MW User's Manual Exemys www.exemys.com
Contents
1. Q amp 3 2 3 Historical of Analog Inputs Historical of Analog Inputs MAN WAI Hyst Oni n1 L n2 e in3 Jina n2 lo 2 0 o o in3 Wlng sn 2 0 0 0 Time s min Figure 61 Analog Inputs Historical Configuration www exemys com Rev 2 3 0 May 2010 47 MW User s Manual 9 1 6 3 Digital Outputs Historical Remote configuration of the GRD 654 E eceasa350 Historical of Digital Outputs Historical by change Jind Eln e n3 Wlng ns mns Apply Update Exemys Figure 62 Digital Outputs Historical Configuration 9 1 6 4 Pulses Inputs Historical Remote configuration of the GRD 654 Q Q 9 3 2 O9 Historical by Pulses Historical by Time Dividerz LJ int e In 2 Apply Update x Figure 63 Pulses Inputs Historical Configuration 9 1 7 Time and date From here you can configure the GRD s date and time The date will be used to create de historical records If you press the Current Date button your computers time and date will read Press Update to read the values and Apply to transmit de values to the GRD www exemys com Rev 2 3 0 May 2010 48 MW User s Manual Exemys Remote configuration of the GRD 654 Q G Q9 9 3 0 Date and time of the GRD september 1 2 3 4 5 2009 56 7 a 8 10 11 12 13 14 15 16 I 18 18 SUE JU 2 22 23 4 25 26 27 280 29 30 Current Date Apply Update Figure 64 Time and data configurat2. Final Transparent topology ue nineteen ceo edo atr a ae E e UHR UNE ee Fe eas 20 Proure 37 Modbus FOpolQREy scite a Ed ideo etob tapes ar ies nahi doen 30 Figure 38 Adding 4 GRD MOGDUs e ir betae EE H ack Ines E rne ehe FOU ve pea rv lag eeu el ua Vague 3l Figure 39 GRD Modbus in the list of valid GRDS eeeeseeeeeeeeeeenenene nenne 32 Figure 40 Window to add slaves to a GRD esseseseeseseeeeeeene nennen 32 Figure 41 Modbus RTU Slaves added to a GRD seesssessseseesssnseessseesesssresssssssssseseessseeessseeersss 33 Figure 42 Modbus Slaves added to a GRD sess nennen nnne 34 Eipure 43 Pinal Modbus topology ssar eoe bte a cone eo HEU e elas Hipp uo vuv eu eee 35 Figure 44 Remote configuration eeu et t canter ex eee Pre PR ERR eU PU e REVERSE PU aed 4 Figure 45 Remote configuration COMMANAG ccccccceseeeeeceeeeeececeseeeeeeceeeeeeeceeauaeeeeeeeeeeeees 42 Figure 46 MIW connection IUODIGOE sco ea epo eterne pe debe ees n rr ned eee debes Ea e ee Ee ee ESI NEET 42 Figure 47 MW connecaon cone urdtlOLL desi ore res du Lo bru SEeteedux i tix on tup e ati 43 Fieure 45 GRD Monitor Men ei oe reb eet ERE e OE Iu eene Ene ehe edo ve pea e velas conste el M E 43 Fieure 49 Dietak Inputs WEIOBMOL o oet Mere ERR Den o DR aA bu ee on D Pata a Tes d ed a 43 Fisureo20 Analog Inputs VIODI OT qe horis n iE PRU i e Eten ees acre ee lea een CUu SOR LAS 44 Figure
3. Possible values GRD Id number 1 to 4000 indicates status ofconnecton Comece t 1 Disconnected 0 i0 a i15 Status of digital inputs OFF ON 1 00 a 015 Status of digital outputs OFF an0 to an7 Value of analog inputs GRD3002 4002 0 to 1000 GRD3003 4003 0 to 2000 plap2 Value of pulses inputs GRD4002 O to 1000000000 GRD4003 O to 1000000000 DATE of last report Ex 2008 12 30 17 44 50 7 2 Historical records table All historical reported by all GRDs are stored in the historical table There are different types of historical register for example by digital inputs by digital outputs by analog inputs and within these last ones by time or by change For more details about the types of historical data that can be reported please see the GRD manual where each one is explained in detail and how to configure them www exemys com Rev 2 3 0 May 2010 36 MW User s Manual Exemys The table containing this information has the following format Field Description Condition Possible values historical id Number of history S CNN NR MR E MR register type Type of record entered In digital inputs eS Udgwogus PS u EUR NM To s acl address Number of inputs or In digital inputs outputs n diia cuiu mandos i pulses inpus value Input Output value In digital inputs GRD3002 4002 GRD3003 4003 GRD4002 In pulses inputs of 0 to 1000000000
4. a Delete User les GRDs Configuration User Description ET GRD 22 Temperature Martin Control center Jobn Handuras v GRD 268 aqueduct Technical analvsis IF Assigned GRD I UUUUDUUDUCUDDUUDDCDDODODODUDUUUODUDCUODDODDCDDDOOUDEDERS aa User Pablo User added Available Passyyord le TILLI GRDs Contirmation PAM Figure 35 Assigning a GRD to a user www exemys com Rev 2 3 0 May 2010 28 MW User s Manual Exemys 5 3 Final Topology If the previous steps were followed to add a GRD and to add a user the MW is ready to receive the corresponding connections The only thing left is to configure the port redirector and the GRD so they take the values indicated at the beginning of the chapter if this happens and the MW is waiting for connections the final topology is as follows Wy c iquration RD i IP address 190 123 165 15 ID 268 Password exemys Transparent Port 41000 Password pozo IF address 190 183 165 15 GRDs Fort 35000 IF address 790 499 165 415 Fort 41000 Port 25000 Figure 36 Final Transparent topology www exemys com Rev 2 3 0 May 2010 29 MW User s Manual Exemys Chapter 6 MW with GRDs in Modbus mode 6 1 Introduction This chapter explains how to configure the MW accept connections from GRDs using Modbus on there serial ports In the Modbus mode it is possible to use the serial port of the equipment to communicate with devices connected to it
