolss 51 1 104 1 1 104 1 C pp MLayer_Appls RA_Receive nknown common address of ASDU 1 iu _Comm cpp MLayer_Comm On_TCP_Disconnected Disconnected 1 04 client from 127 0 0 1 MLayer_ Gomm cp pp Function MNLayer_Comm On_IGP_Connected Connected 104 client to 127 0 0 1 i MMLayer Conm cpp MLayer_Comm On_TCP_Disconnected Disconnected 104 client from 127 0 0 1 Figure 138 System log window 4 16 4 Events log In the Tag Manager tool you can configure Events log This window 1s also written to the file By default Events log files are stored in the RTU configuration directory Logs The location of logs is described in the RTU description file Page 204 of 220
62. 1 60870 103 60870 104 IEC 61850 Modbus TCP IP Modbus serial DNP3 serial C DNP3 UDP TCP IP gt RP 570 m Figure 21 Select Master protocol window The following window shows Select Slave protocol window f New Slave protocol Ez Select protocol IEC 60870101 IEC 60870 104 5 DNP3 serial DNP3 UDP TCP IP Cancel Create Figure 22 Select Slave protocol window Page 48 of 220 NN comm RTU User Manual 15 03 Enilit RTU software User interface p IN L About IPIE E Il Root Parameters Efl From Isa EV and CO to isa iL Point Int from Isa Event From ISA Float CoInt to Isa Res From Isa CoFloat to Isa Res From ISA E fa To Isagraf Colnt From Isa and result tols CoFloat from Isa and result to Comments LM Event Int To ISA Configuration Event Float To ISA Log RTU Time Days for history Max files size Record count UTC time stamp Logging Log status tags Log measurment tags Log command tags Log incomming changes Log outgoing changes On Start Show Expand Show Monitor Description Name Tag Name Figure 23 Tag Manager window Page 49 of 220 a Enilit RTU User Manual 15 03 Enilit RTU software Configurator p NS L 4 5 Configurator With the help of Enilit RTU Configurator you can change some initial system parameters regarding with CPU Serial
63. 1 Feeder 1 2 Circuit breaker Circuit breaker Double point Double point 2 Measurement Measurement Command SC Command 5 Command DC fi Command DC System status cE a Feeder 2 cE Feeder 2 Feeder 3 Feeder 3 Commandinteger Commandinteger CommandFloat To Simul Ef CommandFloat To Simul Lh iscin4 1 104 System Status System Status System Command System Command Figure 93 Status point or command point connection to tag dialog box 4 11 2 60870 5 104 protocol configuration 4 11 2 1 Communication port parameters Main Port Name New IEC 104 slave protocol Enabled on start Yes Init time Communication Ethernet port All ETH IP part 2404 TCP Keep Alive 10000 TCP No delay No Logging Log RAW Yes Log IP Yes Port Name Port name New IEC 104 slave protocol For example IEC 104 slave Enabled on start Enables or disables communication port on start Yes Values No Yes Page 158 of 220 _ ee Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p IN L Init time Protocol initialization time on startup During this time no events will be generated Range of values 1 60 Ethernet port Which Ethernet port to use to create server All ETH aa Values All ETH ETH 1 ETH 2 ETH 3 nM IP Port TCP port 2404 Range of values 65535 TCP Keep Alive Checks t
64. 17 312 13 17 17 312 Transmit time m amp 2014 01 31 11 17 17 312013 1B 00 04 oo 00 OO 00 server SNIP server 1 06 04 00 00 00 00 00 00 00 127 0 0 1 127 0 0 1 00 00 00 00 00 ao 00 00 DE 04 BD 00 00 02 Fa 00 00 00 00 17 2c 01 D 95 EO 32 D 96 04 94 40 45 91 FS 00 00 00 00 7 B5 OF DE 04 BD 00 00 00 00 4F EO 17 2C DE 96 04 BD DF 55 02 Leap indicator Version number Mode Stratum D 04 BD Ho warning EI CS 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 413 13 17 17 314 13 17 17 413 HIF version 3 Jerver decondary reference Pool interval 4 sec n ananngssae7831E80E25 sec 0 sec synchronized by HIP or SHIP Precision Root delay Root dispersion 0 0115203B574321BH7 sec Reference identifier 127 327 1 1 time stamp 2014 01 31 11 16 36 72032593 time stamp 2014 01 31 11 17 17 3312013 time stamp 2014 01 31 11 17 17 312001 Transmit time stamp 2014 02 91 112 17 17 312036 Delay 1126 micro Time Offset Time offset is smaller than servers and clients clock precision 574 micro lt 1466 micro References Orginate Receive 574 micro fi Fx be be be be ba Pa ba ba Bt Bx be x bo bo fo Pa pe Pe be be be be ba fe Po be be Be be be
65. 18 Slot 19 Slot 20 Slot 21 Empty Empty Empty Empty Empty Empty Empty Max files size UTC time stamp Hardware Points Name 1 img Item 5951 ffl Item DPC1 dese 7 RTU Name length must be 1 255 Figure 44 Hardware configuration window ID RTU unique identification number um Range of Values 1 65535 a Name Name of RTU EN For example Substation 1 Lu eMUswieesmmE NO Event count Number of event to keep in one file 1000 Range of Values 100 100000 History days Number of days to keep files in history Range of Values 1 1000 Range of Values 1 100 Mb URN UTC time stamp Allows to choose the time stamp used in log files Page 68 of 220 1 RTU No 100 Max files size Maximum log files size 10 Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p IN L TEN SS 4 9 1 Power supply 2 8 RTU E Card Slots 7 Me 1 Power supply Al slot 3 Power supply Installed Slot amp CPU Description Figure 45 Power supply parameters Installed Power supply is installed in slot Description Free user description or comment 4 9 2 CPU Power supply H Power supply CPU enabled Yes Description DI 31 Digital Input Version Ver 3 DO 31 Digital Gutp Barcode 01199 AL 31 Analog Input Empty Led Errori Blink rate 5 and Led Errori B
66. 20 MN iru ee RTU User Manual 15 03 Enilit RTU Hardware Order book p NS L 3 12 3 12 1 Basic frame eae 110V DC tage 220V 06 nn END voltage 220V DC Without redundant power supply CPU module module CPU LL with 3 Ethernet RJ45 12 1 RS485 Serial links CPU 32 with 3 Ethernet RJ45 4 RS232 Serial links 8 RS485 Serial links CPU 33 with 3 Ethernet RJ45 8 RS232 Serial 3 links 4 RS485 Serial links CPU 34 with 3 Ethernet RJ45 12 4 RS232 Serial links CPU 41 with 3 Ethernet RJ45 RS485 Serial links CPU 42 with 3 Ethernet RJ45 4 RS232 Serial links 8 RS485 BUD Enilit RTU eic Enilit RTU 232 123456900003 111111 0 sem DTI ISI a DOS 2 2 iiie n mm NN h IM PS 21 auxiliary Aan voltage 230V AC NN NN CPU 43 with 3 Ethernet RJ45 8 RS232 Serial links 4 RS485 Serial links Page 39 of 220 Enilit RTU User Manual 15 03 Enilit RTU Hardware Order book CPU 44 with 3 Ethernet RJ45 12 S232 Serial links outputs DI 11 24 x DI operating voltage 24 VDC DI 21 24 x DI operating voltage 48 VDC DI 31 24 x DI operating voltage 110 VDC DI 41 24 x DI operating voltage 220 VDC DO31 24xDO DO31 24xDO 24 x DO Al 31 12x Al 31 12x Al x Al ST 61 6x FO fiber optic connector type ST Wi
67. 2013 12 04 08 24 54 Microsoft Windows securi 46 2 Special Logon Audit Success 2013 12 04 08 24 54 Microsoft Windows securi 4624 Logon Audit Success 2013 12 04 08 24 51 Microsoft Windows securi 4738 User Account Management Audit Success 2013 12 04 08 24 51 Microsoft Windows securi 4725 User Account Management amp Audit Success 2013 12 04 08 24 47 Microsoft Windows securi 46 2 Special Logon Audit Success 2013 12 04 08 24 47 Microsoft Windows securi 4674 Logon Audit Success 2013 12 04 08 24 46 Microsoft Windows securi 46 2 Special Logon Audit Success 2013 12 04 08 24 46 Microsoft Windows securi 4624 Logon amp Audit Success 2013 12 04 08 24 47 Eventlog 1102 Log clear Figure 141 Audit Trial log Policy i Security Setting ve Audit account logon events Success Failure oe Audit account management Success Failure ce Audit directory service access Success Failure is Audit logon events Success Failure be Audit object access Success Failure ve Audit policy change Success Failure b Audit privilege use Success Failure ve Audit process tracking Success Failure ve Audit system events Success Failure Figure 142 Settings of Audit Trial Enilit RTU CMS independently from Windows Operation System stores some of those events in System Log file This is important if it s needed to send Security events through IEC or DNP communication protocols to SCADA Page 216 of 220
68. 7 eee Offset Offset value for conversion Range of Values 0 100 ERN Scale Scale value for conversion 1 uM Range of Values 0 100 DEM Scale offset type Type of conversion Linear Range of Values Linear Quadratic Hardware tag connection to manager Tag manager tag name 4 9 5 8 Single counter parameters fff Enilit RTU Hardware E ll RTU EHI Card Slots illl Hardware Points Name 1 16 HE Item MES1 Item SCT1 Accumulate Valid delay 10 Auto reset Yes Send type Yes Period 1 hour Connection DI Input Mot set Tag connection Tag Name Name SCT tag name 1 255 Figure 61 Hardware Tags tree and single counter parameters Automatically reset counter value after accumulation period Values Yes No Period for which accumulation should be 1 hour proceeded Range of values 1 minute 12 hours Yes Yes counter value is sent only on period end o i i Page 87 of 220 RTU User Manual 15 03 Enilit RTU software Hardware configuration p V L 1 No counter value is sent on period end and every second Values Yes No Valid delay Stable ON delay before increasing tags value 10 nil Range of Values 0 1000 ms MEM ID Identification number of hardware tag Only for Depends on tag internal use Range of Values 1 65535 Name Hardware tag name Item SCTI For example Counter C1 Length 1 255
69. 70 5 105 IED devices IED devices IED devices IED devices Figure 17 Enilit RTU Substation and SCADA system concept Page 44 of 220 po Enilit RTU User Manual 15 03 Enilit RTU software User interface p NS L 4 4 User interface Following figure shows Main window of Enilit RTU CMS You can choose one of the buttons to configure Master protocols Slave protocols Hardware PLC Isagraf or enter Tag manager The main architectural concept is that you create some points in Master protocols from IED devices then you create tags with Tag manager and connect it to the Master protocols points Then you create points in Slave protocols and connect it to the tags which you have created before And now you will have some points from controlled device to the SCADA or some other controlling device In the Main window you can save Enilit RTU configuration to the hard disk Log ON Figure 18 Main window manazer Page 45 of 220 Ex 10 RTU User Manual 15 03 Enilit RTU software User interface p NS L iE Click to open Redundancy management window button is visible only if 4 Redundancy 15 used Click to close Enilit RTU software The following figure shows the standard perspective of the program window of Enilit RTU CMS The display and work area 15 subdivided into several views As is usual with all Windows applications all windows
70. 8 Max Frame size Maximum frame size 250 Range of values 40 255 End of init Enables or disables station initialization frame Yes transmission to controlled station Values No Yes Interrogation How to behave if received general interrogation command response command request but general interrogation already is going No general interrogation 15 restarted Values No Yes Commands Time Time difference to discard command execution difference Range of values 10 10000 milliseconds Allow Allows clock synchronization from controlled synchronization station Values No Yes Time synchronization with UTC timestamp Values No Yes Time difference Time difference to synchronize internal RTU clock Range of values 20 10000 milliseconds Day of Week In responses with timestamp use Day of Week bit Values No Yes summer time In responses with timestamp use Summer time bit Values No Yes Page 162 of 220 __ mu ee S Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p NS L Hour change Transmit spontaneous clock synchronization command on hour change It is only used for events with CP24Time2a timestamp N Values No Yes mM Periodic Cycle time of data marked with Cyclic Periodic 10 COT mE Range of values 10 10000 seconds MEM Background Cycle time of data marked with Background COT mE Range of values 10 10000 seconds ME Event buffer size Spontaneou
71. 8 Structured 8 16 Structured 16 8 Structured 8 8 Maximum frame size Range of values 40 255 Enables or disables station initialization frame transmission to controlled station Values No Yes How to behave if received general interrogation command request but general interrogation already is going No general interrogation 15 restarted Values No Yes Time difference to discard command execution Range of values 10 10000 milliseconds Allows clock synchronization from controlled station Values No Yes Time synchronization with UTC timestamp Values No Yes Time difference to synchronize internal RTU clock Range of values 20 10000 milliseconds In responses with timestamp use Day of Week bit Values No Yes In responses with timestamp use Summer time bit Values No Yes Transmit spontaneous clock synchronization command on hour change It is only used for events with CP24Time2a timestamp Values No Yes Page 152 of 220 Yes Yes Enilit User Manual 15 03 Enilit RTU software Slave protocols p NS L Periodic Cycle time of data marked with Cyclic Periodic COT Range of values 10 10000 seconds Event buffer Class Spontaneous Events buffer of Class 1 size 1000 size Change has only take effect after system restart Range of values 10 10000 events Event buffer class If the buffer of class 1
72. COF 4 3 4096 Remember if you use kilovolts in equations so for power you will get kilowatts and so on Page 101 of 220 Nbre c cs a Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L 4 10 2 60870 5 101 configuration 4 10 2 1 Communication port parameters Main ID New IEC 101 master protocol Enabled on start Noa Communication COM port COM 2 Baud rate 38400 Data bits 8 Stop bits 1 Parity None R5 485 Mode Four wire Reconnect 10 Next request 50 IEC 101 Data Link address size Logging Port Monitor Log raw data Port name Name ofthe port and protocol New IEC 101 master protocol For example 2 IEC 101 master protocol Enabled on start Port enabled on system startup No Values No Yes BEEN Com port Communication port number Not assigned mM Range of values 1 255 BEEN Baud rate Serial port baud rate 38400 Range of values 110 921600 Data bits Serial port data bits Stop bits Serial port stop bits 1 Parity Serial port parity None EE Values None Odd Even Mark Space BEEN Page 102 of 220 M rcs s Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L RS 485 Mode If used two wires mirrored data check should be Four wire used If serial port 15 RS 232 parameter 15 not important Range of values Four wires Two wires Reconnect How often try to conne
73. DI input Allows connecting hardware tag to digital input Not set UM For example Slot 12DI 01 BEN Tag Name Hardware tag connection to manager Tag 4 9 5 9 Double counter parameters Enilit RTU Hardware 5140 RTU EMI Card Slots Hardware Points 177 Li Name Item DCT1 Accumulate Valid delay 10 Invalid delay 5 Auto reset Yes Send type Yes Period 1 hour Connection DI Input OFF Mot set DI Input ON Not set Tag connection Tag Name Name DCT tag name 1 255 Figure 62 Hardware Tags tree and double counter parameters Auto reset Automatically reset counter value after accumulation period Page 88 of 220 ee is Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p N L O Invalid delay Send type Valid delay DI input OFF DI input ON Delay after which binary inputs not went to 5 normal state Tags value is not increased Range of Values 0 1000 ms Period for which accumulation should be 1 hour proceeded Range of values 1 minute 12 hours Yes counter value is sent only on period end Yes No counter value is sent on period end and every second Values Yes No Stable ON delay before increasing tags value 10 Range of Values 0 1000 ms MEM Identification number of hardware tag Only for Depends on tag internal use Range of Values 65535 Hardware tag name Item DC
74. ENE 10 220 Data Transmission 10 2 3 Decommissioning and 1 10 PA DECOT sree pcre acer 10 10 24 Declaration y 10 2 5 Handling Of clectronie 11 2 6 Warnings regarding use of UAB 12 2 SUISSE E E 12 2 ME du 13 s EROTI C MER 14 Dol SION m T mm 14 2 2 Rack MMO UML Ins and EE EE NEEE EEE EEE 15 DM NOTI Emm 15 Dez MC COMC MAIN nti E E 16 212 a 16 Jod TOWEL Supp Module P O 17 20 PEOOESSOT M I DELHI E E E agar AEA 17 m 17 Sia TC T m t 18 23 9 Central processor unit module 19 3 5 1 Serial communication interface 45 22 2 220 Enilit User Manual 15 03 Content User manual p V L ied NN RR RE TT T 23 Dee SCI CAN I AU A 24 tm Hii 0 24 36 evum 25 WS DR
75. ENILITT m d T 4 E at REE 22 EN 4 mele Beet sev o eo wo x i bo oe e amp i e be wer ze m ex qe 0 m m i A 3 2 3 n ara PR MOSS e TEE a i BM PUE 1 s 2 La 2 TA i T i a E 4 is a Copyright UAB Enilit All rights reserved 2010 2015 Content User manual p NS L Content MCETT 2 Mg sis cers seers ene se merase se nate ars asec E 6 NMNEB E 6 Pe ERTU 6 2 8 PN NEC UVC 8 PAPAE 8 DONICE AMG IN IVS recor cate cra acteurs E PUN in dI cub 8 eee E E 9 9 COMIC I ME 9 22 gt DEN NN UEUT DNUS C
76. Enabled Ethernet port 4 10 3 IEC 60870 5 104 configuration 4 10 3 1 Communication port parameters 10 New IEC 104 master protocol No All ETH 127 0 0 1 2404 No All ETH Server or IP TCP port TCP Keep Alive TCP No delay Connect Time Out Reconnect Next request Logging Port Monitor Log raw data mo LLL Port name Port name New IEC 104 master protocol For example IEC 104 master 172 29 37 113 Enabled on start Enables or disables communication port on start No N Values No Yes Ethernet port Which Ethernet port to use for connection to All ETH server Values All ETH ETH 1 ETH 2 ETH 3 Server name Name or IPv4 address of the host 127 0 0 1 r EE TCP port 2404 Range of values 1 65535 LERNEN Page 114 of 220 N Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Enables or disables redundant communication No enabled Values No Yes URN Ethernet port Redundant Ethernet port to use for connection to All ETH server Values All ETH ETH 1 ETH 2 ETH 3 server name or Name or IPv4 address of the redundant host r TCP port Redundant TCP port BM Range of values 1 65535 BENI TCP Keep Alive TCP Keep Alive Do not set low values because 0 disabled it will add overhead to communication Range of values 0 2147483647 milliseconds TCP No delay TCP No delay disables the Nagle Algorithm Yes
77. Enilit RTU software Master protocols p NS L Create new status point Mot set Type Integer Calculations Min Value 1000 Max Value 1000 Step 10 Change Type Increment Period 100 Name of status point Cancel Add Close Add Figure 86 Add new simulation point Change type Change every Name of status point Name For example Data Point 1 BEEN Type of data point Integer Range of values Integer Float BEEN Minimum value of simulation data point Range of values 0 16777215 Maximum value of simulation data point Range of values 0 16777215 Step size to change simulation data point between Min and Max values Range of values 0 16777215 Data point simulation type Increment Range of values Increment Decrement Random Manual Cycle time of data point change 100 Range of values 0 60000 milliseconds Page 144 of 220 a ee Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L If you have configured manual data point change type you can change data point manually by entering Manual set value dialog from data point popup menu Following figure shows this menu Add Status point Ctrl N Edit Status point Ctrl E Delete Status point Del Select All Ctrl A Connect to Tag Shitt Ctrl N Remove connection to Tag Shift Del Go to Tag G Manually set value Figure 87 s
78. I ICD IED MV PLC RTU SCADA SCL SNTP SPC SPS TCP UTC ENIU Abbreviations Application Data Unit Application Protocol Data Unit Configuration and Management Software Central processing unit Clock synchronization Double point command Double point signal General interrogation IED Capability Description Intelligent Electronic Device Measurement value Programmable logic controller Remote terminal unit Supervisory control and data acquisition Substation Configuration Language Simple Network Time Protocol Single point command Single point signal Transmission Control Protocol Coordinated Universal Time Page 219 of 220 Ul crc N Enilit RTU User Manual 15 03 Contacts Cyber security capabilities ENIU Contacts UAB Enilit Veiveri str 134 221 LT 46352 Kaunas Lithuania Support e mail 0 Sweden X 0 p V Germany Page 220 of 220 See da o Tel 370 655 53155 Tel Fax 370 37 291708 E mail info enilit It www enilit It support enilit It sap oy SS Belarus Enilit RTU User Manual 15 03
79. LLE ELE ELELLLTTE Operation guides in Lithuanian Page 41 of 220 Enilit RTU User Manual 15 03 Enilit RTU Hardware Order book p NS L 3 12 2 Second frame Enilit RTU ordernumber Enilit RTU 30 1234569090909090 Staite ee ee be 3012 34 5 Functions EET m Power supply PS 11 auxiliaryvoltage 115V AC PS 21 auxiliaryvoltage 230V AC PS 31 auxiliaryvoltage 110V DC PS 41 auxiliaryvoltage 220V DC Withoutredundantpowersupply Inputs outputsboards DI 11 24 x DI operatingvoltage 24 C BREESE See lt DI 21 24 x DI operatingvoltage 48 DI 31 24 x DI operatingvoltage 110 VDC DI 41 24 x DI operatingvoltage 220 VDC DO 31 24 x DO Al 31 12x ST 61 6x FO fiberopticconnectortype ST Withoutboard Accessories Equipments Wallmountedadapter Ethernetcableforanyconnection Cacheforemptyslots Connectors 3 points Connectors 9 points EE x Een ENNNEENEENEO CUCESEXES Connectors 12 points Bees _ 6 _ OON CIC _ _ Sher Page 42 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Introduction p NS L 4 Enilit RTU software 4 1 Introduction The Enilit RTU Configuration and Management Software CMS 15 the tool
80. MR Figure 130 Time management monitor window Page 197 of 220 l Enilit RTU User Manual 15 03 Enilit RTU software Self control and diagnosis N L 4 16 Self control and diagnosis Enilit RTU CMS also provides diagnostic facilities which enable the user to view hardware status of RTU with its configuration to analyze and view serials and TCP protocols data to monitor current status of information objects to test its and commands with test values to view and keep saved system and events log 4 16 1 Hardware monitoring With the popup menu in Enilit RTU Hardware configuration window you can run Enilit RTU Hardware state monitoring New hardware Tag branch Ctrl N New hardware Tag Delete Del Remove connection to TAG Shift Del Show Hardware state Figure 131 Hardware popup menu When you click Show Hardware state you will see following figure With this window you can check if the hardware is well configured and working In this hardware monitoring window you can see current states of all modules output voltage of power supply CPU temperature Watchdog status binary inputs and command outputs states measurements current mA or voltage V Tuff Enilit RTU hardware state Slot 1 slot 3 Slot 6 PS 31 Empty CPU 31 O Erri O Err2 O Run Temp 39 C Sloti4 Sloti i5 Stoti Sloti i7 S1otiS8 510 19 Slot20 510 21 Empty Empty Empty Empty Empty E
81. OM3 DNP3 slave 4 11 3 2 Data link layer parameters Slave address IED slave address Range of values 0 65535 bytes Master address RTU s master address Range of values 0 65535 bytes Page 167 of 220 Enilit RTU User Manual 15 03 New Data Link layer Enilit RTU software Slave protocols Data link layer name Data link name For example Measurements data controller Enables or disables data link on start Values No Yes Enabled on start 4 11 3 3 Application layer parameters On buffer class overflow On buffer class2 overflow On buffer class3 overflow Allow one command Allowed synchronization If the buffer of class 1 events overflows with this Remove first parameter you can select which event to remove from queue Range of values Remove first Remove last Remove all If the buffer of class 2 events overflows with this Remove first parameter you can select which event to remove from queue Range of values Remove first Remove last Remove all If the buffer of class 2 events overflows with this Remove first parameter you can select which event to remove from queue Range of values Remove first Remove last Remove all Allow one command at the time No Allows clock synchronization from controlled station Values No Yes Page 168 of 220 Enilit RTU User Manu
82. Range of values 1 60 Port enabled Enables or disables communication port on start TS Values No Yes Port name Port name New DNP3 server protocol iu For example DNP3 slave 4 11 4 2 Application layer parameters On buffer class If the buffer of class 1 events overflows with this Remove first overflow parameter you can select which event to remove from queue Range of values Remove first Remove last Remove all On buffer class2 If the buffer of class 2 events overflows with this Remove first overflow parameter you can select which event to remove from queue Range of values Remove first Remove last Remove all On buffer class3 If the buffer of class 2 events overflows with this Remove first overflow parameter you can select which event to remove from queue Range of values o Page 170 of 220 Enilit User Manual 15 03 Enilit RTU software Slave protocols p NS L Allow command Allowed synchronization Time difference in milliseconds UTC Spontaneous Spontaneous Class 4 11 4 3 Points Remove first Remove last Remove all Allow one command at the time Values No Yes Allows clock synchronization from controlled station Values No Yes Time difference to synchronize internal RTU clock Range of values 20 10000 milliseconds Time synchronization with UTC timestamp Value
83. TAG to datasource ee mi x E Master Client protocols PERN IEC Type Tag i Simulator master protocol IR Modbus TCP client protocol 2 160 148 2 Measurands Type 3 and 9 3 160 148 3 Measurands Type 3 and Type 9 ME Eseder i 4 160 148 4 Measurands Type 3 and Type 9 E 1 cm 5 160 148 5 Measurands Type 3 and Type 9 ES 6 160 148 6 Measurands Type 3 and Type 9 F 8 9 Modbus Serial master protocol 1 6 COMI IEC 103 master protocol 7 END Feeder 7 160 148 7 Measurands Type 3 and Type 9 HER com IEC 101 master protocol 160 148 8 Measurands Type 3 and Type 9 HIR New IEC 61850 client protocol 255 10 Time Tagged Message Type 1 and Type 2 A New Modbus RTU ACSI master pro 10 255 11 Time Tagged Message Type 1 and 2 E E ereraa rd 255 12 Time Tagged Message Type 1 and Type 2 30 Feeder 2XCircuit breaker 1 t 12 255 13 Time Tagged Message Type 1 and Type 2 13 255 14 Time Tagged Message Type 1 and Type 2 31 Feeder 2 Circuit breaker 2 HEEE 1 st New 1 61850 client protocol Slave Server protocols 1 RTU Hardware 14 255 15 Time Tagged Message Type 1 and Type 2 PLC 15 255 16 Time Tagged Message Type 1 and Type 2 32 Feeder 2XCircuit breaker 3 16 255 17 Time Tagged Message Type 1 and Type 2 m 17 255 18 Time Tagged Message Type 1 and Type 2 Figure 101 Connect tag to data source
84. TI For example Counter C1 Length 1 255 Allows connecting hardware tag to digital input Not set DI input used for OFF counting For example Slot 12DI 01 Allows connecting hardware tag to digital input Not set DI input used for ON counting For example Slot 12DI 01 Hardware tag connection to manager Tag manager tag name EN Page 89 of 220 IDEM Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p N L 4 10 Master protocols 4 10 1 60870 5 103 configuration 4 10 1 1 Communication port parameters Main ID 5 Port Name COM1 IEC 103 master protocol Enabled on start Yes Communication COM port COM 175 Baud rate 19200 Data bits 8 Stop bits 1 Parity None R5 485 Mode Four wire Reconnect 10 Next request 50 Logging Port Monitor Log raw data Port name Name of the port and protocol New IEC 103 master protocol For example COM1 IEC103 master protocol Enabled on start Port enabled on system startup No Values No Yes BEEN Com port Communication port number Not assigned mM Range of values 1 255 BEEN Baud rate Serial port baud rate 19200 Range of values 110 921600 BEEN Data bits Serial port data bits Stop bits Serial port stop bits 1 Parity Serial port parity None E Values None Odd Even Mark Space BEEN Page 90 of 220 Enilit RTU User Manual 15 03
85. TI NO m 204 eS PTS PUI ANG m 207 WS Redundancy E Ie 207 2 1752 SRedunodtie ee 207 MNS Conn CUO MC IAG a TETTE mm 207 4 174 RTU redunddncy principles 208 4 17 5 Monitored fault 209 4 17 6 Communication channel 209 4 17 7 Status signals commands and 211 A Ay OCT sec rity Capa DiNi ES EIEEE 213 ToGe O e T TE 213 4 185 2 Electf nic access SUR ETE iene 213 NS NT oe ov es em oslo tpn vars eae ene 215 4 18 4 Supervisory monitoring and control Zi AS COMERS UIA DOO TTE 217 ADDE I O osos cercate 219 ROS de sess 220 Page 5 of 220 l i Enilit RTU User Manual 15 03 Introduction User manual p NS L l Introduction 1 1 User manual This document is a helpful resource for utility customers or Enilit partners who are purchasing or evaluating Enilit RTU remote terminal unit It is intended for readers who have knowledge of substation automation equipment and application
86. Time Out 32 RX Err First Char HM Feeder 2 33 RX Err Last Char 8 fea Mew IEC 101 master protoco 34 RX Err Check Sum New IEC 61850 client protoc 35 RX Err Length EHE New Modbus RTU ACSI mast 36 RX Err Mirrored New Modbus TCP master pro toconmiscted EZB New IEC 104 master protoco 2 Enabled 6 GHB New 1 61850 client protoci New IEC 61850 client protoci E Slave Server protocols RTU Hardware HET PLC 4 Figure 137 Standard system status items for master protocols All All All All All All Connected Connected to the slave device Type Status item 0 Normal 1 Communication error Enabled Enabled or disabled communication protocol Type Status item 0 Enabled 1 Disabled TX Bytes Count of protocol transmitted bytes a Type Float TX Packets Count of protocol transmitted packets uml Type Float RX Bytes Count of protocol received bytes mal Type Float RX Packets Count of protocol received packets nal Type Float RX Err Answer IEC 101 103 Timeout RX Err First Char Type Float IEC 101 103 o Page 203 of 220 mu m mo RTU User Manual 15 03 Enilit RTU software Self control and diagnosis p V L RX Err Last Char Type Float IEC 101 103 RX Err Check Type Float IEC 101 103 Sum RX Err Length Type Float IEC 101 103 RX Err Mirrored Type Float IEC 101 103 4 16 3 System log When
87. User Manual 15 03 Enilit RTU Hardware Short hardware review p N L 431mm 238 mm Figure 2 Top view 3 2 20 Second frame More I O modules can be achieved by connecting two basic frames Second frame should have Power Supply and can have 16 I O or communication modules of any type Frames are connected with external cable for communication between CPU and modules of the second frame Expanding Enilit RTU with second frame you can achieve 28 I O modules 3 3 Short hardware review The remote terminal unit Enilit RTU device comes in one basic 6U frame system One frame can include e two power supply modules e central processor module second frame not necessary e 25lots for I O and communication modules at maximum 12 boards inside one rack could be installed Place of the boards according type in the rack it isn t necessary No difference for RTU what type DI DO AI or ST board 1s installed in the slot Page 16 of 220 See da RTU User Manual 15 03 Enilit RTU Hardware Short hardware review p N L 1 Power supply module Tias oe c 2 Central processor module I O modules Figure 3 Front view of Enilit RTU 3 3 1 Power Supply Module There is four type of power supply module available 3 3 2 Central Processor Modules The central processor module 15 in charge of communication interface operatio
88. al Overflow Substituted B lt Page 193 of 220 NE ee Enilit RTU User Manual 15 03 Enilit RTU software Time management p L 4 15 Time management 4 15 1 SNTP client In the time management window you can create new SNTP client to synchronize RTU date and time with external SNTP server Time managment Main Log Startup state Time Clock not synchronized Synchronization from slaves Time presicion Main Figure 126 SNTP client window Log Log clock synchronizations from slaves BE Values No Yes Startup state Clock is synchronized on startup BE Values No Yes Clock not synchronized If there was no clock synchronization for particular time it will be considered that clock 1s not synchronized Range of values 86400 seconds Synchronization from After what time allow synchronization from slaves slave communication protocols 0 means allow always synchronize 1 86400 seconds when there was time synchronization from SNTP clients Range of values 86400 seconds Time precision Requested time precision in milliseconds Clock will be synchronized only if time offset 15 larger than requested precision Range of values 60000 ms Page 194 of 220 M ce s Enilit RTU User Manual 15 03 Enilit RTU software Time management p NS L Create new SNTP client Ctrl N Show monitor Fig
89. al 15 03 Enilit RTU software Slave protocols p V L Time difference in Time difference to synchronize internal RTU 1000 milliseconds clock Range of values 20 10000 milliseconds UTC Time synchronization with UTC timestamp No Values No Yes MEM Spontaneous Spontaneous messages enabled NO Values No Yes Spontaneous Class Spontaneous Class messages class Class 1 Range of values None Class 1 Class 2 Class 182 Class 3 Class amp 3 Class 2 amp 3 Class 1 amp 2 amp 3 4 11 3 4 Points Refer to the IEC 101 paragraph Points The configuration is very similar 4 11 4 DNP3 UDP TCP IP server configuration 4 11 4 1 Communication port parameters Ethernet port Which Ethernet port to useto create server All ETH MT Values All ETH ETH 1 ETH 2 ETH 3 n IP Port TCP port 2404 me Range of values 1 65535 Keep Alive Checks the connected socket and determines 10000 whether the connection is still up and running or if it has broken Range of values 1 2147483647 milliseconds 0 disabled Page 169 of 220 te _ Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p NS L TCP No delay Controls TCP packet batching Values No Yes Log IP Enables to log IP Lu Values No Yes Log RAW Enables to log RAW EE Values No Yes Init time Protocol initialization time on startup During this time no events will be generated
90. alling and starting as well as its operation leading This device 1s compliance with EU directive resolutions 2004 108 EC Electromagnetic Compatibility EMC Directive 2006 95 EC Compliance with the European Commission Low Voltage Directive Conformity to directives was confirmed by tests performed in independent from manufacturer measurement and research laboratories and develops centers standard consistent with directive 2004 108 EC EN 55022 2010 Information technology equipment Radio disturbance characteristics Limits and methods of measurement CISPR 22 2008 EN 55024 2010 Information technology equipment Immunity characteristics Limits and methods of measurement CISPR 24 2010 EN 61000 3 2 2006 Electromagnetic compatibility EMC Part 3 2 Limits Limits for A1 2009 A2 2009 harmonic current emissions equipment input current lt 16 A per phase IEC 61000 3 2 2005 2 5 Handling of electronic equipment A person s normal movements can easily generate electrostatic potentials of several thousand volts Discharge of these voltages into semiconductor devices when handling circuits can cause serious damage which often may not be immediately apparent but the reliability of the circuit will have been reduced The electronic circuits of UAB Enilit products are immune to the relevant levels of electrostatic discharge when housed in their cases Do not expose them to the risk of damage by withdrawing modules unnecessa
91. alues 1 254 Maximum frame length Range of values 50 255 bytes Number of retries to determine if the connection 5 is broken Range of values 10 Request data every cycle 1 Range of values 255 DENM How many times request the same data link 1 layer if there is Class events 0 request until no Class events or Class timer expires Range of values 0 255 How long request the same data link layer if there is Class events 0 time is not checked Range of values 0 255000 ms How often try to reconnect to communication 10 port if there was error Range of values 1 600 seconds Wait timeout of response from controlled 500 device Range of values 50 30000 milliseconds Enables or disables E5 response from controlled Yes device Values No Yes Enables or disables use Status of link frame before Reset Link 15 sent Values No Yes Page 92 of 220 INNEN ES Enilit RTU User Manual 15 03 Enilit RTU software Master protocols User Data with Sends User Data with confirmation request confirm Values No Yes Use CU Enables to use Reset Communication Unit Values No Yes Use CU timeout Use Reset CU command if no link more than this timeout This parameter has no effect if Use CU 15 disabled Range of values 0 43200 minutes Ignore DFC bit Enables to ignore DFC bit ind Values No Yes Log header Log data link header
92. ame New Application layer name name For example Application layer Enabled on start Enables or disables application layer on start Values No Yes Page 142 of 220 CENE OE Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L 4 10 8 3 Points Refer to the IEC 101 paragraph Points The configuration is very similar 4 10 9 Simulator master configuration With simulator interface you can simulate data points to upper level protocols It is very useful in testing environment You can use it to test SCADA system without IED devices 4 10 9 1 Port parameters Main ID 1 Port Name Simulator master protocol Enabled on start No Logging Port Monitor No Port name Simulator port name New Simulator master For example Simulator Enabled on start Enables or disables port on start Values No Yes Port monitor Show port monitor on system startup Values No Yes 4 10 9 2 Points Status points Command points ID Name Type Min Max Step Cha Period Va Time Qu Ca Tag ID Tag Mame Float Float 0 1000 0 5 Manual 100 15 To Isaqr 11 mano Integer 0 1 1 Increment 300 16 104 Following figure shows Add new simulation point dialog window You can specify some parameters like Name Value type Change type Min value Max value Step Change every Page 143 of 220 ee s a Enilit RTU User Manual 15 03
93. anual 15 03 Enilit RTU software Master protocols p NS L Status points Command points ID IOA IEC Type Offs Scale Offs Invert Val Time Result Tag ID Tag 11 5001 Single command 12 5002 Single command 13 5003 Double command i4 5004 Double command 15 5005 Set point short float co 0 16 5006 step command J ENS NR NER ERN ccc Figure 73 Command points Configuration of IEC 60870 5 104 protocol data and command points are the same like of IEC 60870 5 101 protocol Refer to the paragraph above 4 10 4 IEC 61850 client Enilit RTU supports also IEC 61850 client protocol You can connect IED devices via 61850 protocol standard The main requirement 15 that you will need SCD Substation Configuration Description file extracted from IED device configuration software SCD file 1s part of Substation Configuration Language SCL 4 10 4 1 Communication port Main ID 7 Port Name New IEC 61850 client protocol Enabled on start No IEC 61850 Communication Ethernet port All ETH SCD SCD file D Projects Enilit Training 2013 10 07 Icd temp 001 5CD SCD 107 IEC61850 5CD Port name IEC 61850 port name New IEC 61850 client protocol For example IEC 61850 client protocol Enabled on start Enables or disables port on start No Values No Yes Ethernet port Which Ethernet port to use for connection to All ETH server Values All ETH ETH 1 ETH 2 ETH 3