5. User s Manual WWW exemys com MW User s Manual Exemys ISO 9001 2000 Certification CA Ty MANA EMEAT The Exemys products are in permanent evolution to satisfy the needs of our clients For this reason specifications and capabilities are subject to change without previous notice Please find updated information at www exemys com Copyright Exemys 2009 All Rights Reserved Rev 2 3 0 www exemys com Rev 2 3 0 May 2010 2 MW User s Manual Exemys Table of Contents 1 Introduction 7 1 1 About this manual 7 1 1 1 Purpose of this manual 7 1 1 2 Conventions terms and abbreviations J 1 2 General Description of the product 7 2 Start up 12 2 1 Requirements 12 2 2 Installation 12 3 MW Administrator 13 3 1 Introduction 13 3 2 Local Administrator 13 3 2 1 Control buttons 14 3 2 2 Communication ports 14 3 2 2 1 GRD Server 14 3 2 2 2 Transparent Server 14 3 2 2 3 Modbus Server 14 3 2 3 Configuration menu 15 3 2 3 1 Authentication 15 9 2 9 2 Advanced options 15 3 2 3 3 GRD administration 17 3 2 3 4 Users and Privileges for Transparent Mode 18 3 2 3 5 GRDs Modbus Slaves in Modbus Mode 19 3 2 3 6 Database 20 3 3 Remote Administrator 21 3 3 Authentication 21 3 3 2 Limitations 21 4 Monitor 22 4 1 Connected GRDs 22 4 1 1 Statistics 22 4 1 1 1 Modbus Statistics 22 4 1 1 2 Transparent Statistics 23 4 1 2 IOs Monitor 23 4 1 3 Configuration 24 4 2 Database 24 5 MW with GRDs in Transparent mode 26 5
6. GRD4003 historical type Historical record type digital inputs NULL digital outputs Temporary report of analog inputs Analog input below the minimum Analog input between 3 minimum and maximum maximum pulses inputs NULL N 1 2 4 7 3 Commands Table The commands table is used to act on the digital outputs of the GRD By writing the parameters on the database it is possible to activate or deactivate any of the equipment outputs The MW is continuously checking if an order has been written in case it has it takes it from the database and acts If the entered data have errors the parameters will be eliminated from the database without taking any action WWW exemys com Rev 2 3 0 May 2010 37 MW User s Manual Exemys Fiia Description Possible values GRD ID number 1 to 4000 output number Output number that wants to be modified 1 to 16 state Status it should take 0 OFF 1 ON Current date Ex 2008 12 30 17 44 50 WWW exemys com Rev 2 3 0 May 2010 38 MW User s Manual Exemys Chapter S 8 Internal Modbus Slave The MW has an internal Modbus slave containing the values of inputs and outputs the values read from this slave are only those corresponding to the GRD reports and not to the historical registers these are not accessible via Modbus We must take into account that in order to visualize the current values of the GRD the desired reports must be enabled in the equipment We access
7. serial port of the Redirector will be sent to the GRD s physical serial port and viceversa 5 2 Configuration We make the configuration based on a real example and configure the different parameters step by step See the following example User Pablo Password exemys We want to connect the flow meter connected to the GRD with the GRD ID 268 which is located in the water well GRD ID 268 Password pozo MW data IP URL 190 189 165 16 Transparent server s port 47000 www exemys com Rev 2 3 0 May 2010 26 MW User s Manual Exemys GRD s server port 35000 5 2 1 GRD We go to the GRDs Configuration screen and press New GRD Once this is done the options to complete the GRD data are enabled gt GRDs Configuration EEX E Phone number Description Mode of Serial Part 1565889594 Temperature e TRANSPARENT GED Id 208 Password esos Confirmation esos Phone number 564895751 Description aqueduct 0 Mode of Serial Port TRANSPARENT Y Figure 32 Adding a GRD in Transparent mode As the GRD s serial port will work in transparent mode set Mode of Serial Port in Transparent The Telephone and Description options are optional and not necessary When we finish loading all the necessary data we press the Save button to add the GRD to the list of valid GRDs X Remember that the GRD must have configured the same ID number and the same password than the M