94. ata Range of values 50 65535 ms Response timeout Time to wait response after request Page 132 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p IV L Broken link Determine the connection as broken after so 3 many retries Range of values 100 No link time Request data every this time when connection 10000 is broken Range of values 100 65535 ms Log header Enables to log headers in Port Monitor Yes Log values Enables to log values in Port Monitor Yes 4 10 5 3 Points To add new data or command point to the points list you must call popup menu in the Points window With the following menu items you can Add Edit or Delete data points Select all or Remove connection to the Tag manager Import and Export functionality included also Add data point Ctrl N Edit data point Ctrl E Delete data point Del Select All Ctrl A Remove connection to Tag Shift N Import points Export points Figure 81 Points window popup menu Page 133 of 220 UN cra N Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Address Address Increment 1 Type Read SubType 16 bits unsigend B1B2 Calculations Invert Offset 1 Scale Offset 2 Address Modbus point address Cancel Add Close Add Figure 82 Add new data point window Address Here the information address can be specif
95. authentication Remote Desktop Click an option and then specify who can connect if needed ia Dont allow connections to this computer 6 Allow connections from computers running any version of Remote Desktop less secure 3 Allow connections only from computers running Remote Desktop with Network Level Authentication more secure Help me choose Select Users Click Select Users This displays the Remote Desktop Users dialog box To grant Remote Desktop access to a user click Add This opens the Select Users dialog box In the Select Users dialog box click Locations to select the computer or domain in which the users you want to work with are located Type the name of a user you want to work within the Enter the Object Names to Select field and then click Check Names If matches are found select the account you want to use and then click OK If no matches are found update the name you entered and try searching again Repeat this step as necessary and then click OK Page 64 of 220 M S a Enilit RTU User Manual 15 03 Enilit RTU software Main configuration N L The users listed below can connect to this computer and any members of the Administrators group can connect even if they are not listed admin already has access create new user accounts add users to other groups go to Control Panel and open User Accounts 7 Click OK twice when you have finished
96. be earthed using the protective earth terminal or the appropriate termination of the supply plug in the case of plug connected equipment Omitting or disconnecting the equipment earth may cause a safety hazard Recommended minimum earth wire size 15 2 5mm 2 2 4 Power Supply Connection This device does not have its own mains switch and starts operation immediately after the application of system voltage Hence a switch must be included in the wiring scheme which must be labelled appropriately and which must be installed in the vicinity of the device and within the operator s reach The switch has to fulfill the requirements acc to standards IEC 947 1 and IEC 947 3 The recommended maximum rating of the external protective fuse for this equipment is Supply voltage L10VDC 220VDC LISVAC 230VAC For the supply of the feeder voltage please use cables with the 1 5 mm cross section Page 9 of 220 Enilit User Manual 15 03 Safety Decommissioning and disposal p IN L 2 2 5 Terminals Terminals exposed during installation commissioning and maintenance may present a hazardous voltage unless the equipment 15 electrically isolated Power supply 0 9 2 9 Clamping range Data communications 0 2 2 5 2 2 06 Data Transmission Cables For data transmission telecommunications cables with twisted pair double core cables with braided shielding effective core diameter 0 6 0 8 mm2 o
97. can be resized moved or closed Page 46 of 220 l RTU User Manual 15 03 Enilit RTU software User interface Master Client protocols coke ESI L LI H paz a 1 ri g Simulator master protocol Points I Modbus TCP client protocol H E Modbus Serial master protocol FER COM1 IEC 103 master protocol HER COM2 IEC 101 master protocol EH BRI New IEC 61850 client protocol EH AP AP1 Eg New Modbus RTU ACSI master protocol New Application layer New Modbus TCP master protocol Mew Application layer New IEC 104 master protocol New Data link New IEC 61850 client protocol 1ED P145 AP AP1 Points Settings State m Main ID Port Name Enabled on start Communication COM port Baud rate Data hits Stop bits Parity R5 485 Mode Reconnect Next request Logging Port Monitor Log raw data ENIU 5 COM1 IEC 103 master protocol Yes COM 175 19200 8 1 None Four wire 10 50 Yes Port Name Port protocol name Figure 19 Standard application window The program window 15 subdivided in the following areas Left side Communications tree RTU of a project and their respective communications are shown in the form of a structured tree diagram In this view you can use the and the characters respectively to open and close the differ
98. ch element of data has a unique name These Data Names are determined by the standard and are functionally related to the power system purpose For example DPC Functional constraints for status ST attributes substituted value SV attributes description DC attributes measurement attributes MX and extended definition EX attributes Values MX ST Data attribute for Value For example stVal Calculation of status item No conversion New Value Old value Offset1 Scale Offset2 Inversion of command Values No Yes Page 130 of 220 IDEM M 4 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L 4 10 5 Modbus RTU ASCII 4 10 5 1 Communication port parameters Main Port Name New Modbus RTU ACSI master protocol Enabled on start No Protocol Type RTU Pooling Type Cyclic Communication COM port Mot assigned Baud rate 19200 Data bits 8 Stop bits 1 Parity Even R5 485 Mode Four wire Next request 10 Logging Log raw data Port name Name of the port and protocol New Modbus RTU ASCII nn For example COM1 Modbus master master protocol Enabled on start Port enabled on system startup No Values No Yes BEEN Protocol type Enables to select protocol version RT Not assigned Com port Communication port number mE Range of values COM 1 255 EE Baud rate Serial port baud rate 19200 mu Range of values 110 921600
99. ct to communication port if there was error Range of values 1 600 seconds Next request Wait time before sending next request 50 mM Range of values 0 1000 ms BEEN Data link Data link layer address size in bytes 1 address size Range of values 0 2 bytes BEEN Port monitor Show port monitor on system startup NO Log raw data Log raw communication data Yes 4 10 2 2 Data link layer parameters Main ID 7 Data Link Name Mew Data link layer Enabled on start No IEC 101 Main Data Link address COT size CAA size Frame size Time Outs Broken link Priority Classi Count Classi Time Reconnect Answer timeout Other Allow E5 Use Status link User Data with confirm Yes Logging Log header Yes Log Answer TimeOut First Time Page 103 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Data link layer name New Data Link layer Data link name Enabled on start Data link address COT size CAA size Frame size Broken link Classl1 Count Classl1 Time For example Measurements data controller Enables or disables data link on start No Values No Yes Data link address 1 Range of values 1 65534 1f Data link addr length is set to 2 254 af Data link address length is set to 1 If Data link address length 15 set to 0 this parameter is not used Cause of transmission size 1 Range of value
100. ctricity transmission and distribution networks e Traffic control systems railways metro tramways and etc e Supply networks of municipal and regional public utilities gas electricity water sewage district heating and etc Data acquisition and control in buildings systems escalators lighting air conditioning and etc e Monitoring and control of chemical and petrochemical plants and pipelines Page 6 of 220 Nc Enilit RTU User Manual 15 03 Introduction Enilit RTU p NS L e Environmental technology with measured data acquisition and remote evaluation Main tasks what the Enilit RTU 15 doing e Control and monitoring of a system from a control center via reliable remote data transmission protocols e Multitude of communication possibilities via various transmission media LAN radio relay system and etc e Fast time sequential processing of digital and analogue process data with high resolution time marking 1 millisecond e Secure process inputs outputs with high isolation voltage 2 5 kV e Pre processing and compressing of acquired process data e g metered value formation threshold value processing initiation delay debouncing signal damping e Optimized flow of remote data transmission spontaneous cyclic or on demand transmission differentiated interrogation lists priority improvement general interrogation selective message repeat command e Time saving user optimiz
101. d If Yes then Command is active Data type BOOL Figure 123 Wait Command LREAL Waits integer command Variable Input of command from RTU Data type ENILIT OUT COACK LREAL ID Commands identification number URN Data type UDINT Value Value of command ERN Data type LREAL Page 190 of 220 Enilit User Manual 15 03 Enilit RTU software Programmable logic ISaGRAF p V L TimeStamp TimeStamp of command un RN Data type LINT Type Type of command LUN Data type BYTE SubType Type of command activation deactivation NN Data type BYTE Test Command with test flag EN Data type BOOL IsCommand If Yes then Command 15 active Data type BOOL Event LINT 7 E Wait Event LINT Variable Figure 124 Wait Event LINT Waits integer event Variable Input of event from RTU ERN Data type ENILIT IN EV LINT Value Value of event ERN Data type LINT TimeStamp TimeStamp of event EE Data type LINT Quality Quality of event EN Data type UDINT IsEvent If Yes then Event is active Data type BOOL Page 191 of 220 Ncc m Enilit RTU User Manual 15 03 Enilit RTU software Programmable logic ISaGRAF p N L E Wan Event 7 E Wait Event LREAL Variable Figure 125 Wait Event LREAL Waits float event Variable Input of event from RTU 5 Data type ENILIT IN EV LREAL Value Value of event Data type LREAL
102. d creation and the user will be notified and prompted to choose another password which conforms to the rules For more information about users passwords see paragraph 4 5 3 of this document 4 18 2 4 Authorization levels by password The Enilit RTU supports the ability to assign authorization to utilize Enilit RTU functions and features based on individual user created passwords At a minimum the following functions and features shall have this assignability available View Data the ability to view operational data voltage current power energy status alarms et al e View Configuration Settings the ability to view configuration settings of the Enilit RTU such as scaling communications addressing programmable logic routines e Force Values the ability to manually override real data with manually inputted data and or the ability to cause a control output operation to occur e Configuration Change the ability to download and upload configuration files to the unit and or effect changes to the existing configuration e Password Management The ability to create delete or modify passwords and or password authorization levels Audit Log The ability to view and download the audit log For more information about User groups Roles of Users see paragraph 4 5 2 of this document 4 18 2 5 Password display It is not possible to cause Enilit RTU access passwords displayed through any means including configuration so
103. d for making measurements should be earthen to the case whenever possible More information on safe working procedures for all electronic equipment can be found in IEC 60147 0F and BS5783 2 6 Warnings regarding use of UAB Enilit products UAB Enilit products are not designed with components and testing for a level of reliability suitable for use in connection with surgical implants or as critical components in any life support systems whose failure to perform can reasonably be expected to cause significant injuries to a human In any application including the above reliability of operation of the software products can be impaired by adverse factors including but not limited to fluctuations in electrical power supply computer hardware malfunctions computer operating system software fitness fitness of compilers and development software used to develop an application installation errors software and hardware compatibility problems malfunctions or failures of electronic monitoring or control devices transient failures of electronic systems hardware and or software unanticipated uses or misuses or errors from the user or applications designer adverse factors such as these are collectively termed System failures Any application where a system failure would create a risk of harm to property or persons including the risk of bodily injuries and death should not be reliant solely upon one form of electronic system due to the risk of syste
104. e to rain or humidity 6 With regard to the installation location take care that the ventilation 1s sufficient to make sure that the permissible operating temperature is not exceeded 7 For wiring please make sure that you use only cables that are able to withstand temperatures of at least 85 8 Please ensure that not isolated line ends are not exposed in order to minimize the danger of electric shocks or short circuits 2 2 1 Service and Maintenance The device should be installed in a dry clean environment To ensure its proper functioning it is necessary to make sure that the specified ambient conditions are fulfilled If there is unlocked access to the rear of the equipment care should be taken by all personnel to avoid electrical shock or energy hazards It is not necessary to clean the device after installation But if it is needed to cleaning please switch off the device and wipe it off with a soft clean and dry piece of cloth Do not use any detergents for cleaning Page 8 of 220 Nc ee Enilit RTU User Manual 15 03 Safety Health and safety p IN L 2 2 2 Electrical Connections Connections should be made using insulated crimp terminations to ensure that terminal block insulation requirements are maintained for safety To ensure that wires are correctly terminated the correct crimp terminal and tool for the wire size should be used 2 2 3 Earthing Before energizing the equipment it must
105. ease refer to the Isagraf User Manual which can be called up via IsaGRAF software 4 14 1 IsaGraf function blocks Functional blocks designed specifically for Enilit RTU With these functional blocks you can manipulate events and commands Figure 115 Create Command Ack LINT Creates integer command acknowledgement Variable Input of command un Data type ENILIT OUT COACK LINT ID Commands identification number URN Data type UDINT Result Command acknowledgement type positive negative termination EE Data type BYTE Create Enable or disable acknowledgement IEEE Data type BOOL Page 184 of 220 Nl crucem 4 Enilit RTU User Manual 15 03 Enilit RTU software Programmable logic IsaGRAF p N L 1 Figure 116 Create Command LREAL Creates float command acknowledgement Variable Input of command ID Commands identification number Result Command acknowledgement type positive negative termination Data type BYTE Create Enable or disable acknowledgement IER Data type BOOL Figure 117 Create Command LINT Creates integer command Page 185 of 220 sc NES PII m Enilit RTU User Manual 15 03 Enilit RTU software Programmable logic IsaGRAF p V L Variable Output of command to RTU Data type ENILIT IN COACK LINT ID Commands identification number ERN Data type UDINT Value Value of command ERN Data type LINT TimeOut Wait for command acknowledg
106. easurements 4 17 7 1 Standard system status items for redundant connections Connected Connected to the redundant RTU Type Status item 1 Normal 0 Communication error Enabled Enabled or disabled redundant connection Type Status item Enabled 0 Disabled Transmitted Protocol transmitted bytes Bytes Type Measurement Transmitted Protocol transmitted packets Packets Type Measurement 4 17 7 2 Standard system status items for redundancy Received Bytes Protocol received bytes Type Measurement Switchover Switchovers current RTU to new state Type Command item All All All All All Received Protocol received packets All Packets Type Measurement State RTU redundancy state Type Status item 0 Standby 1 Active Page 211 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Redundancy p NS L 0 To Standby To Active Connections Current active redundancy connections Type Measurement Page 212 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Cyber security capabilities p N L 4 18 Cyber security capabilities 4 18 1 Introduction Cyber data security is a vital element of system s reliability It decreases cyber crimes and increases the security and availability of the system communication network System where RTU s are used power water oil supply systems usually are critical infras
107. ed parameterization with minimum effort Enilit RTU Configuration and management software CMS with Microsoft Windows operating system e Open interfaces which permit connection of peripheral units e g printer or operator panel Page 7 of 220 Ncc t N Enilit RTU User Manual 15 03 Safety Introduction p IN L 2 Safety 2 1 Introduction This documentation includes information for qualified technical personnel It describes the safety handling packing and unpacking procedures applicable to Enilit RTU hardware and software tools 2 2 Health and safety THIS SAFETY SECTION SHOULD BE READ BEFORE COMMENCING ANY WORK ON THE EQUIPMENT The information the Safety Section of the product documentation is intended to ensure that products are properly installed and handled in order to maintain them in a safe condition It is assumed that everyone who will be associated with the equipment will be familiar with the contents of the Safety Section To preclude the possibility of personal danger the following safety requirements must be fulfilled at any time 1 The operating voltage specified in technical documentation must never be exceeded 2 Always disconnect the device before changing the system or signaling wiring 3 The housing does not contain any operation relevant elements The device must never be opened 4 Do not operate the device in inflammable or explosive environments 5 Do not expose the devic