8. 1 Topology 26 5 2 Configuration 26 5 2 1 GRD 27 5 2 2 User 28 5 3 Final Topology 29 6 MW with GRDs in Modbus mode 30 6 1 Introduction 30 6 2 Topology 30 www exemys com Rev 2 3 0 May 2010 3 MW User s Manual Exemys 6 3 Configuration 30 6 3 1 GRD 3 6 3 2 Slaves 32 6 4 Final Topology 34 7 Database 36 7 1 Reports Table 36 7 2 Historical records table 36 7 3 Commands Table 37 8 Internal Modbus Slave 39 8 1 Internal Map 39 8 1 1 Input Register 39 8 1 2 Input Status 40 8 1 3 Coil Status 40 9 Remote Configuration 41 9 1 Connecting to the GRD 41 9 1 1 MW Connection monitor 42 9 1 2 Connection configuration 42 9 1 3 GRD Monitor 43 9 1 3 1 Digital Inputs 43 9 1 3 2 Analog Inputs 43 9 1 3 3 Digital Outputs 44 9 1 3 4 Pulses Inputs 44 9 1 4 Serial Port configuration 44 9 5 Reports Configuration 45 9 1 5 1 Digital Inputs Reports 45 9 1 5 2 Analog Inputs Reports 45 9 1 5 3 Pulses Inputs Reports 46 9 1 5 4 Digital Outputs Reports 46 9 1 6 Historical Configuration 47 9 1 6 1 Digital Inputs Historical 47 9 1 6 2 Analog Inputs Historical 47 9 1 6 3 Digital Outputs Historical 48 9 1 6 4 Pulses Inputs Historical 48 9 1 7 Time and date 48 WWW exemys com Rev 2 3 0 May 2010 4 MW User s Manual Exemys Figures Hene T V NIW WEB Example 3292 utieta etae terpae dise ute yp taceo dura vett RR EVE tap do wees 8 Figure 2 MW Transparent application example sess 9 Fieure 5 MW Modbus application ex
9. MW User s Manual Exemys MW informs to the redirector the GRDs to which that user has access to Once the GRD to be accessed is selected the communication is established 3 2 3 5 GRDs Modbus Slaves in Modbus Mode To access the screen for the administration of GRDs Modbus slaves we have to go to Configuration gt Slave Modbus Serial MW XF Administrator start Configuration Monitor Help Database n Figure 19 Modbus slaves menu The GRDs Modbus slave s administration screen allows us to add or delete the slaves associated to each GRD gt Slave Modbus Serial Seles Slave le GRDs Configuration GRD ld iz 654 Slay Bo00 MODBLIS RTU Timeout 000 ms B4 pH B2 Protocol MODELS RTU Figure 20 GRDs Modbus and slaves administration screen The screen shows in the upper part all GRDs that in their operational mode were selected as Modbus www exemys com Rev 2 3 0 May 2010 19 MW User s Manual Exemys When selecting some of them we can visualize in the lower part the slaves assigned to the selected GRD It is possible to add or delete Modbus slaves to a GRD A slave number can be assigned to a unique GRD and not to several of them Each GRD can have multiple slaves On the other hand it is also possible to place the response timeout of the slave connected to the GRD as well as the GRD s serial port communication protocol Modbus RTU or Modbus ASCII 3 2 3 6 D
10. the entry of the port it is possible to indicate the Modbus protocol type that the master uses they can be e Modbus TCP e Modbus RTU over TCP e Modbus ASCII over TCP www exemys com Rev 2 3 0 May 2010 14 MW User s Manual Exemys We can configure an Offset This number goes from 255 to 255 and indicates the offset of the Modbus slave ID that wants to be accessed When a query is made the offset is added to the ID number that enters in a query this means that if the Offset is equal to 4 and the query is made to ID 15 it is like the query will be made to slave 19 this happens for all queries 3 2 3 Configuration menu The configuration menu has 3 main sections in which it is possible to configure authentication parameters GRDs configuration users and slaves and other monitor section 3 2 3 1 Authentication To gain access to the authentication screen we must go to Start gt Administrator Authentication rx MW XF Administrator start configuration Monitor SUMS ss uthentication Help v Start rGRD Server _ rh Figure 10 Authentication menu Through authentication it is possible to restrict the remote access by means of a user and a password gt Administrator Authentication EJ Administrator Authentication Wer Ser Password wss Confirmation ess Figure 11 Authentication screen A user a password and a confirmation of the password must b
11. this time is due the system discards all responses coming from that GRD until a new query is received Verify that the timeout of the Modbus master is higher than the configured Timeout _ for the GRD to avoid missing responses to the queries Modbus slaves for the following GRD are added the same way but different from the previous case this one has a Modbus ASCII communication protocol www exemys com Rev 2 3 0 May 2010 33 MW User s Manual Exemys gt Slave Modbus Serial M Efx Slave la GRDs Configuration GRD Id id 2 slaves 00g MODBUS RTLI 13 sve 01 11 B000 MODBUS RTU 654 Slave 0 MODBUS RTU GRD Id Timeout bon Slaves add to GRD 10 Figure 42 Modbus Slaves added to a GRD This way the two GRDs are configured from the MW side and are functioning according to what was established in the beginning 6 4 Final Topology www exemys com Rev 2 3 0 May 2010 34 MW User s Manual Exemys MB ID 43 MB ID 66 IP 190 182 165 15 Pot 202 MB Fort 502 IP 190 183 165 15 ges e Hum Forts 3 Port 23000 MB ID 87 si GRD Fort 25000 IP 190 189 165 145 Fart 35000 Figure 43 Final Modbus topology The Modbus TCP master is now connected to port 502 of the MW and the queries begin When making a query for example to slave 66 the MW knows that this is connected to GRD 10 therefore the query will be sent to it in the configured protocol being in this particular case Modb
12. values Remote configuration of the GRD 654 Eg M Analog Inputs fa 3 Digtal Outputs nnn Pulses Figure 48 Monitor Menu 9 1 3 1 Digital Inputs Remote configuration of the GRD 654 amp o amp 3 s OG Monitor af Digital Inputs Int Gns I5 amp n2 amp In6 amp In1o amp n3 gn unt fj Ind i8 amp In12 Update Figure 49 Digital Inputs Monitor 9 1 3 2 Analog Inputs www exemys com Rev 2 3 0 May 2010 43 MW User s Manual Exemys Remote configuration of the GRD 654 E Q amp OQ 9 3 2 0 rManitor af Analog Inputs Figure 50 Analog Inputs Monitor 9 1 3 3 Digital Outputs Here you can also change the value of the GRDs digital outputs Remote configuration of the GRD 654 amp o 3 s 0 Monitor of Digital Output Oou outa Q o 2 ous 3 ous Update Figure 51 Digital Outputs Monitor 9 1 3 4 Pulses Inputs Remote configuration of the GRD 654 2 Q QA282B0 r Manitor af Pulses Inputs Counters Counter 1 5854055555 Counter 2 74554455 Zet of Counters Update Figure 52 Pulse Inputs Monitor 9 1 4 Serial Port configuration You can edit from here the configuration of the GRD s serial port Press buttons Update to read the values and Apply to t
13. 503 We also have one Modbus device ASCII in port RS232 of GRD with GRD ID 13 without password Device 1 Modbus ID 87 read through port 504 MW data IP URL 190 189 165 15 Modbus port 502 Num Ports 3 GRD port 35000 6 3 1 GRD We go to the GRDs Configuration screen and press New GRD This enables the options to complete the GRD data GRDs Configuration g iz ES Mew GRD Delete GRD Slaves SRD ld Phone number Description Mode of Serial Port 22 15658595894 Temperature e TRANSPARENT GRD Id 10 GRD 10 ee m Configuration Confirmation EBEN Phone number 455845858 00000 Description P slaves 0000000 Mode of Serial Port Figure 38 Adding a GRD Modbus When pressing the button it is stored in the list of valid GRDs Set the Mode of Serial Port in MODBUS In the following figure we can visualize the addition of another GRD and in the top part the GRD previously added www exemys com Rev 2 3 0 May 2010 31 MW User s Manual Exemys GRDs Configuration SRD Id Phone number Description Mode of Serial Port 654 156235 LIN z MODBLIS GRD 13 Configuration GRD Id Passyvvord Confirmation PO Phone number 564859585 Description A aave 00000000 Mode of Serial Port Figure 39 GRD Modbus in the list of valid GRDs Once both GRDs are incorporated to the list we can assign the corresponding slaves to each one and also indicate in which variation of Modbus protoc
14. 5L Dipital Outputs MONO 5 etie tne erepta eaaet ee Ep bx aae ete ee Foe eaa a eee e eroe vat naue 44 E19ute2 Pulse Inputs MONTO seisseen be lum ese bebes as betta bid vose ste ced ubere dieu io o cia Dd imas 44 WWW exemys com Rev 2 3 0 May 2010 5 MW User s Manual Exemys Fieure 52 Sertal Port Configuration o re t ER e need roue pede eios ete 45 Heure 54 ReportS MICU eei desear tre e E etse etra eu a vat dep ders 45 Figure 55 Digital Inputs Reports Configuration eeeeeseeeseseeeee eene 45 Figure 56 Analog Inputs Reports Configuration esses nnn 46 Figure 57 Pulses Inputs Reports Configuration csse eene nennen nenne 46 Figure 58 Digital Outputs Reports Configuration eese eene enne 46 Figure 59 Historical Configuration Menu essssssssesseseeee eene eene nhh enne eene nnns 47 Figure 60 Digital Inputs Historical Configuration cccccceceeeeeecceeeeeeeeceeeeecceeauaeeeeeeeeeeeees 47 Figure 61 Analog Inputs Historical Configuration 2 0 0 0 cece ceccceeeeccceneeeeeeceneeeeceeeaaeeeeeceeeeeeees 47 Figure 62 Digital Outputs Historical Configuration essen 48 Figure 63 Pulses Inputs Historical Configuration cccccccceeseeececeeeeeeeeceeeeeecceeaueeeeeeeeeeeeees 48 Figure 64 limeand data CODI gurat oncer rt Ev abo RO ERR ase amet 49 www exemys com Rev 2 3 0 May 2010 6 MW User s Manual Exem
15. 9 Modbus Slaves melle oat e Gas e Puer td ea elena ied ea leat eee 19 Figure 20 GRDs Modbus and slaves administration screen eese 19 Fiore Z1 Databasemeruse io ceosi a a da Nadu a ed aseo etin 20 LE1oure22 DB Conti guration Serei cc eee o eb eroe ae et erue hey nes Wee 20 Figure 25 Remote connection SCLEEN 2256s ieccesend o rene e oe bi e oes edet ord Pv i dune 2l Figure 24 GR DS monitor TEI d oae surdes bo eos eet tee v von llo eeu uote pao SO eee a Vea S Uds 22 Figure 25 GIR DS MONTON S CEOs aderire dde Pe eoe eese eoe ide spe ies tipos e oU eO Nude 22 Fieure 26 Modb s MODBIOE 5 5 ioter eee US eg ade neat ee eee ees suo s ee A VV D ro HEU RIS 23 Fiure 27 Transparent VIODEOE use2o2cttorabiee tte E ou bise NS e MORE EP pei i 23 Figure 28 TOS Ce CR ME ITE TRE M 24 Fieure 29 Database montor TUE Bl ceesonqes ordei ee boe e e ato eet tte b E ertet bed pides 24 Figure 30 Database Monitor Sree Meseros oe tnbus eI I EHI Iu Eee a6 ee eoe soap ad peek nes ees eaae 23 Figure 31 5 Transparent Topology iue E an ee E lanes 26 Figure 32 Adding a GRD in Transparent mode eesessssssssseeeeeee eene Dy Figure 33 Visualization of the added GRD ossec eee tette eene eine eoe 27 Fieure t Addime d user tor EVM mode isset osten veau fu S eR eed te Puede eA eds 28 Proure 35 Assrenme qa GRD tO d USED esee ev ette eese e e ease EE ege EEEE 28 Figure 36