108. ement ERN Data type TIME Type Type of command single double LUN Data type BYTE SubType Type of command activation deactivation NN Data type BYTE Test Command with test flag EN Data type BOOL Create Enable or disable acknowledgement ERN Data type BOOL Ret ID Identification number of command acknowledgement Data type UDINT Ret_ Result Result of command acknowledgement ERN Data type BYTE Ret TimeStamp Timestamp of command acknowledgement DNE Data type LINT Ret Ack Acknowledgement positive or negative Data type BOOL Page 186 of 220 IDEM M 4 Enilit RTU User Manual 15 03 Enilit RTU software Programmable logic ISaGRAF N L Figure 118 Create Command LREAL Creates float command Variable Output of command to RTU ERN Data type ENILIT IN COACK LREAL ID Commands identification number URN Data type UDINT Value Value of command ERN Data type LREAL TimeOut Wait for command acknowledgement ERN Data type TIME Type Type of command LUN Data type BYTE SubType Type of command activation deactivation ERN Data type BYTE Test Command with test flag EN Data type BOOL Create Enable or disable acknowledgement Data type BOOL Ret ID Identification number of command acknowledgement Data type UDINT Ret_ Result Result of command acknowledgement BEN Data type BYTE Page 187 of 220 XE CENE s Enilit RTU User Manua
109. ent branches of the tree By clicking left mouse button on the tree item the user opens settings window in the right application side When clicking on tree item with the right mouse button a corresponding popup menu enables access to further functions available for this tree item Right side settings table When clicking on tree item in left side of window the corresponding Settings table is opened enabling the user to view and edit the settings Help section Help section is located in the bottom of the right side The help section contains some information about the parameter on which the cursor is currently positioned The following figure shows popup menu of first tree item CPU Menu items Expand all tree branches Collapse all tree branches Menu item Expand AII Collapse All Page 47 of 220 oae Enilit RTU User Manual 15 03 Enilit RTU software User interface p NS LIT Create New Shows window in which you can choose protocol Keyboard shortcut Cir N Communication Port Expand All Collapse All Create New Communication Port Ctrl N Figure 20 CPU popup menu If you use menu item Create New Communication Port you will see following figure Then you can select protocol The new tree item will appear in the communications tree Popup menu is fast and simple way for creating RTU communications New Master protocol Select protocol Simulator 608700
110. es No Yes Cancel Term negative cancel response Values No Yes 4 10 4 2 Points Status points ID LDev LNode DATA DAV DA DAT Invert Offs Sc Of Val Time Qua 4 nt F Figure 76 Points window IEC 61850 Following figure shows add data point popup menu With it you can Browse ICD Add data point Edit data point Delete data point Select All data points and Remove connection to Tag Import and Export points Erowse IED Add data point Ctrl N Edit data point Ctrl E Delete data point Del Select All Ctrl A Remove connection to Shitt N Import points Export points Figure 77 Data points popup menu IEC 61850 Page 126 of 220 p UR Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L If you select from the above menu Browse ICD file following ICD file window will open There you choose which data point to add to the data points list This 1s an automated way to create data points IEC 61850 Browse data point you needed and double click to add it to the points list 1 IEC61850 Browser AK1 il AKl1Control 2 1 AK1Measurements H A AKiProtection 1 18 i AKiSystem eM 66101 eM FnkGGio1 56101 60866102 8 LN ImfinpGGIO1 8 ImfinpGG102 i ImfoutGeio1 fi ImfouteGio2 8 LedGGIO1 EH LedGGIO2 aM Beh 8 Il Health M NamP
111. es of central processor unit modules available Module Communication interfaces 3 x Ethernet RJ45 CPU 31 12 x RS485 Serial links RJ45 3 x Ethernet RJ45 CPU 32 4 x RS232 Serial links RJ45 8 x RS485 Serial links RJ45 3 x Ethernet RJ45 CPU 33 8 x RS232 Serial links RJ45 4 x RS485 Serial links RJ45 3 x Ethernet RJ45 CPU 34 12 x RS232 Serial links RJ45 12 x RS485 Serial links RJ45 4x Ethernet RJ45 CPU 42 4 x RS232 Serial links RJ45 8 x RS485 Serial links RJ45 4x Ethernet RJ45 CPU 43 8 x RS232 Serial links RJ45 4 x RS485 Serial links RJA5 4x Ethernet RJ45 CPU 44 12 x RS232 Serial links RJ45 Page 19 of 220 i _ s Enilit RTU User Manual 15 03 Enilit RTU Hardware Central processor unit module CPU p N L The central processor module CPU serves for the operation of the communication interfaces for control of the I O modules for the acquisition and archiving of process information and for the execution of PLC programs e Pr 2 SOMA a Kingston 5 ace R FERRAR 6 COM 8 d 7 COM 10 I 8 COM 12 gt J Figure 4 Central processor unit front and side view No Explanation Note Function LED indication LED is BLINKING m Hardware configuration 1 LED indicator Error mistake in hardware status configuration Error2 User defined LED is BLINKING 2 LED indicator Run CPU status dev
112. escription Y as CMSYPrajects 69 admin 2012 09 03 001 admin 2014 01 08 Redundancy Figure 37 Project Manager project parameters window Directory Projects directory read only Change possible only in Projects xml file in Enilit CMS directory Version of project configuration Configuration version RTU of computer name on which project is created User who created the project Creation date Date when the project was created Page 57 of 220 __ ee a Enilit RTU User Manual 15 03 Enilit RTU software Project manager p NS L Modified on Computer name on which was made last modification Modified user User who made last modification Modification date Date when was last modification Om ih Enilit RTU project manager File Edit Project About Efi Projects EM Test EnilitR TU EnilitR TU Description Additional description IP 127 0 0 1 Redundancy Enabled No Redundant RTU Name Redundant RTU IP Name RTU s network name Figure 38 Project Manager RTU parameters window Redundant RTU Redundant RTU name Empty Redundant RTU IP address of redundant RTU File Edit Project About Log On Log Off Save Ctri 5 Exit Figure 39 File menu Page 58 of 220 x Enilit RTU User Manual 15 03 Enilit RTU software Project manager p V L Log Off Log off curre
113. et Protocol Version 6 TCP IPv6 ak ntemet Protocol Version 4 TCP IPv4 wi Link Layer Topology Discovery Mapper 1 0 Driver wi Link Layer Topology Discovery Responder Description Transmission Control Protocol Intemet Protocol The default wide area network protocol that provides communication across diverse interconnected networks 7 Select Use the following IP address and enter the following IP address and subnet mask IP address 172 17 217 130 Subnet mask 255 255 255 0 Gateway 172 17 217 254 Page 62 of 220 M roc c Rem RTU User Manual 15 03 Enilit RTU software Main configuration N L You can get IP settings assigned automatically if your network supports this capability Otherwise you need to ask your network administrator for the appropriate IP settings 3 Obtain an IP address automatically Use the following IP address IP address 172 217 130 Subnet mask 255 255 255 0 Default gateway 172 17 217 254 Obtain DNS server address automatically Use the following DNS server addresses Preferred DNS server Alternate DNS server 4 8 2 Remote management Enilit RTU can be configured and managed not only locally but also remotely If you have TCP IP connection to Enilit RTU you can connect to it with Remote Desktop Connection application from Windows Operating System Remotely you can do everything what you can do locally Enilit RTU Self control and Dia
114. ew status point 2 Main Address 104410 Address Increment 1 IEC Type Single point Time Type Long Time 7 bytes Interrogation General On Change Classi Event Background No Calculations Offset 1 0 Scale 1 Offset 2 0 Invert No Address Information object address Figure 90 Add new data points dialog for IEC 60870 5 101 slave 1 1 Address Here the information address can be specified Range of information address depends from Application layer parameter Information object address length Range of values 0 16777215 Address After adding new data point address will be Increment automatically incremented by set value It 1s used only for configuration IEC 60870 5 101 data type Single Point Values Single point Double point Step position Bit string of 32 bits Measured value normalized value Measured value scaled value Measured value short floating point value Time type Timestamp of data point No time Range of values No time Page 155 of 220 peg pa Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p NS L Interrogation On change Invert Short time 3 bytes Long time 7 bytes Assign data point to the specific interrogation General group Range of values General Groupl Group2 Group3 Group4 Group5 Group6 Group7 Group Group9 10 Groupl 1 Group 2 Group 13 Group 14 Group15 Group 16 Yo
115. example Other RTU Enabled on start Enables or disables application on start Values No Yes Page 118 of 220 ee da Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p IV L Range of values 1 254 Originator Object address size Object address Structure Auto add Allow same IOA Cyclic start BO IOA Wait COT termination Use C TA BE Originator Range of values 0 255 ee Size of information object address 3 Range of values 1 3 Object address structure shows in what format Unstructured information object address 1s entered in configuration Range of values Unstructured Structured 8 8 8 Structured 8 16 Structured 16 8 Structured 8 8 Automatically adds all data points received after General Interrogation to the controlled device Values No Yes Allow to have same information object address No for status and command points Values No Yes Yes next cyclic operation time is calculated at the end of operation No next cyclic operation time 1s calculated at the start of operation Values No Yes Information object address of buffer overflow 0 not used Range of values 0 16777215 n RN Wait response of activation termination for set points Values No Yes Enables to use commands with timestamp NO Values No Yes Timeout for interrogation commands Range of values 1 3600 sec
116. fter import from SCD file name will be concatenated from IED Name and AP Name Enabled on start IED 15 enabled on system startup No Values No Yes IED Name IED name in SCD file Access point name in SCD file IP address of IED in SCD file Read only TCP Keep Alive TCP Keep Alive Do not set low values because 0 disabled it will add overhead to communication Range of values 0 2147483647 milliseconds TCP No delay TCP No delay disables the Nagle Algorithm nell Values No Yes Log SCSM Log SCSM communication Iun Values No Yes Log SCSM TX Log SCSM requests Values No Yes Log SCSM RX Log SCSM responses und Values No Yes Only needed data Start only buffered and unbuffered reports which contains needed data Values No Yes BRCB No Data Print error in system log if for buffered report set control block dataset 1s not set Values No Yes URCB No Data Print error in system log if for unbuffered report Set control block dataset is not set Values No Yes GetDataValues Enables log GetDataValues requests and Yes responses Values No Yes Page 125 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Synchrocheck Set synchrocheck bit in command to YES uml Values No Yes Interlock set interlock bit in command to YES unl Values No Yes Operate Term Wait for command termination in case negative operate response Valu
117. ftware connection and terminal access Page 214 of 220 Ncc t N Enilit RTU User Manual 15 03 Enilit RTU software Cyber security capabilities p N L 4 18 2 6 Access timeout The Enilit RTU has a timeout feature which revokes all access levels granted through password entry after a period from user inactivity Inactivity shall be defined as the absence of input keystroke activity on a computer connected to the Enilit RTU port The period of time before the timeout feature activates 15 settable between 1 and 60 minutes by the user in the configuration of the Enilit RTU 4 18 3 Audit trail The Enilit RTU records in events in the order in which they occur This audit trail is in the form of a file which can be viewed on a computer attached to the Enilit RTU diagnostic maintenance port 4 18 3 1 Storage capability The audit trail facility has the capability to store more than 10 000 events before the circular buffer begins to overwrite the oldest event with the newest event There 1s no capability to erase or modify the audit trail It is not possible to remove the storage media of the audit trail without permanently damaging the Enilit RTU beyond the capability of field repair 4 18 3 2 Storage record For each audit trail event the following information 1s recorded e Event Record Number e Time amp Date Time and date of the event will be recorded in yy mm dd hh mm format e User Identification The
118. g measured value is under or over LED indicators for Analogue input range each analogue input status M ALL LEDS are blinking together no connection with CPU or analog input board error 2 Connection terminals Page 35 of 220 os ENS Enilit RTU User Manual 15 03 Enilit RTU Hardware Analogue Input Module AI 31 p N L 3 9 1 Wiring diagram Terminal Function Analogue input 1 Analogue input 1 Analogue input 2 Analogue input 2 Analogue input 3 Analogue input 3 Analogue input 4 Enilit RTU Analogue input 4 Analogue input 5 Analogue input 5 Analogue input 6 s alal ala Analogue input 6 Fr Analogue input 7 Analogue input 7 rr External device analogue outputs Analogue input 8 Analogue input 8 Analogue input 9 DEM Analogue input 9 10 Analogue input 10 10 Analogue input 10 Analogue input 11 11 Analogue input 11 12 Analogue input 12 12 Analogue input 12 Figure 15 Analogue input board wiring diagram Page 36 of 220 l Enilit RTU User Manual 15 03 Enilit RTU Hardware Analogue Input Module AI 31 p N L 3 9 2 Technical Data Galvanic isolation from system electronics Yes optocoupler of the channels from one another Yes Measuring ranges standard fitting Configurable via switch Increased insulation
119. ge of Values 1 255 COM communication ports will be disabled after 3000 set time of milliseconds Range of Values 0 65535 0 communication ports will never be disabled Following figure shows Card Slots tree Here you can assign hardware modules to the particular slot The type of the module is written on the top of module front panel oe Page 70 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration N L 5 81 RTU Card Slots a Slot 1 Power supply 3 Power supply CPU 0 31 Analog Input DO 31 Digital Output Empty 101 31 Digital Input ST 61 Fiber optics Empty Empty Empty Empty Empty 0 Empty Empty Figure 47 RTU Slots tree 1 Main Slot Number 11 Card Type DI 31 Digital Input Description Version Barcode E Configuration Card enabled Yes LED brightness 100 Figure 48 Slot parameters pane Slot number Number of RTU slot Only for internal use Depends on slot number For example 10 21 Card enabled Card 1s enabled Yes Card Type Choose type of module Values DI 31 Digital Input DO 31 Digital Output AI 31 Analog Input ST 61 Fiber optics Page 71 of 220 i rE s Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p N L LED brightness Enables to configure LED brightness on particular module Range of Values 0
120. gnosis change configuration import export project configure Windows OS Remote Desktop is not enabled by default You must specifically enable it to allow remote access to the Enilit RTU When it is enabled configured member of the Administrators group can connect to the Enilit RTU 4 8 2 1 To configure Enilit RTU To configure remote access follow these steps 1 In Control Panel click System and Security System and Security Review your computers status Back up your computer Find and fix problems 2 Then click System System es View amount of RAM and processor speed Check the Windows Experience Index H Allow remote access See the name of this computer 59 Device Page 63 of 220 NE Irc mas a RTU User Manual 15 03 Enilit RTU software Main configuration N L 3 On the System page click Remote Settings in the left pane This opens the System Properties dialog box to the Remote tab By Device Manager Bp Remote settings System protection Advanced system settings To enable Remote Desktop you have two options You can e Select Allow Connections from Computers Running Any Version of Remote Desktop to allow connections from any version of Windows e Select Allow Connections Only from Computers Running Remote Desktop with Network Level Authentication to allow connections only from Windows 7 or later computers and computers with secure network
121. gs mi Programs Uninstall a program 2 Click on Network and Internet 3 Click on Network and Sharing Center User Accounts and Family Safety i Add or remove user accounts l Set up parental controls for any user Appearance and Personalization Change the theme Change desktop background Adjust screen resolution Clock Language and Region Change keyboards or other input methods Ease of Access Let Windows suggest settings Optimize visual display Ek Network and Sharing Center View network status and tasks Connect to a network View network computers and devices Add a wireless device to the network 4 Onthe left pane click on Change adapter settings Manage wireless networks Change adapter settings Change advanced sharing settings Page 61 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Main configuration N L 5 Right mouse click on the targeted network adapter icon and select Properties Ww Local Area Connection ee Llektral SE Marvell Yukon 88EB072 PCLE Gi 9 6 Select Internet Protocol Version 4 TCP IPv4 and click on Properties Connect using Marvell Yukon 88E8072 PCI E Gigabit Ethemet Controller This connection uses the following items 5 amp Client for Microsoft Networks da Virtual PC Network Filter Driver JE QoS Packet Scheduler i File and Printer Sharing for Microsoft Networks wi ntem
122. he connected socket and determines 10000 whether the connection is still up and running or if it has broken Range of values 1 2147483647 milliseconds 0 disabled TCP No delay Controls TCP packet batching No Log RAW Enables to log RAW Yes Log IP Enables to log IP Yes Page 159 of 220 Enilit User Manual 15 03 Enilit RTU software Slave protocols 4 11 2 2 Client parameters Main Client Name New 104 client Enabled on start Yes IEC 104 Time Quts T1 15 T2 10 30 1 W Common address size 2 Cause of transmisition size 2 Allowed clients IP 1 127 0 0 1 IP 2 192 168 1 63 IP 3 192 168 1 34 IP 4 IP 5 IP IP 7 IP 8 Logging Log APCI Yes New IEC104 client Enabled on start address size Client name For example IEC 104 client Enables or disables client on start Values No Yes Acknowledgement time out 1 Range of values 1 600 seconds Acknowledgement time out 2 Range of values 1 600 seconds Connection test timeout Range of values 1 600 seconds Maximum number of unacknowledged I format ADPU s Range of values 1 32 767 After how many I frame APDU s acknowledgment is needed Range of values 1 32 767 Common address size Values 1 2 Page 160 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols Cause of Cause of transmission size transmis
123. ice is OK running Manually reset device by 3 Push button Reset pushing 4 Connection terminals Watchdog Socket to connect LCD 5 VGA socket VGA monitor Page 20 of 220 p C RTU User Manual 15 03 Enilit RTU Hardware Central processor unit module CPU p N L Socket to connect 6 USB socket USB1 USB4 keyboard mouse USB stick and etc Serial communication Connect others RTUs or 7 1 12 interface socket RJ protection devices 45 Ethernet communication Connect control centers or 8 ETH1 ETH3 interface socket RJ protection devices 45 Note If Error and Error2 LEDs lights up and RUN LED is OFF that means CPU error or system is starting oe Page 21 of 220 Enilit RTU User Manual 15 03 Enilit RTU Hardware Central processor unit module CPU p N L 3 5 1 Serial communication interface RJ 45 The CPU 3x has 12 serial communication ports The CPU 7x has 8 serial communication ports The serial communication interfaces RS232 or RS422 485 15 designed as 8 pole RJ45 connector with integrated LEDs CPU module RJ 45 COM connector pin assignment for RS422 485 Designation RX RB 2 3 pins should be TB linked together iz RA 5 6 pins should be TA linked together Pin Position gt 7 m 5 6 E 3 P a RTU side b Cableside Figure 5 RJ45 connector
124. ied 1 Range of values 0 65535 Modbus type Modbus data type Read coil Values 1 Read coil 2 Read discrete input 3 Read holding register 4 Read input register Data subtype Available only if Modbus type is Read holding register or Read input register Available data subtypes 16 bits unsigned B1B2 16 bits unsigned B2B1 16 bits signed B1B2 16 bits signed B2B1 32 bits unsigned in one register B1 B2B3B4 32 bits unsigned in one register B4B3B2B1 32 bits signed in one register B1B2B3B4 32 bits signed in one register B4B3B2B1 Page 134 of 220 p N RTU User Manual 15 03 ENIC Enilit RTU software Master protocols 32 bits unsigned in two register B1B2B3B4 32 bits unsigned in two register B4B3B2B1 32 bits signed in two register BI B2B3B4A 32 bits signed in two register B4B3B2B1 32 bits float in one register B1 B2B3B4 32 bits float in one register B4B3B2B1 32 bits float in two register B1B2B3B4 32 bits float in two register B4B3B2B1 Inversion of command Values No Yes Invert Calculations Calculation of status item No conversion New Value Old value Scale Offset2 Status points Command points ID Addr Type Sub Invert 5 Value Time Quali Cause Tag 1 100 Read Yes 0 0 00000 Not 2 200 Read discrete input 0 0 00000 Not defi 300 Read holding regis
125. imulator data point popup menu Manual change Mame Float Value 0 Cause Not defined v Quality Not Init Invalid Time Blocked Substituted Time Topical Clock failure Invalid Substituted Overflow Close Set Value Figure 88 Manual change type dialog With manual change type you can simulate also Cause of transmission and Quality of data point Cause of transmission can be Not defined Initialize Periodic Background Spontaneous General Interrogation Requested Control local Control remote Disconnected source Disabled source Deleted source Test mode Calculated Quality values can be in the range Not Init Blocked Not Topical Invalid Substituted Overflow Invalid Time Substituted time Clock failure Page 145 of 220 RN Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L 4 10 10 RP 570 configuration 4 10 10 1 Communication port parameters Baud rate Serial port baud rate mall Range of values 110 921600 Com port Communication port number For example with default value will be used COMI Range of values 1 255 Data bits Serial port data bits Values 7 8 bits Parity Serial port parity mE Values None Odd Even Mark Space Stop bits Serial port stop bits na Values 1 1 5 2 bits Port enabled Port enabled on system startup undi Values
126. internal use Range of Values 65535 Hardware Tags tree and double point signal parameters Hardware tag name For example Item DPSI Length 1 255 Item DPSI DI input OFF Allows connecting hardware tag to binary input Not set For example Slot 13 DI 04 DI input ON Allows connecting hardware tag to binary input Not set For example Slot 13 DI 05 00 delay OFF delay Delay on stable state after which the hardware tag is set to OFF 100 ms Range of Values 0 1000 Intermediate Delay on stable state after which the hardware tag is set to Jammed both inputs are not active 100 ms Range of Values 0 1000 Page 77 of 220 RTU User Manual 15 03 Enilit RTU software Hardware configuration ON delay Indeterminate 11 delay Time tagging Start Inverse Tag Name Delay on stable state after which the hardware tag is set to ON 100 ms Range of Values 0 1000 Delay on stable state after which the hardware tag is set to Undefined both inputs are active 100 ms Range of Values 0 1000 Type of tag timestamp Event can be with start or end of filtering timestamp Range of Values Yes No Invert of hardware tag Range of Values Yes No Hardware tag connection to Tag manager Tag manager tag name Page 78 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration
127. it B p stval sT Figure 78 Add new data points from IEC 61850 ICD file If you choose to Add new data points manually you will see following dialog box You must enter information like Logical device Logical node Data object Functional constraint Data attribute Time attribute Quality attribute Invert and Value variables Page 127 of 220 See da Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p L Main ID 1 LDevice 01 RET6 0LD0 LNode LLM DATA Mod FC CO DA Value Oper origin orCat DA Time DA Quality Calculations Invert Offset 1 Scale Offset 2 LDevice Logical Device Figure 79 Add new data points manually IEC 61850 LDevice Logical device name of IEC 61850 structure For example System LNode Logical device node of IEC 61850 structure Each logical device contains one or more logical nodes A logical node is a named grouping of data and associated services that is logically related to some power system function For example LLNO These Data Names are determined by the standard and are functionally related to the power system purpose For example DPC FC Functional constraints for status ST attributes substituted value SV attributes description DATA Data object name of IEC 61850 structure Each logical node contains one or more elements of Data Each element of data has a unique name Page
128. l 15 03 Enilit RTU software Programmable logic IsaGRAF p N L 1 Ret_TimeStamp Timestamp of command acknowledgement Data type LINT Ret_ Ack Acknowledgement positive or negative Data type BOOL Figure 119 Create Event LINT Creates integer event Variable Output of Event to RTU Value Value of event Quality Quality of event Create Enable or disable event creation ERN Data type BOOL Figure 120 Create Event LREAL Creates float event RTU User Manual 15 03 Enilit RTU software Programmable logic IsaGRAF p V L Variable Output of Event to RTU Data type ENILIT OUT EV LREAL Value Value of event Quality Quality of event Create Enable or disable event creation Data type BOOL Figure 121 E Get TimeStamp Gets timestamp of RTU TimeStamp TimeStamp of RTU Data type LINT Figure 122 Wait Command LINT Waits integer command Variable Input of command from RTU Data type ENILIT OUT COACK LINT Page 189 of 220 e m Enilit RTU User Manual 15 03 Enilit RTU software Programmable logic ISaGRAF p V L ID Commands identification number Data type UDINT Value Value of command ERN Data type LINT TimeStamp TimeStamp of command um EN Data type LINT Type Type of command LUN Data type BYTE SubType Type of command activation deactivation Data type BY TE Test Command with test flag RENE Data type BOOL IsComman
129. l Name New application layer Enabled on start No TEC 101 Main Common address 1 Object address size 3 Object address structure Unstructured Max Frame size 250 End of init Yes Interrogation Interrogation command response Time differnce 10000 Clock Allow syncronization No UTC Yes Time differnce 1000 Day of Week Yes Summer time Yes Hour change No Cycles Periodic 10 Background 60 Buffers Event buffer Classi size 1000 Event buffer Class overflow Remove first Overflow IQA Classi 0 Event buffer Class size 1000 Event buffer Class overflow Remove first Overflow IOA Class2 0 Other 50 Yes Logging Log DUI Yes Log 10 Yas App Name Application layer name New application layer For example SCADA 1 Enabled on start Enables or disables data link on start Values No Yes Common address Common address of data unit Range of values 1 254 Object address size Size of information object address field 3 Range of values 1 3 Object address Object address structure shows in what format Unstructured structure information object address 1s entered in configuration E Page 151 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols Max Frame size End of init Interrogation command response Commands Time difference Allow synchronization Time difference Day of Week Summer time Hour change Range of values Unstructured Structured 8 8
130. link rate CPU 255 Empty Led Errorz Blink rate 5 Empty Led Error Blink rate CPU 255 Empty Led Run Blink rate no CPU 0 Empty H Empty Time out with CPU 10 Empty Watchdog relay time out 20 Hardware Points Watchdog COM ports 3000 Figure 46 CPU parameters Field name Default value Lice ale 1 3 Ll RR _ Barcode of installed card 5 Page 69 of 220 MON Enilit User Manual 15 03 Enilit RTU software Hardware configuration p N L Led Errorl Blink rate no CPU Led Error2 Blink rate Led Error2 Blink rate no CPU Led Run Blink rate no CPU Time out with CPU Watchdog relay time out Watchdog COM ports 4 9 3 Card Slots Led Error blink rate in 100 ms when there is no 255 communication with CPU Range of Values 0 255 0 means always OFF Led Error2 blink rate in 100 ms 5 Range of Values 1 254 Led Error2 blink rate in 100 ms when there is no 255 communication with CPU Range of Values 0 255 0 means always OFF Led Run blink rate in 100 ms when there is no communication with CPU Range of Values 0 255 0 means always OFF Communication time out with CPU in 100 ms Time when no activity got from Main CPU Range of Values 10 255 Watchdog relay time out in seconds Time when 20 no activity got from Main CPU Operating system or Main program not running or loading Ran
131. lot 13 DI 04 Allows connecting binary input used for Not set multipoint status sign For example Slot 13 DI 04 Delay on stable state before changing tags value in 100 ms Range of Values 0 1000 Type of tag timestamp Event can be with start or end of filtering timestamp Range of Values Yes No Offset value for conversion Range of Values 0 100 ERN Scale value for conversion Range of Values 0 100 Hardware tag connection to manager Tag manager tag name Page 80 of 220 IDEM Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p N L 4 9 5 4 Single command parameters la Enilit RTU Hardware RTU E I Card Slots NI Hardware Points 5 18 Name 1 Item MES1 Item SPC1 Logi Inverse No Command Short pulse 10 Long pulse 1 Type Short pulse Connection DO Output Slot 11 BO 01 Tag connection Tag Name Feeder 1 Command 5 Name SPC tag name 1 255 Figure 57 Hardware Tags tree and single command parameters Long pulse Long pulse length in seconds 1 Range of Values 1 600 Short pulse Short pulse length in 10 milliseconds 10 ME Range of Values 10 6000 Type If command got with unknown or undefined type it will be overridden with this type of pulse Range of Values Pulse short Pulse long Persistent ID Identification number of hardware tag Only for Depends on tag i
132. lue short floating point value Calculations Calculation of status item No conversion New Value Old value Offset1 Scale Offset2 Page 112 of 220 __ Enilit User Manual 15 03 Enilit RTU software Master protocols p NS L Invert Inversion of signals Type 1 and Type 2 Values No Yes il Create new command pol Main IEC Type Single command TOA 1 IOA Increment 1 Calculations Offset 1 Scale Offset 2 Invert IEC Type IEC 60870 type of point Cancel Add Close Add Figure 71 Add new command points IEC 60870 5 101 Information Here the information address can be specified 1 address Range of information address depends from Application layer parameter Information object address length Range of values 0 16777215 IEC Type IEC 60870 5 101 command type single Command Values single command Double command Regulating step command Setpoint normalized command Setpoint scaled command Setpoint short float command Bitstring command Calculations Calculation of status item No conversion New Value Page 113 of 220 Nr RR s RTU User Manual 15 03 Enilit RTU software Master protocols Invert EM Old value Offset Scale Offset2 Inversion of command Values No Yes Main ID Port Name Enabled on start Communication Ethernet port Server Name or IP TCP port Redundancy Redundancy
133. m failure to avoid damage injury or death the user or application designer must take reasonable steps to protect against system failure including but not limited to back up or shut down mechanisms not because end user system 1s customized and differs from UAB Enilit testing platforms but also a user or application designer may use UAB Enilit products in combination with other products These actions cannot be evaluated or contemplated by UAB Enilit Thus the user or application designer is ultimately responsible for verifying and validating the suitability of UAB Enilit products whenever they are incorporated in a system or application even without limitation of the appropriate design process and safety levels of such system or application 2 7 Guarantees Page 12 of 220 __ Enilit User Manual 15 03 Safety Copyright p NS L UAB Enilit guarantees that the information in this document is accurate The document has been carefully reviewed for technical accuracy In the event that technical or typographical errors exist UAB Enilit reserves the right to make changes to subsequent editions of this document without prior notice to holders of this edition The reader should consult UAB Enilit if errors are suspected In no event shall UAB Enilit be liable for any damages arising out of or related to this document or the information contained in tt The media on which you received UAB Enilit software are g
134. monitoring tool Port monitor Page 200 of 220 IDEM Enilit RTU User Manual 15 03 Enilit RTU software Self control and diagnosis p N L New Data Link Layer Ctrl N Delete Port Del Port enabled Show port monitor Figure 134 Communication port popup menu Next figure shows this window in which you can view receiving and transmitting data through communication port This window is for IEC 60870 5 103 protocol but you can use it for all serial or TCP protocols even for SNTP um Monitor COMT IEC 103 master protocol 10 49 02 4B RES Palse EBM Irue ECU False Punction 9 Status Tx Link Addresz z TE Check Fum 75 ERS Answer time out Hr 4 TE gt gt 10 49 01 TE gt gt RES False 1 Poy Funetion 9 Status gt gt Link Addreszs 1 gt gt Check Sium 735 ERS Answer time nut Hr 4i7 gt gt 10 43 0 3B 1 gt gt RES3 Falzsze EBM True i Eunctinn 53 Status TE gt gt Link Addresz z TE gt gt Check Fum 75 lt lt Answer time nut i TX gt gt 10 49 01 4 1E gt gt 1 PRH Troe FPCE FPalse FCV PFPalse 0 9 Status TE gt gt Link Addreszs 1 TE gt gt Check Jum 7T4 ERS Answer time out Hr 46 TH gt gt 10 45 0 3B 16 TE gt gt RES False EBM TIrue 1 POV Palse Punction 9 Status gt gt Link Address 2 TE gt gt Check Sum 75 cn
135. mpty Empty Empty Ww 09 M O8 QD Ro NS OOOOOOOOOOOOOOOOOOOOOOOO T O O O O O O O O O O O O O O O O O configured and working or not configured and empty ze configured but found another type of card not configured but found configured and not working Figure 132 Hardware state window Page 198 of 220 se Enilit RTU User Manual 15 03 Enilit RTU software Self control and diagnosis N L Configured and working or not configured and empty Not configured but found NI Configured but found another type of module Configured and not working 4 16 1 1 Status signals commands and measurements Hardware status can be monitored via communication protocols You can connect hardware status signals to tags with Tag Manager you can control also hardware with commands from SCADA Following figure shows Hardware status signals commands and measurements window Connect TAG to datasource HEI Master Client protocols RTU 8 Slave Server protocols Card Slots 18 RTU Hardware BL Slot 1 Power supply B PLC fl Connected Mg Voltage zm Slot 3 Power supply ima Connected 18 voltage cn Slot 6 CPU a Connected Enable p Wrong Card Type Temperature Wg WatchDog State jla Led State ii Led2 Control zm Slot 10 AF31 Analog Input Ri Connected ZI
136. munication protocols 60870 5 101 EC 60870 5 103 60870 5 104 DNP3 serial IEC 61850 IEC60870 5 104 DNP3 TCP IP SPA BUS DNP3 e IEC 61850 e ModbusRTU ASCH s Jnana Modbus RTU IEC60870 5 103 Modbus TCP OPC DA2 e RP 570 e OPC DA2 Data transmission in its standard form takes place via IEC 60870 5 101 protocol symmetrical and asymmetrical procedure Protection equipment can be connected via IEC 60870 5 103 Modbus RTU DNP3 IEC 61850 and RP570 protocols Network interfaces enable communication via IEC 60870 5 104 DNP3and Modbus TCP protocol Automation tasks can be integrated by means of the optional PLC functionality according to IEC 61131 3 Page 14 of 220 Enilit RTU User Manual 15 03 Enilit RTU Hardware Rack mounting and Frame N L Configuration and management can be carried out either locally via the software or via network fromremote computer 3 2 Rack mounting and Frame 3 2 1 Basic frame Enilit RTU frame consists of a metal housing an internal bus system and plug in system components A standard RTU includes at least a power supply module and a central processor module Maximum number of 12 slots for I O and communication modules 15 available 482 6 mm A ire e oe ta e o x er h re e Figure 1 Front view Page 15 of 220 TEE um cR RTU
137. n e Reboot e Attempted use of unauthorized configuration software 4 18 5 Configuration software The Enilit RTU has an authentic configuration software It could be configured with any software except supported by UAB Enilit ENILIT RTU configuration software has the ability to assign features to specific users At a minimum the following functions and features could be assignable on an individual user basis e View Configuration Data in this mode a user can only view configuration data No changes to the configuration can be made e Change Configuration Data in this mode the user can change and save configuration data to be uploaded to the Enilit RTU at a later point in time e Full Access in this mode all functions including password changes and user assignment levels can be made Page 217 of 220 UN coa cc ee Enilit RTU User Manual 15 03 Enilit RTU software Cyber security capabilities p N L The configuration software is password controlled so that the software cannot be accessed without the proper password All communications ports other on the Enilit RTU have the capability to be enabled or disabled through configuration of the Enilit RTU When disabled through configuration no communications will be possible through that port Page 218 of 220 Ncc m Enilit RTU User Manual 15 03 Abbreviations Cyber security capabilities ADU APDU CMS CPU CS DPC DPS G