16. Middleware as a function of the software used to visualize and obtain information collected by the Middleware 1 WEB Middleware 2 Transparent Middleware 3 Modbus Middleware 1 WEB Middleware AS the name shows the final application taking the information from the Middleware is simply a web page previously designed and based on the user s application For this purpose the WEB Middleware registers all the information from remote acquisition and control devices GRD into an SQL type database which can be read from any Web application designed to that effect Example of Web Middleware Application Water 4 rjotor StoP Cellular HOME ne network Internet ES EXEMYS NO UM MIDDLEWARE s fF erature SQL Broadband jj Em Level Web Page Internet browser Figure 1 MW WEB Example 2 Transparent Middleware Transparent Middleware is used in applications where a transparent communication tunnel is needed between the device to be controlled and the original software of the device For this purpose a port redirector is installed in the computer having the device original software and takes the information of the original software and sends it to Middleware which in turn retransmits to the corresponding remote device In this manner neither the original software nor the remote device is aware of the existence of the communication link established by the Middleware by means of GPRS cellular te
17. Ports 1 2 Pot 41000 E IPAURL localhost Figure 6 Administrator menu distribution www exemys com Rev 2 3 0 May 2010 13 MW User s Manual Exemys 3 2 1 Control buttons There are 2 buttons Start and Stop The Start button starts operating the MW which means that is ready to receive the GRD connections port redirectors and Modbus masters additionally being activated it connects to the database to store history and the reports When the Stop button is pressed it stops the MW operation all communication ports are closed therefore all existing connections are lost and the configuration options are enabled for the change of ports Keep in mind that the Start and Stop buttons do not stop the service they only act on the MW 3 2 2 Communication ports There are 3 main ports to configure 3 2 2 1 GRD Server This is the communications port where the GRDs are connected GRD Server le Part 35000 Figure 7 GRD port 3 2 2 2 Transparent Server This is the communications port where the port redirectors are connected For more information see the Redirector s help Transparent Serial Server E fot 41000 Figure 8 Transparent port 3 2 2 3 Modbus Server This is the communications port where the Modbus masters are connected to know the status of inputs and outputs of the GRDs Modbus Server Port au server Mode ME TCR Mum Ports a E Figure 9 Modbus port In addition to
18. W to be able to establish the connection 7 GRDs Configuration or la Description Mode of Serial Port 1565589594 Temperature e TRANSPARENT GRD Added SED lal Figure 33 Visualization of the added GRD www exemys com Rev 2 3 0 May 2010 27 MW User s Manual Exemys 5 2 2 User To be able to add a user we must go to the Users and Privileges for Transparent Serial screen and press the button New User Once the button is pressed the fields are enabled to be able to enter the new user data User Transparent Serial Mew User Delete User le GRADS Configuration Description Control center Honduras User Pablo Password m Confirmation eeeeeee Description f echnical analysis Configuration Figure 34 Adding a user for TM mode Once data are entered we press Save to have the MW store the changes As soon as we press the button the user we just entered will appear at the top of the screen If we position the mouse over him the right side of the screen will show the available GRDs which are those configured in transparent mode By ticking over the GRDs that we want to assign to this user it links the user to that GRD It is possible to assign multiple GRDs to a user and at the same time assign to multiple users the same GRD It is not necessary to save the assignments when marking over the desired GRD they are automatically stored and linked User Transparent Serial SEES
19. ample ead ees seo if ae eee ta oet bns 10 Fisure Ae Funciona did9t ati eoe eoi epe eo E e ndo ado vitde iei etu ipii eer dos ev eae 10 Freureo Installation error MESSA Serrin it iprt bred o bdo pestes pr Ea d apt Ud du ria du idu 12 Figure 6 Administrator menu distribution eessseesssssesseeeeeee enne 13 LEioure LORD PO odictor a tote bcp d educit edet ae f mms 14 Friseure s Transparent PO iie dob ta teen sabe id el tabu tad Rea te aed VP eue Use tan eee eres 14 Hoire 9 Modbus PO oq eon Hae aede re e abd o aee ep ae Le IN ONERE DOVER NU VUE conden es 14 Figure LO Authentication Men ooo co eene et a eroe Ye eee ues ee a vv obe eue ve eu ed ue 5 Fioure 145 Authentication SCPEGIb io ae odeur epo ere ha Hp here anlage Eie eR tate iP nen indien 15 Figure 12 Advanced Options Menu s d e tee reete eo be teo eve pd ee ea vea oe reset se opens 16 Figure 13 Advanced Options SCEeel s e terree eh ee bi eo eue p deba ree orte E Io M Pare duds 16 Figure 14 MW XF service in Windows ccccseseeeccceeeecceceeeeeecceesuaeeeeceaeeeeceeeauaeeeeeeeaensees 16 Fieure 15 GR DS Menu oe metere reset ODE ade hes ie tesi Unt DU Dua E 17 Figure 46 GR Ds adamiunisttaton Sereen bet bete Les deciso tete sper ias uus e torta dU Lid 17 Figure 17 Transparent users fehl eoa a EORR Iu eene rne et Fdo ve pea te vetas Conse ot pad 18 Figure 18 Transparent Users and Permits screen eese 18 Fieured
20. atabase To access the database configuration screen it is necessary first to stop the MW pressing the Stop button in the main screen then enter in Configuration Database gt MW XF Administrator Start Configuration Help Monitor Advanced GRDs Os User Transparent Serial Port slave Modbus Serial J Database Terwer hd Figure 21 Database menu The Database screen makes reference to the SQL MySQL database where history reports and commands are stored gt Database Configuration E nm E Database Configuration Enable database IFFURL localhost Port S306 User mzm Password mzm Marre ar dxt Type hys v Figure 22 DB Configuration screen Here we can enable the DB configure it s IP address it s port number the user and password the MW will use to connect to the database the name of the database and finally the type of database MS SQL or MySQL www exemys com Rev 2 3 0 May 2010 20 MW User s Manual Exemys Keep in mind that the user and password configured on the MW must have all reading and writing privileges enabled in the database 3 3 Remote Administrator The remote administrator is a separate program that allows access to the MW from any computer and works like the local administrator with previous authentication 3 3 1 Authentication Authentication is necessary before beginning to operate with the remot
21. be automatically routed to that GRD If the GRD ID is not in the list of valid GRDs no connection of the equipment to the MW is possible If the GRD already exists it is possible to modify the entered values if the operational mode is modified the equipment will be disconnected from the MW so changes will become effective when the equipment is reconnected 3 2 3 4 Users and Privileges for Transparent Mode To access the Transparent Users and Privileges screen we must go to Configuration gt Users Transparent Serial Port gt MW XF Administrator start Configuration Monitor Help PUN Slave Modbus Serial User Transpare erial Port E art Figure 17 Transparent users menu The Transparent Users and Privileges screen allows us to add or delete users and assign privileges to users for the GRDs of choice The GRDs that can be assigned are those configured Transparent mode User Transparent Serial Seles G Delete User la GRD Configuration _ v GRD 22 Temperature Martin Control center John Honders User Matin Fassword T Confirmation eee Description KControlcenter 0 Figure 18 Transparent Users and Permits screen The configured user and password are used for the authentication of the port Redirector When a Redirector is connected to MW it must indicate the user name and password from here the www exemys com Rev 2 3 0 May 2010 18
22. by means of the Modbus protocol but always respecting the operational topology 6 2 Topology The following figure shows the topology that should be used for the system to work correctly LLL w M Master Modbus SCADA Figure 37 Modbus Topology The basic idea is based on a Modbus master that wants to collect data from multiple slaves in this case a SCADA was taken as a model On the other side the slaves are connected to the GRD each slave has a Modbus ID number that identifies it in the network The SCADA must be connected to the MW to be able to make queries to all slave devices and the GRD are the link between the slaves and the MW The same way more GRDs with other slaves connected in its RS232 or RS485 serial port can be added The queries begin at SCADA pass through the MW and are derived to the corresponding GRD that has the corresponding slave connected in its serial port the response starts at the slave passes through the MW by means of the GRD to arrive finally to the Modbus master 6 3 Configuration The configuration is made based on a real example and we configure the different parameters step by step www exemys com Rev 2 3 0 May 2010 30 MW User s Manual Exemys Let s take the following example We have 2 Modbus RTU devices connected in port RS485 of the GRD with GRD ID 10 without a password Device 1 Moabus ID 43 read through port 502 Device 2 Moabus ID 66 read through port