138. n control of I O modules acquisition and archiving of process information and execution of PLC programs The following central Processor Modules are available in the standard versions Module Communication interfaces CPU 3x 3 Ethernet RJ45 12 Serial links RJ45 CPU 4x 4 Ethernet RJ45 12 Serial links RJ45 3 3 3 Modules Depending on the scope of process data it 1s possible to fit the free slots with the necessary I O modules irrespective of the signal type The following I O modules are available Page 17 of 220 NUN ge As Enilit RTU User Manual 15 03 Enilit RTU Hardware Additional features p N L Digital input DI 11 24VDC 110VDC Digital input DI 31 Digital input DI 41 2 220VDC Digital output DO 31 DC13 250 VDC 0 2A 20 mA to 20 mA Analogue input AI 31 12 or 10V to 10 V Fiber optic module ST 61 6 6 x FO ST type 3 4 Additional features O 24 Digital input 60VDC 24 4 4 External VGA compatible monitor keyboard and mouse for RTU monitoring management and configuration External Touch Screen monitor for one or several feeders visualization and control HMI Computer with SCADA for local substation management Protocol converter gateway Page 18 of 220 ee ee s Enilit RTU User Manual 15 03 Enilit RTU Hardware Central processor unit module CPU p N L 3 5 Central processor unit module CPU There are seven typ
139. n diagnostic port with a test set or personal computer or remotely through a communications media is password protected It is not possible to gain access to the device without a proper password that has been generated by the user 4 18 2 1 Password defeat mechanisms The Enilit RTU has no means whereby the user created password control can be defeated or circumvented This includes such mechanisms and techniques such as e Vendor embedded master password Chip embedded diagnostic routines made accessible by hardware or software failures e Hardware bypass capabilities such as jumpers and switch settings The UAB Enilit guaranties that no such mechanisms exist which would allow circumvention of the user created password control Page 213 of 220 UN coa cc ee Enilit RTU User Manual 15 03 Enilit RTU software Cyber security capabilities p N L 4 18 2 2 Number of individual password supported The thousands of unique user access passwords could be created 4 18 2 3 Password construction User created passwords follow a set of rules which must be adhered to in the creation of each password A minimum of 8 characters is used The password characters should contain the following e At least one uppercase and one lower case letter e At least one number At least one non alphanumeric character e g amp Any attempt to create a password which violates these rules is captured at the time of attempte
140. n size Frame size Timeout of I frame Range of values 1 600 seconds BEEN Common address size 2 Range of values 1 2 bytes ERN Cause of transmission size Range of values 1 2 bytes Maximum frame size All start stop checksum 255 and other bytes are included Range of values 50 255 bytes Log Application Protocol Control Information Yes Values No Yes Page 117 of 220 Ursa otc Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L 4 10 3 3 Application layer parameters Main ID 11 Application Name New Application Enabled on start No IEC 104 Main Common address 1 Orginator 0 Object address size 3 Object address structure Unstructured Additional Auto add Yes Allow same IOA No Cyclic start Yes BO IDA 0 IEC 104 Commands Wait COT termination Use IEC 104 Interrogation Time Out IC Reconnect Status Point not topical Interrogation general Interrogation group 1 Interrogation group 2 Interrogation group 3 Interrogation group 4 Interrogation group 5 Interrogation group 6 Interrogation group 7 Interrogation group amp Interrogation group 9 Interrogation group 10 Interrogation group 11 Interrogation group 12 Interrogation group 13 Interrogation group 14 Interrogation group 15 Interrogation group 16 Application name Application layer name New Application link layer For
141. ncy withstand voltage 4 4 1 2 50 us 0 5 J Surge voltage Page 30 of 220 i _ Enilit RTU User Manual 15 03 ENIC Enilit RTU Hardware Digital Output Module 3 8 Digital Output Module The digital output module serves for the processing of up to 24 digital outputs 1 2 Figure 11 Digital output board front and side view No Explanation Function LED indication LED 1s ON output is active LED indicators for Digital output LED is OFF output is inactive each digital output status ALL LEDS are blinking together no connection with CPU or digital output board error 2 Connection terminals Page 31 of 220 oe ee a Enilit RTU User Manual 15 03 Enilit RTU Hardware Digital Output Module N L 3 8 1 Wiring diagram Function Function Enilit RTU DO lo EE M ZZ External device control coil MEN ji rp SEI DO10 10 py p DO12 5 External d coils noe DO16 DO17 a Hint M DO19 Jovice Ez m c Figure 12 Digital output board wiring diagram Page 32 of 220 IDEM a Enilit RTU User Manual 15 03 Enilit RTU Hardware Digital Output Module N L 3 8 20 Technical Data Galvanic isolation from system electronics Yes optocoupler of the channels from one another Yes Switching capacity 16 A 250 V AC
142. nge of values 86400 seconds Day of Week In request with timestamp use Day of Week bit Values No Yes summer time In request with timestamp use Summer time bit Values No Yes Allow Enables or disables clock synchronization synchronization Values No Yes In requests and responses use UTC time Values No Yes Generic Generic data request refresh rate Range of values 500 600000 ms command Log header Log headers of frames in protocol log Values No Yes Page 94 of 220 C NE Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Log configured information objects to protocol log Values No Yes Log IO not Log not configured points to protocol log configured Values No Yes 4 10 1 4 Points Application layer has Points branch You can manage here signals measurements from controlled device and commands to controlled device You can add points manually or use the function Auto add in the application layer which will add all data points to the list You must add commands manually anyway hence commands doesn t include in General Interrogation Following figure shows points popup menu which you can run with right mouse button You can Add status point Edit status point Delete status point Select All status points or commands Also you can Connect or Remove connection to the Tag You can Remove connection to source also from Tag Manager All men
143. nnect timeout Connect timeout to SNTP server Range of values 60 seconds Synchronization period The time period to make synchronization Range of values 1 86400 seconds SNTP server response Response timeout after request has been timeout sent Range of values 86400 seconds Reconnect timeout Reconnect timeout if connection before was failed Range of values 1 86400 seconds Delete SNTP client client enabled Show monitor Figure 129 SNTP client popup window With the Show monitor you can open diagnostic tool for communication with SNTP server The following window shows Time management monitor window Page 196 of 220 Ursa otc Enilit RTU User Manual 15 03 ENIU Enilit RTU software Time management um Monitor Time managment W Enabled 13 17 17 311 13 17 17 311 13 17 17 311 13 17 17 311 13 17 17 311 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 312 13 17 17 212 13 17 17 312 M Log to file Ho warning Iw Follow Leap indicator Version number Mode Client dtratum unspecified nr unavailable 0 Pool interval 4 sec O 0009765625 sec sec WIP version 3 Precision Root delay Root dispersion 0 sec HULL 2014 01 31 0B 41 22 25252E HULL HULL Reference identifier stamp stamp stamp Reference time Orginate time Receive time 13 17 217 3312 13 17 17 312 13 17 17 312 13 17
144. no Ethernet connections serial will be selected Even if serial selected by default 115 200 kbs speed it 1s possible to transfer about 500 events per second between RTU s On request speed can be increased for serial connections 4 17 4 Enilit RTU redundancy principles Enilit redundancy system consists of two RTU s One of it 1s called Active and another Standby At any time there can be only one Active RTU The Active RTU 1s responsible e data acquisition from slave and server devices e command transmission to slave and server devices e PLC calculation e process information transmission to upper communication levels process information transmission to Standby RTU The Standby RTU 1s responsible e data acquisition from Active RTU process information transmission to upper communication levels e monitoring of connections to Active RTU If Standby RTU is healthy and running it receives all process information from Active RTU so it can transmit all necessary data to upper communication levels No matter how many redundant connections are configured between Active and Standby RTU s if there at least one connection healthy Standby RTU knows that Active RTU is running correctly If there are no connections between Standby and Active RTU Standby RTU changes its state to Active The switchover can be also executed manually In this case the Page 208 of 220 i P Enilit RTU User Manual 15 03 Enilit RTU
145. nternal use Range of Values 1 65535 Name Hardware tag name Item SPCI For example Item SPC1 Length 1 255 DO output Allows connecting hardware tag to digital output Not set For example Slot 11 DO 01 Page 81 of 220 ee ee Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration Inverse Tag Name ENIC Invert of hardware tag Range of Values Yes No Hardware tag connection to Tag manager Tag manager tag name 4 9 5 5 Double command parameters Wh Enilit RTU Hardware RTU Card Slots Hardware Points 13 Name Item DPC1 Logic Inverse Command Short pulse 1 Long pulse 1 Type Short pulse Connection DO Output OFF DO Output ON Tag connection Tag Name No Slot Slot 11 04 11 DO d5 Feeder 1 Command DC Name DPC tag name 1 255 Figure 58 Hardware Tags tree and double command parameters Long pulse Short pulse lype Long pulse length in seconds Range of Values 1 600 Pulse short Short pulse length in 10 milliseconds Range of Values 10 6000 If command got with unknown or undefined type it will be overridden with this type of pulse Range of Values Pulse short Pulse long Persistent Identification number of hardware tag Only for internal use Range of Values 1 65535 Depends on tag gt o
146. ntly logged user save Ctrl S save Project Manager configuration Edit Project About Create branch Ctrl N Create project Add D elete Del Figure 40 Edit menu Menu item Description Create branch CtrI N Create branch in tree Create project Create Project in the selected branch Add RTU Add RTU to the selected project Delete branch project or RTU Project About Start project Edit RTU configuration Show Project directory Goto to startup project Check projects Import project Export project Figure 41 Project menu Start Enilit RTU CMS with the selected project Edit RTU configuration Edit Enilit RTU configuration with CMS Show Project directory Opens project directory Go to startup project Selects startup RTU the projects tree Check projects Validates projects Import project Import project from ezip file Enilit ZIP o o NS Page 59 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Project manager p V L Export project Export project to ezip file Enilit ZIP 4 7 2 Import project With the Import project feature you can import project from external network or other storage Import project Destination directory D Projects Enilt new Projects Project file D Projects Enilit Test ezip New project name Test Figure 42 Import project window 4 7
147. nts Command points I IEC Type 14 10001 Single command 0 15 10002 Single command 0 16 10003 Double command 0 Figure 69 IEC 60870 5 101 command points table Following figure shows Add new data points IEC 60870 5 101 protocol You can use very useful function Auto increment by 1 For example you need to configure some points with information addresses in interval 1001 and 1010 You can configure first point with 1001 address and then check the checkbox Auto Page 111 of 220 mE am Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L increment by 1 Then you can click Add button and in this case it will not close the dialog but automatically configure information address with 1002 So you will get 10 points with only 10 mouse clicks Main IEC Type Step position IOA IOA Increment 1 Calculations Offset 1 Scale Offset 2 Invert IEC Type IEC 60870 type of point Cancel Add Close Add Figure 70 Add new data point IEC 60870 5 101 Information Here the information address can be specified 1 address Range of information address depends from Application layer parameter Information object address length Range of values 0 16777215 IEC Type IEC 60870 5 101 data type Single Point Values Single point Double point Step position Bit string of 32 bits Measured value normalized value Measured value scaled value Measured va
148. often to send station interrogation command Range of values 1 3600 seconds Interrogation Cycle time of General Interrogation to general controlled device Range of values 1 86400 seconds Interrogation group Cycle time of Group Interrogation to the controlled 0 disabled Group 1 16 device Interrogation Range of values 0 86400 seconds Page 108 of 220 IDEM M 4 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L IEC 101 Counter Interrogation Time Out CI Counter Interrogation general Counter Interrogation group 1 Counter Interrogation group 2 Counter Interrogation group 3 Counter Interrogation group 4 IEC 101 Clock Time Out CS Allow synchronization Clock synchronization UTC time Day of Week Summer time IEC 101 Delay Acquisition Acquisition delay Time Qut CD IEC 101 Test Use for test T5 1 Test FBP Time Qut TS IEC 101 Reset Process Time Out RP IEC 101 File Transfer Enabled Dir on connect Receive files Segment size Logging Log header Log IO Log IO Mot configured Timeout CI Timeout for Counter Interrogation requests Range of values 0 3600 seconds Counter Cycle time of Counter Interrogation to the 0 disabled Counter Interrogation controlled device Interrogation general Range of values 0 86400 seconds Counter Cycle time of Counter Interrogation group to the 0 disabled Counter
149. ogrammable logic ISaGRAF N L Start TCP communication with remote for No debugging and diagnosis Values No Yes Hidden Start Isagraf modules hidden Yes Values No Yes IE Minimized Start Isagraf modules minimized Values No Yes Port enabled Enables programmable logic IsaGRAF port Values No Yes New Branch Ctrl M Mew Resource Ctrl R New input New output Delete Open Isagraf workbench Build Isagraf solution Start ISAGRAF Add connection to Tag Remove connection to Tag Goto connected Tag Figure 114 Popupmenu window Creates new output from the Isagraf Delete Enables to delete branch resource input or Everywhere output Open Isagraf Open the integrated programmable logic Everywhere workbench environment saGRAF by selecting this menu item Build Isagraf Build saGRAF program Everywhere solution Start ISAGRAF Starts JsaGRAF runtime Page 183 of 220 _ ce c ee Enilit RTU User Manual 15 03 Enilit RTU software Programmable logic ISaGRAF N L Add connection Enables to connect input or output to the Tag Inputs outputs to Tag from the Tag manager Remove Enables to remove Tag connection Inputs outputs connection to Tag Go to connected Goes to the connected Tag in the Tag manager Inputs outputs IsaGRAF is IEC 61131 open control software for automation For more information on all operating functions of saGRAF pl
150. ommand data Result will show response from controlled device Page 136 of 220 IDEM Enilit RTU User Manual 15 03 ENIC Enilit RTU software Master protocols 4 10 6 Modbus TCP client 4 10 6 1 Communication port parameters Main Port Name Enabled on start Modbus Allow multiple ADU Max ADU size Max TCP RX buffer Max TCP TX buffer Max Transactions Communication Ethernet port Madbus Server TCP IP port Connect Timeout Response timeout TCP Keep Alive TCP No delay Next request Logging Log raw data Log MBAP header New Modbus TCP master protocol No Yes 260 1024 1024 16 All ETH 127 0 0 1 50 3000 1000 1000 Yes 10 Port name Enabled on start Allow multiple ADU Max ADU size Max TCP RX buffer Max TCP TX buffer Max transaction Name of the port and protocol New Modbus TCP master For example TCP Modbus client protocol Port enabled on system startup Values No Yes Allow multiple ADU in one TCP frame Values No Yes Maximum ADU size Range of values 20 260 bytes Maximum servers receive buffer size Range of values 300 10000 Maximum clients transmit buffer size Range of values 300 10000 Maximum transaction on the same time Range of values 1 16 Page 137 of 220 ITE ERES Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p V L Ethernet port Which Ethernet por
151. onds Page 119 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L If application layer is not connected how often to send station interrogation command Range of values 1 3600 seconds Interrogation Cycle time of General Interrogation to general controlled device Range of values 1 86400 seconds Interrogation group Cycle time of Group Interrogation to the controlled 0 disabled Group 16 device Interrogation Range of values 0 86400 seconds IEC 104 Counter Interrogation Time Out CI Counter Interrogation general Counter Interrogation group 1 Counter Interrogation group 2 Counter Interrogation group 3 Counter Interrogation group 4 IEC 104 Clock Time Out CS Allow synchronization Clock synchronization UTC time Day of Week Summer time IEC 104 Delay Acquisition Acquisition delay Time Qut CD IEC 104 Test Use for test C TS 1 Test FBP Time Out TS IEC 104 Reset Process Time Qut RP IEC 104 File Transfer Enabled Dir on connect Receive files Segment size Logging Log header Log IO Log IO Mot configured Timeout CI Timeout for Counter Interrogation requests Page 120 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p IN L Counter Cycle time of Counter Interrogation to the 0
152. or open a saved connection 4 Click on Connect 5 Enter your log in credentials of a user account on the Enilit RTU that is allowed to do a remote desktop connection Page 66 of 220 NU Irun ee a RTU User Manual 15 03 Enilit RTU software Main configuration N L Enter your credentials These credentials will be used to connect to 192168 1 249 Enilit Password Use another account Remember my credentials Cancel Default username EnilitRemote Default password Enilit123 o Page 67 of 220 ms RTU User Manual 15 03 ENIU Enilit RTU software Hardware configuration 4 9 Hardware configuration The main Hardware configuration window looks like following figure Left side you will see RTU Card Slots and Hardware Tags trees In the Card Slots you can configure which module is mounted on the particular slot Hardware Tags enables you to configure signals measurements commands and counters items and connect it to the RTU hardware In the right pane you will see selected branch items parameters iffa Enilit RTU Hardware c ll RTU Card Slots Slot 1 Power supply Slot 3 Power supply Slot 6 CPU Slot 10 AL 31 Analog Input Extended Slot 11 DO 31 Digital Output H Log Slot 12 Empty l Event count Slot 13 01 31 Digital Input History days Slot 14 ST 61 Fiber optics Slot 15 Slot 16 Slot 17 Slot