23. d IFVURL localhost Fort 3306 Databaze ardt Reports Table Ready Historical Table Ready Commands Table Ready Figure 30 Database monitor screen The IP address URL port number and database name must coincide with the one entered in the original configuration then we find the three tables forming the database for the MW If everything works correctly the three must show Ready If this does not happen verify the IP address URL the connection port user name and password verify that the MySQL SQL database service is operational and that the user has the read and write privileges to access the database www exemys com Rev 2 3 0 May 2010 25 MW User s Manual Exemys Chapter 5 MW with GRDs in Transparent mode This chapter explains how to configure the MW to make a connection using the Transparent mode In transparent mode it is possible to use the GRD s serial port for any purpose but always respecting the operational topology 5 1 Topology The following figure shows the topology to be used for the system to work correctly u PC with Serial AES MW Port Redirector Figure 31 Transparent Topology On one side we have a PC with a serial port Redirector installed the same is connected to the MW through the designated port On the other side the GRD is connected to the MW in the corresponding port to the GRDs if the configuration is correct the data sent through the virtual
24. e 4 Functional diagram The diagram shows a block distribution of the MW XF and its possible alternatives of use The MW XF consists of Modbus Server This is a server accepting Modbus connections through a configurable port It can receive Modbus TCP Modbus RTU over TCP or Modbus ASCII over TCP connections Transparent Server This is a server accepting connections directly from the serial port Redirector in a configurable port The port redirector has an authentication mechanism through www exemys com Rev 2 3 0 May 2010 10 MW User s Manual Exemys a configurable user and password once authenticated a virtual serial port in the redirector PC is opened which is directly linked with a serial port of a determined GRD Administrator s Server By means of this server it is possible to connect with an administrator capable of modifying all MW configurations for example communication ports GRD operational modes users passwords etc GRDs Server This is server that accepts connections of GRDs which when connecting with the MW are authenticated through an identification number and a password Through this channel all data from or to GRDs enter and exit DB Client A client to an SQL Database When enabled all data from equipments reports or historical are dumped Internal Modbus slave This is a Modbus slave which is accessed through the Modbus connections server with the ID 247 It has the updated values of all inputs and
25. e administrator this means that we must enter a user name and password in order to gain access 7 Remote Connection ARH SEYE APAN exemys com Port Baz User Exemys Password mm Figure 23 Remote connection screen The following parameters must be completed Server The IP address or URL where the server is located Port The administrator s port This port is totally configurable and we will see this later User User name to be able to access The user name is configurable and only one is permitted Password Password to be able to access The password is configurable and only one is permitted The parameters indicated above are the same as the ones entered in the configuration menu in the authentication section Once all parameters are entered press Connect If the connection is successful it appears directly in the administrators window If the connection fails a sign will appear indicating the reason of the failure In order for the administrator to be connected the MW service must be operating 3 3 2 Limitations The remote administrator has limitations to act on the service itself It cannot stop the service or start it therefore it is not possible to modify the internal database ports and the remote configuration ports www exemys com Rev 2 3 0 May 2010 21 MW User s Manual Exemys Chapter 4 Monitor 4 1 Connected GRDs To determine the status of the GRDs connection it is possible to g