153. ptical cover of the screen gt 80 to VDE0815 VDE0816 shall be used The cable shield has to be laid planar on a bonding jumper earth circuit connector central earthing point 2 3 Decommissioning and disposal 2 3 1 Decommissioning The auxiliary supply circuit in the Enilit RTU may include capacitors across the supply or to earth To avoid electric shock or energy hazards after completely isolating the supplies to the Enilit RTU both poles of any dc supply the capacitors should be safely discharged via the external terminals prior to decommissioning 2 3 2 Disposal It is recommended that incineration and disposal to watercourses be avoided The product should be disposed of in a safe manner Any products containing batteries should have them removed before disposal in order to avoid short circuits Particular regulations within the country of operation may apply to the disposal of lithium batteries 2 4 Declaration of conformity Device being the subject of this instruction was constructed and prepared and it 1s manufactured for the purpose of use in industrial environment At device constructing and manufacturing were complied with such norms which fulfilling is being ensure the realization of specific rules and precautions provided that Page 10 of 220 Enilit RTU User Manual 15 03 Safety Handling of electronic equipment p IN L the user obeys the given guidelines of device inst
154. r to the IEC 101 paragraph Points The configuration is very similar 4 10 8 DNP3 UDP TCP IP client configuration 4 10 8 1 Communication port parameters Port TCP port 2404 Range of values 1 65535 IPv4 address of the host 127 0 0 1 Master address RTU s master address 1 Range of values 0 65535 bytes Page 141 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Slave address IED slave address Range of values 0 65535 bytes Reconnect If the connection is broken cycle time of reconnection Range of values 1 600 seconds Connection timeout Range of values 1 600 seconds UDP Use UDP or TCP type No TCP Yes UDP Port enabled Enables or disables communication port on start lll Values No Yes Port name Port name New communication port name unl For example 104 master 172 29 37 113 4 10 8 2 Application layer parameters Time UTC Use UTC time in communication Yes Time Cycle time of clock synchronization to the synchronization controlled device Range of values 1 86400 seconds Use time Enables or disables clock synchronization synchronization Values No Yes Application DNP3 application layer answer timeout 10 seconds timeout Range of values 0 255 seconds Class 0 pooling Period of class 0 data pooling 1800 seconds 0 no pooling Range of values 0 3600 seconds Application layer Application layer n
155. rily Each module incorporates the highest practicable protection for its semiconductor devices However if it becomes necessary to withdraw a module the following precautions should be taken in order to preserve the high reliability and long life for which the equipment has been designed and manufactured 1 Before removing a module ensure that you are a same electrostatic potential as the equipment by touching the case 2 Handle the module by its front plate frame or edges of the printed circuit board Avoid touching the electronic components printed circuit track or connectors 3 Do not pass the module to any person without first ensuring that you are both at the same electrostatic potential Shaking hands achieves equipotential Page 11 of 220 NE ee Enilit RTU User Manual 15 03 Safety Warnings regarding use of UAB Enilit products p N L 4 Place the module on an antistatic surface on a conducting surface which 15 at the same potential as you 5 Store or transport the module in a conductive bag If you are making measurements on the internal electronic circuitry of any equipment in service it is preferable that you are earthen to the case with a conductive wrist strap Wrist straps should have a resistance to ground between 500k 10M Ohms Ifa wrist strap is not available you should maintain regular contact with the case to prevent the buildup of static Instrumentation which may be use
156. rn as oe ge us beac mek SUN UNIES UNE 57 DEOIGEL EE EA A E PEAN EOE 60 Ao E EAE EEEE O E EEEE 60 AS Min 10H49 AION EN E T T EE EE 6l Page 3 of 220 l Enilit RTU User Manual 15 03 Content User manual L IN L ES e ee d uU cee ne Dp eR Ud UNES 61 452 Remote EC DIL 63 4 9 Tat Ware COMMOUE AION E PEERAA NEEE 68 AME POW CT E E 69 EE 69 NOUS NNNM Rm 70 4 9 4 Hardware items T2 ir MEE CNN 75 a NEU EISE E DEOLO CONS 90 4 10 1 lEC 60870 5 03 configuration nean EEEN EEEE EEEE EREE EEE 90 4 10 2 IEC 60870 5 101 c nfig rati N crt rtr eret ots is as ehe PER Eo EEEE 102 4 10 3 60870 5 104 114 MMC GG e 123 Z105 Modbus KIU UEM UMEN NM MEI SM Eds 131 410 60 Modbus 137 410 7 DINED Serial master COMMU AMOU erede
157. rolled device With default value it sends requests every tenth cycle Range of values 10 Ask data every This parameter is important if you have more than one controlled device on one communication port You can use it for raring data requests to the desirable device Range of values 1 10 Broken link Number of retries to determine 1f the connection is broken Range of values 1 10 Data link layer name New Data Link layer o Page 140 of 220 m ie Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p V L For example Measurements data controller Enabled on start Enables or disables data link on start Values No Yes 4 10 7 3 Application layer parameters Time UTC Use UTC time in communication Yes Time Cycle time of clock synchronization to the synchronization controlled device Range of values 1 86400 seconds Use time Enables or disables clock synchronization synchronization Values No Yes Application DNP3 application layer answer timeout 10 seconds timeout Range of values 0 255 seconds BN Class 0 pooling Period of class 0 data pooling 1800 seconds 0 no pooling Range of values 0 3600 seconds Application layer Application layer name New Application layer name name For example Application layer Enabled on start Enables or disables application layer on start Values No Yes 4 10 7 4 Points Refe
158. rrent time protection Page 96 of 220 _ ee a Enilit RTU User Manual 15 03 Enilit RTU software Master protocols Function Increment Information Information Increment Index 176 Transformer differential protection 192 Line differential protection 254 Generic function type 255 Global function type For a complete list of all function types please refer to the IEC 60870 5 103 norm Range of values 0 255 Used only for configuration After adding new status point function will be automatically incremented by set value Here the information number can be specified Ranges for information numbers in monitoring direction 0 15 System functions 16 31 Status 32 47 Monitoring 48 63 Earth faults 64 127 Short circuits 128 143 Automatic reclosing 144 159 Measured values 240 255 Generic functions Ranges for information numbers in control direction 0 15 System functions 16 31 General commands 240 255 Generic functions For a complete list of all information numbers please refer to the IEC 60870 5 103 norm Range of values 0 255 Used only for configuration After adding new status point function will be automatically incremented by set value Parameter is relevant only with IEC Type Measurement Type 3 and Type 9 Page 97 of 220 Enilit User Manual 15 03 Enilit RTU software
159. s 2 bytes DENM Common address size 2 Range of values 1 2 bytes ZEN Maximum frame length 255 Range of values 50 255 bytes Number of retries to determine if the connection 5 is broken Range of values 10 Request data every cycle 1 Range of values 1 255 ee How many times request the same data link 1 layer if there is Class events 0 request until no Class events or Class timer expires Range of values 0 255 How long request the same data link layer if there is Class events 0 time is not checked Range of values 0 255000 ms How often try to reconnect to communication port if there was error Range of values 600 seconds Page 104 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Answer timeout Allow 5 Use Status link User Data with confirm Log header Log Answer Timeout Wait timeout of response from controlled device Range of values 50 30000 milliseconds Enables or disables E5 response from controlled device Values No Yes Enables or disables use Status of link frame Yes before Reset Link is sent Values No Yes Sends User Data with confirmation request Values No Yes Log data link header Values No Yes Log data link answer timeouts to system log First Time Values Never First time Always Page 105 of 220 Ursa otc
160. s This document provides a technical overview of the Enilit RTU The document is organized as follows 1 Content This section provides a content of this document 2 Introduction This section provides short overview of this document and main Enilit RTU functions and possible applications 3 Safety This section provides safety of working with Enilit RTU system 4 Hardware This section provides an overview of the Enilit RTU hardware 5 Software This section provides an overview ofthe Enilit RTU software Note User manual for this device gives instructions for its installation commissioning and operation However the user manual cannot cover all conceivable circumstances or include detailed information on all topics In the event of questions or specific problems do not take any action without proper authorization Contact UAB Enilit office and request the necessary information 1 2 Enilit RTU The automation technology is rapidly advancing New communication techniques and devices and standard protocol interfaces combined with the immense computing power of today s hardware components open the way to new concepts in automation At the same time the growing demands of utility owners for more cost effective control systems must be met Enilit RTU is our solution for automation applications The modular and open structure of the RTU system sets wide range where it could be used e Electric power generation plants e Ele
161. s No Yes Spontaneous messages enabled Values No Yes Spontaneous Class messages class Class 1 Range of values None Class 1 Class 2 Class 1 amp 2 Class 3 Class amp 3 Class 2 amp 3 Class 1 amp 2 amp 3 Refer to the IEC 101 paragraph Points The configuration is very similar Page 171 of 220 Enilit User Manual 15 03 Enilit RTU software Tag manager 4 12 Tag manager Tag manager is intermediate software part which connects status and command points from master to slave protocols or connects hardware tags to slave protocols Either you can create here tags for internal logic or IsaGRAF programming There you can create structure of substation for easier work with tags th TAG Manager elg x File About RE Parameters From Isa EV and CO to isa To Isagraf Feeder 1 Main LI Circuit breaker ID L Double point M Measurement Command Sc Type Name Description 26 Status Integer 64 bits Double point Command D System status Feeder 2 Feeder 3 CommandInteger CommandFloat To Simul LM 104 System Status System Command Comments States State ID State Name Value State Value Time Quality Cause Data source Port ID 1 Port Name RTU Hardware Point ID 12 Point Name Hardware Points Item DPS1 Calculations Offset 1 Offset 2
162. s Events buffer size Change has only 1000 take effect after system restart Range of values 10 10000 events Event buffer If the buffer of events overflows with this Remove first overflow parameter you can select which event to remove from queue Range of values Remove first Remove last Remove all Overflow IOA Overflow information object address On buffer 0 not used overflow this IOA will be set to 1 and when there is free places in buffer it will be set to 0 When it changes to 0 controlling device should initiate general interrogation SQ Use SQ bit Recommended to use only if most Y part of information object addresses are incremented by one Values No Yes es Log DUI Log data unit identifiers es Values No Yes Log IO Log information objects Yes Values No Yes Page 163 of 220 PEN Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols 4 11 2 4 Points Status points Command points ID IEC Type 1 Single point information 55 Single point information 1000 Single point information 1001 Single point information 1002 Single point information 1003 Single point information 1004 Single point information 1005 Double point information 1006 Double point information 1007 Step position information Time Type No time Long Time 7 by Long Time 7 by Long Time 7 by Long Time 7 by Long Time 7 by Long Time 7 by
163. s Range of information address depends from Application layer parameter Information object address length Range of values 0 16777215 IEC Type IEC 60870 5 101 command type Single Command Values Single command Double command Regulating step command Setpoint normalized command Setpoint scaled command Setpoint short float command Bitstring command Value Conversion of commands No conversion Value X a b c X Value from slave device a b c free configurable variables Invert Inversion of commands Values No Yes Page 157 of 220 MT RTU User Manual 15 03 Enilit RTU software Slave protocols p NS L You can select some data points and then press Ctrl Shift N to connect all selected data points to the tags in a row If tag icon is grayed out it is not possible to connect to slave status point or command point It means if you have to choose Status point in slave protocol it is possible to connect only to status tag And if you have to choose Command point in slave protocol it is possible to connect only to command tag iff Select TAG e th Select TAG Port Mew IEC 101 slave protocol Port Mew IEC 101 slave protocol Point 100001 Al New application layer Dl New data link Point 1 A Mew application layer Dl New data link SREE Root Root c From Isa EV and CO to isa 5 88 From Isa EV and CO to isa cE Isagraf cE To Isagraf i Feeder
164. single commands double commands multi point commands measurements and counter single counter doubles fi Enilit RTU Hardware Sex 51 01 RTU FE Card Slots Create Branch Hardware Points Create Single point status Create Double point status 2 n Create Multi point status 2 Create Single command Create Double command Srg Create Multi point command Ce Create Measurment i 2 Create Single Counter Create Double Counter Figure 53 Popup menu of hardware tags 4 9 5 1 Single point parameters fla Enilit RTU Hardware RTU Card Slots HN Hardware Points Name 1 3 Item MES1 Item SPS1 ail Item SPC1 Wg Item 5 51 alg Item 5952 ON delay mig Item 5953 Time tagging start B Item SPS4 AM Item SPS5 Item SPS6 Wg Item SP57 Logic Auto reset Inverse Item DP51 Connection DIInput Slot 13DI 01 Tag connection Tag Name Feeder 1 Circuit breaker SPS tag 1 255 Figure 54 Hardware Tags tree and single point signal parameters Page 75 of 220 oe ee m Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p N LIT OFF delay ON delay Time tagging Start Identification number of hardware tag Only for Depends on tag internal use Range of Values 65535 Hardware tag name Item SPSI For example IED fault Length 1
165. sion size Values 1 2 IP 1 IP9 Access list of clients IPs 127 0 0 1 Range of values XXX XXX XXX XXX Log ACPI Enables to log ACPI header values Values No Yes 4 11 2 3 Application layer parameters Main Appl Name New application layer Enabled on start Yes IEC 104 Main Common address 100 Object address size 3 Object address structure Unstructured Max Frame size 290 End of init Yes Interrogation Interrogation command response No Commands Time differnce 10000 Allow syncronization No UTC Yes Time differnce 1000 Day of Week No Summer time No Hour change No Cycles Periodic 10 Background 60 Buffers Event buffer size 1000 Event buffer overflow Remove first Overflow IOA 0 Other 50 Logging Log DUI Yes Log 10 Yes App Name Application layer name New application layer For example SCADA 1 Enabled on start Enables or disables data link on start Values No Yes Common address Common address of data unit Range of values 1 254 Page 161 of 220 ___ ee 5e Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p NS L Object address size Size of information object address field 3 Range of values 1 3 Object address Object address structure shows in what format Unstructured structure information object address is entered in configuration Range of values Unstructured Structured 8 8 8 Structured 8 16 Structured 16 8 Structured 8
166. t It gives you opportunity to use fast and simple programmable logic To use it it s needed to create Manual Status Integer 64 bits or Manual Status Float 64 bits tags After creation of Manual tag you will see Logic calculation area like in the following figure TAG Manager File About WIEEEEOO CB Root Parameters Eig From Isa EV and CO to isa To Isagraf 34 Manual Status Integer 64 bits Status 1 CommandInteger CommandFloat Simul 1 04 Description L System Status Comments l System Command States i Status 1 State ID State Name Value State Value Name Tag Name 1 Logic calculations Point ID Figure 107 Manual Tag with Logic calculations area To create some logic it is needed to add Logic calculations with the help of right mouse button on the Logic calculation window like in the following figure Add Logic element Ctrl N Edit Logic element Ctrl E Delete Logic element Del Priority Up Num Priority Down Num Figure 108 Logic calculation context menu Page 179 of 220 ima e Enilit RTU User Manual 15 03 Enilit RTU software Internal programmable logic N L If you click Add Logic element you will get following window il Create new Logic Main Priority Tag ID Tag Logic Operation Result TRUE Result FALSE
167. t 0 20 mA Current 20 20 mA Voltage 10 10 V Voltage 5 5 V Voltage 2 5 2 5 V Voltage 1 25 1 225 V Maximum value Here the maximum raw value of analog input for the conversation to normalized measured value Range of Values 32767 32767 Minimum value Here the minimum raw value of analog input for the conversation to normalized measured value Range of Values 32767 32767 4 9 4 4 Fiber optics Enilit RTU Hardware 50 10 AL 31 Analog Input Slot 11 DO 31 Digital Output Port Number Enabled fi 10 Port 1 Light ON M IO Port 2 M IO Port 3 Light ON Light ON mode means that fiber optic is ON when no data is transmited and OFF while transmiting data Figure 52 Fiber optics parameters Enabled Turn on or off fiber optic port Values No Yes Light ON Light on or off fiber optic port No Values No Yes Port Nr Physical port number from the top Depends on IO Port number Range of Values 1 6 Page 74 of 220 __ Enilit RTU User Manual 15 03 ENIU Enilit RTU software Hardware configuration 4 9 5 Hardware Tags Here you create Hardware tags which you connect to hardware digital inputs analog inputs and command outputs The following figure shows popup menu of hardware tags With it you can create Hardware Tags tree After that you can create tags like single point status double point status multi point status
168. t for adn b E Event Viewer A ASPNET ASP NET Machine Acco Account used for runni gt Shared Folders x E nic m nr bad FL Guest Built in account for que Groups Ki Performance 2 Device Manager 4 Storage Disk Management p Bs Services and Applications Figure 29 Computer management window In the General tab of Enilit User properties uncheck User must change password at next logon checkbox and check Password never expires checkbox Page 52 of 220 ple e RTU User Manual 15 03 Enilit RTU software Configurator NS L i Enilit Properties General A Enilit Full name Enilit Description User must change password at nextlogon User cannot change password lv Password never expires Accountis disabled Accountis locked out Figure 30 Enilit user password options After that open created user properties window and click Member Of tab then Add new Groups Page 53 of 220 a Enilit RTU User Manual 15 03 Enilit RTU software Configurator p IN L Erit Properties nono Member of E Users _ Changes to a users group membership Remove ane not effective until the next time the dserlogs on Figure 31 User properties window Click Advanced Select this abject type Groups RUNE Enter the object names to select examples
169. t to use for connection to All ETH server Values All ETH ETH 1 ETH 2 ETH 3 Modbus Server Server IP address 127 0 0 1 dli Values xxx zzz yyy nnn BEN TCP IP Port TCP port for TCP IP connection Must be the same port on the server side Values 1 65535 50 Connect Timeout TCP connect timeout 3 1 10 Range of values 60 seconds Response timeout 2 Time to wait response after request Range of values 0 65535 ms MEM TCP Keep Alive Force TCP activity when idle to long Do 1000 not set low values because it will add overhead to communication Range of values 0 2147483647 TCP No delay Enables or disables the Nagle algorithm Yes Next request Time to wait before new request is transmitted Range of values 1 65535 ms Log raw data Enables to log raw data in Port Monitor Yes Log MBAP header Enables to log Modbus application headers Yes in Port Monitor Values No Yes Page 138 of 220 IDEM Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L 4 10 6 2 Application layer parameters Main Appl Name New Application layer Enabled on start No Modbus Main Unit identifier Timeouts Pooling time Logging Log Header Log Values Appl Name Application layer name New Application layer For example Application layer Unit identifier Slave Address 255 if not used 1 Range of values 0 255 Pooling time The time to pool the data 5000
170. t value Information Here the information number can be specified Ranges for information numbers in monitoring direction Page 100 of 220 EE M S as Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p IN L EE Range of values 0 255 Information Used only for configuration After adding new 1 Increment command function will be automatically incremented by set value Offset 1 New value Old value Offsetl Scale Offset 2 Invert Inversion of signals Type 1 and Type 2 Unchecked Values Checked Unchecked Status s points Command points IEC Type Scale Offset 2 Invert Value Time Result Tag ID Tag 20 242 69 General Command 19 242 67 General Command ES SL A I Figure 67 List of commands In the Command points window Value Time will show last transmitted command data Result will show response from controlled device 4 10 1 5 Measured information coefficient calculation Sometimes it is hard to understand how Scale parameter is calculated to get real value of measurement Most of relays for measurement transmission use coefficients 1 2 or 2 4 It 1s according to IEC 60870 103 standard We will name it COF According IEC 60870 103 standard measurements are transmitted in range from 4096 to 4096 ScaleI Inom COF 4096 ScaleU Unom COF 4096 ScaleUL Unom COF 4 3 4096 ScaleP Inom Unom COF 4 3 4096 ScaleQ Inom Unom
171. ter 16 0 00000 Not defi Read input register ee 0 00000 def Figure 83 Data points window Columns between Function and Offset 2 are data point configuration parameters Value Time Quality will show real time data from controlled device boil Create new command point Address Address Increment Type SubType Calculations Offset 1 Scale Offset 2 Invert Address Modbus point address Cancel 1 1 Write single coil 16 bits unsigend B1B2 Page 135 of 220 Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Figure 84 Add new command points window Address Here the information address can be specified 1 Range of values 0 65535 Modbus type Modbus data type Write single coil Values 1 Write single coil 2 Write single register Data subtype Available only if Modbus type is Write single register Available data subtypes 16 bits unsigned B1B2 16 bits unsigned B2B1 16 bits signed B1B2 16 bits signed B2B1 Calculations Calculation of status item No conversion New Value Old value Offset1 Scale Offset2 Invert Inversion of command mus Values No Yes Status pnts Command ports ID Addr Type 5 1000 Write single coil 0 SubType Scale Invert Value Time Result Tag al Figure 85 Commands window In the Command points window Value Time will show last transmitted c
172. ter connection starts uml Values No Yes C TS TA 1 Receive files After receive list of files download all files from controlled device Page 110 of 220 zu u mu u 0 disabled Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Segment size Segment size to use in file transfer 0 segment size 15 calculated from max frame length If segment size plus headers 15 more than max frame length segment size will be calculated from max frame length Range of values 0 255 bytes Log header Log application layer header bm Values No Yes Log IO Log information objects INE Values No Yes Log IO not Log not configured information objects configured Values No Yes 4 10 2 4 Points Following figure shows data points of IEC 60870 5 101 protocol Status points Command points as IEC Type Invert Offs Scale Offs Val Time Qu 1 1001 Single point 2 1002 Single point 12 1003 Double point Yes 13 1004 Double point Yes 5 1005 Measured value normalised value 1006 Measured value normalised value 7 1007 Measured value scaled value 8 1008 Measured value scaled value 9 1009 Measured value short floating point value 1010 Measured value short floating point value 10 Lit 1011 Step position Figure 68 IEC 60870 5 101 status points table Status poi
173. the exact same data 4 17 2 3 Hot Standby A method of redundancy in which the primary RTU and secondary RTU systems run simultaneously The data is mirrored to the secondary RTU in real time so that both systems contain identical information This method lets fast switchover from active to standby RTU because both of RTUs have the same data Hot standby redundancy is default used in Enilit RTU but on customer request it can be change to Cold Standby or Warm Standby Further description is mostly about this type of redundancy 4 17 3 Connection diagram To support redundancy RTU s must be connected one with other using LAN or RS 485 or RS 232 interfaces These communication paths are used to exchange real time data between active and standby RTU It is possible to use maximum of 4 redundant connections between RTU s RS 485 or RS 232 COM1 COM12 RS 485 or RS 232 COMI COM12 Page 207 of 220 Ursa otc Enilit RTU User Manual 15 03 Enilit RTU software Redundancy p NS L LAN 7 LAN ETHI ETH7 Figure 140 Example of connections between redundant RTU s Only one of these connections is used for data exchange Others are used for health monitoring of active RTU In case of broken data communication path other active connection will be selected Ethernet connections are much faster so first one of these connections will be used for data exchange In case when there are
174. thout board Communications IEC 60870 5 101 serial communication protocol to upper or lower levels IEC 60870 5 104 ethernet based communication protocol to upper or lower levels IEC 61850 ethernet based communication protocol to upper or lower levels IEC 60870 5 103 legacy IED communication protocol to lower levels DNP3 Modbus DNP3 Modbus Without communication protocol PLC Automation Automation OMM ISaGRAF run time for Programmable Logic Automation etc Disabled TLL TL 5555 fd Page 40 of 220 Enilit RTU User Manual 15 03 Enilit RTU Hardware Order book p NS L frame nr LLL ELE LL LLL frame F Equipments adapter MM EL LLL EL LL LLL LL LLLI any connection slots a eee points points points points H H H4 H4 2 4 H H H 2 H Hm ERN RTU configuration tool always included in order ISaGRAF software PLC Editor M LL EL EL LL EL LL d dl LL echnical an ewm LLLI TTL ELLE LL ELE ELE in English eem TL LL DLL EL ELE ELE ELLE Operation guides in German em LLL LLL LET LLL ELLE LL ELE LLL Operation guides in Russian mem LLL LETT E
175. tructure Security threats generally consist of attacks against assets These assets may not only be physical facilities but also cyber information databases and software applications Targets such as IEDs SCADA Supervisory Control and Data Acquisition systems EMS Energy Management Systems databases applications and web services can be attacked Even if the network is completely isolated and no remote equipment is connected attacks may even be initiated by operational personnel who lack special training and awareness Cyber data security is a vital element of system s reliability It decreases cyber crimes and increases the security and availability of the system communication network In order to prevent from such attacks in Enilit RTU is made data cyber security capabilities according standard IEEE 1686 2007 IEEE Standard for Substation Intelligent Electronic Devices IEDs Cyber Security Capabilities February 2008 IEEE 1686 2007 is a security standard for IEDs It establishes requirements for IED security in accordance with NERC CIP This standard defines the functions and features to be provided in substation IEDs to accommodate critical infrastructure protection programs The main Enilit RTU Cyber security Capabilities are given in the chapters below if some extra security functions is required they could be added on client request 4 18 2 Electronic access control All electronic access to the Enilit RTU locally through a communicatio
176. u can specify data point class or cause of Class Event transmission If you choose to be Class1 Event or Class2 Event data point will be marked with Spontaneous cause of transmission Range of values Class Event Class1 Event not buffered when no link Class2 Event Class2 Event not buffered when no link send only on general interrogation request Periodic No conversion Conversion of measurements Value X a b c X Value from slave device a b c free configurable variables Inversion of signals Type 1 and Type 2 Values No Yes Status points Command points ID d MJ 100002 Double command 100003 Regulating step command 100004 Set point command normalised value 100005 Set point command scaled value 100006 Set point command short floating p 100007 Bitstring of 32 bit IEC Type I D Scale Offs Value Time Result Tag Single command oc amp amp Figure 91 Command points for 60870 5 101 slave Page 156 of 220 Nc ms s Enilit RTU User Manual 15 03 Enilit RTU software Slave protocols p NS L Address 100008 Address Increment 1 IEC Type Single command Calculations Offset 1 Scale Offset 2 Invert TEC Type IEC type of point Figure 92 Add new command points dialog for IEC 60870 5 101 slave Information Here the information address can be specified 1 addres
177. u items have keyboard shortcuts They will simplify and quicken the work with the software Add Status point Ctrl N Edit Status point Ctrl E Delete Status point Del Select All Ctrl A Connect to Tag Shift Ctrl N Remove connection to Tag Shift Del Go to Tag G Figure 63 Points popup menu Following figure shows Add new data points dialog window The parameters which you can specify on IEC 60870 5 103 protocol are proposed in the next table Page 95 of 220 Ncc m Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p NS L Main IEC Type Function Function Increment Information Information Increment Index Index Increment Timers Timer 00 Timer OFF Timer ON Timer 11 Calculations Change to SP Auto Reset Invert Offset 1 Scale Offset 2 IEC Type IEC 60870 type of point Cancel Add Close Add Figure 64 Add new data points IEC Type IEC 60870 5 103 data type Time Tagged Message Type 1 Values and Type 2 Time Tagged Message Type 1 and Type 2 Measurement Type 3 and Type 9 Measurement Type 4 Time Tagged Message Type 1 and Type 2 Double composed from two Time Tagged Messages both Time Tagged Messages should be addressed in a row Function Here the function type of the employed protection equipment can be defined The following paragraph lists the meaning of some of the function types 128 Distance protection 160 Overcu
178. uaranteed not to fail executing programming instructions due to defects in materials and workmanship for a period of 90 days from date of shipment as evidenced by receipts or other documentation UAB Enilit will at its option repair or replace software media that do not execute programming instructions 1f UAB Enilit receives notice of such defects during the guaranty period Expect as specified herein UAB Enilit makes no guaranties express or implied and specifically disclaims and guaranties of merchantability or fitness for a particular purpose Customer s rights to recover damages caused by fault or negligence on the part UAB Enilit shall be limited to the amount therefore paid by the customer UAB Enilit will not be liable for damages resulting from loss of data profits use of products or incidental or consequential damages even if advised of the possibility thereof This limitation of the liability of UAB Enilit will apply regardless ofthe form of action whether in contract or tort including negligence Any action against UAB Enilit must be brought within one year after the cause of action accrues UAB Enilit shall not be liable for any delay in performance due to causes beyond its reasonable control The warranty provided herein does not cover damages defects malfunctions or service failures caused by owner s failure to follow the UAB Enilit installation operation or maintenance instructions Owner s modification of the product owner s ab
179. ues 2 60 Page 72 of 220 _ as RTU User Manual 15 03 Enilit RTU software Hardware configuration N L 4 9 4 2 Digital output iffa Enilit RTU Hardware Slot 11 DO 31 Digital Output a Ge Item SPC1 DO Output Name 1 DO Oi 1 Name 1 Item DPC1 DO a Digital output number Item DPC1 DO Output OF 1 Item DPC1 DO Output Main uration Configuration parameters Figure 50 Digital outputs parameters Digital output Number of digital output Only for internal use Depends on digital output number For example 24 4 9 4 3 Analog input fla Enilit RTU Hardware Main Analog input number 1 Analog input type Current 4 20 mA Minimum value 0 Maximum value 100 Analog input number kI Selected analog input number Figure 51 Analog input parameters Analog input Number of analog input Only for internal use Depends on analog input number For example 1 12 Analog input Configuration allows you to set the analog input Current 4 20 mA type type to the measuring range Range of Values Current 0 mA Current 1 mA Current 0 5 mA Current 5 5 mA Page 73 of 220 MN irc C s s Enilit RTU User Manual 15 03 Enilit RTU software Hardware configuration p N L Current 0 10 mA Current 10 10 mA Current 4 20 mA Curren
180. ull Range of values 50 65535 ms BEN Log header Enables to log headers in Port Monitor Yes Log values Enables to log values in Port Monitor Yes 4 10 6 3 Points Enabled on start Enables or disables application layer on start No Values No Yes Refer to the Modbus RTU ASCII paragraph Points 4 10 7 DNP3 serial master configuration 4 10 7 1 Communication port parameters Baud rate Serial port baud rate 38400 Range of values 110 921600 Com port Communication port number For example with default value will be used COMI e o Page 139 of 220 Nic Enilit RTU User Manual 15 03 Enilit RTU software Master protocols p IN L BEEN Range of values 1 255 Data bits Serial port data bits Values 7 8 Parity serial port parity Values None Odd Even Mark Space Stop bits Serial port stop bits om Values 1 1 5 2 Port enabled Port enabled on system startup co Values No Yes Port name Name of the port and protocol New Communication Port om For example COMI DNP3 master 4 10 7 2 Data link layer parameters 1 2 500 5 10 1 Master address RTU s master address Range of values 0 65535 bytes Slave address IED slave address Range of values 0 65535 bytes Answer timeout Wait timeout of response from controlled device Range of values 50 30000 milliseconds No link cycle This parameter is important if there is no link to the cont
181. ure 127 Create new SNTP client If you have created new SNTP client you will see following window with default parameters Other opportunity is to run Show monitor window Monitoring window will show log data which you have enabled in the SNTP client configuration with the parameters Log Data Log IP Log Raw Time managment crv SNIP client Server 127 0 0 1 Communication Ethernet port Server UDP Port Logging Log Data Log IP Log Raw False SHTP client Priority 1 Time Connect timeout 5 Reconnect timeout 60 Synchronization period 15 SNIP server response timeout 5 Main Figure 128 SNTP client window Ethernet port Here the information address can be All ETH specified Range of values ETH ETH3 Server SNTP server IP address 127 0 0 1 BE Values xxx zzz yyy nnn 5 UDP Port UDP port to connect with server 123 ERN Range of values 1 65535 Log Data Enables to view data log Yes es Log IP Enables to view IP log Values No Yes Page 195 of 220 RTU User Manual 15 03 Enilit RTU software Time management p NS L NENNEN Enabled Enable or disable SNTP client No Values No Yes ID ID of SNTP client Internal use 1 Range of values 1 255 Name Name of SNTP client SNTP client Priority If you will configure more than one SNTP server you can rank servers in your order Range of values 1 255 Co
182. use misuse or negligent acts and power failure or surges fire flood accident actions of third parties or other events outside reasonable control 2 8 Copyright Copyright UAB Enilit all rights reserved We reserve the right to claim damages in the event of infringements of the above Page 13 of 220 Ursa otc Enilit RTU User Manual 15 03 Enilit RTU Hardware System Conception p N L 3 Enilit RTU Hardware 3 1 System Conception Enilit RTU is a modular freely scalable remote control and automation device Its field of application 1s the fully automatic monitoring and control of decentralized process stations or RTUS e g in medium voltage switches bays Plug in I O modules serve for process connection and communication modules are available for the additional connection of subsystems e g for serial connection of sensors and actuators Communication between the different RTUs and between RTUS and the control center can take place via different media for instance e dedicated lines private or leased lines based on copper cables or glass FO cables e dial up connections via analogue telephone network digital ISDN network and GSM networks 900 MHz e g DI or D2 e serial interfaces V 24 V 28 in combination with transmission systems like PCM30 PDH or SDH systems or with private radio networks e LAN WAN connections via 10 100 MB s Ethernet und TCP IP It supports the following com
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