26. e entered in the authentication screen Once we press the Save button the parameters are modified The maximum length of the user name and password is 10 characters 3 2 3 2 Advanced options To access the advanced options screen we go to Configuration Advanced The Advanced option is activated only for the local Administrator the remote Administrator can not access Advanced options www exemys com Rev 2 3 0 May 2010 15 MW User s Manual Exemys gt MW XF Administrator Start Configuration Monitor Help Advanced k J User Transparent Serial Port Figure 12 Advanced options menu The advanced options let us act on the MW service and also allow us to modify the internal communication ports Advanced Options Ports MV Administration opaz Internal Database 1528 Figure 13 Advanced options screen The Start and Stop buttons act directly on the MW service this means that if the service has stopped it won t be possible to access the rest of the configurations and the local administrator will be seen as deactivated while communication cannot be established with the remote administrator The same effect you get in the Windows operating system accessing to Settings Administrative tools gt Services File Action view Help mE RR AO mne 54 Services Local Service Control MW XField Mame Description Status Startup Type Log On As fy Messen
27. ger Transmits nek send an Disabled Local System Stop the service db z z Restart the service Description Sa NetMeeting Remote Enables an autharized Disabled Local System Middleware Field Sa Network Connections Manages objects in E Manual Local System fy Network DDE Provides network tre MW XF Disabled Local System fy Network DDEDSDM Manages Dynamic O Service Disabled Local Systern Sa Network Location 4 Collects and stores ne arted Manual Local System b RIT PRA See etki Tun Penida emm aibi be ee Radar al Lee ad Fiebre Figure 14 MW XF service in Windows Under the stopped service condition the MW does not respond and does not perform any control action or connection On the other hand when service has stopped it is possible to modify the internal communication ports The administration interface port is the one used to connect from the MW administrator On the other hand we have the internal database port which provides us with the internal communication between the MW and the database where its entire configuration is stored This www exemys com Rev 2 3 0 May 2010 16 MW User s Manual Exemys database is not visible to the user but it is possible to determine the communications port by choosing any free port between 1 and 65535 3 2 3 3 GRD administration To access the GRD administration screen we have to go to Configuration gt GRDs rx MW XF Administrator start Conf
28. iguration Monitor Help User Transparent Serial Port i Slave Modbus Serial f Figure 15 GRDs menu The GRDs administration screen allows us to add or delete equipment and configure the operational mode of the serial port of the GRD GRDs Configuration Sele la Mew GRD Delete GRD e Lisers GERD ld Phone number Description Mode of Serial Part 654 1562353645 Slave z MODBUS 1565889854 E TRANSPARENT GRE Id Pass yord Confirmation Prone number Description Figure 16 GRDs administration screen With the New GRS button the options are activated to add a new GRD Each GRD is identified with a unique ID and for security reasons there is a possibility of including a password which must be the same as the configured in the GRD In a descriptive form it is possible to enter the telephone number and a minimal description to be able to identify the remote point We must indicate the operational mode of the serial port of the GRD There are 2 possible alternatives Transparent or Modbus The Transparent mode indicates that the GRD remote equipment is going to work as a serial port tunnel together with the port Redirector www exemys com Rev 2 3 0 May 2010 17 MW User s Manual Exemys The Modbus mode indicates that the GRD remote equipment has Modbus slaves connected to its serial communication port therefore when a query is made to the slave that this GRD has connected in its port the query will
29. ion e UK Europe Office USA Canada Office Australia Asia Pacific Office Tel 44 0 845 9000 601 Tel 1 866 849 3441 Tel 61 0 282 442 363 O Fax 44 0 845 9000 602 Fax 1 866 628 8055 Fax 61 0 294 751 278 ope eer info omniinstruments co uk info omniinstruments net info omniinstruments com au East Kingsway Business Centre PO Box 84 18 Welcome Street www omniinstruments co uk Mid Craigie RD Dundee Scotland UK Arroyo Grande California 93420 Parkes NSW 2870
30. lephony www exemys com Rev 2 3 0 May 2010 8 MW User s Manual Exemys Example of Transparent Middleware Application Cellular telephone network A Internet Original software of m c BRE Original software of electronic sign I electronic sign MW Redirector VER Figure 2 MW Transparent application example 3 Modbus Middleware Designed particularly for the industrial automation and control segment the Modbus Middleware allows the use of any final application handling this protocol for example a SCADA software or any other Modbus master software to access information from the remote devices which were originally designed to communicate by Modbus This way neither the original software nor the remote device are aware of the existence of the communication link established by the Middleware by means of the GPRS cellular telephony www exemys com Rev 2 3 0 May 2010 9 MW User s Manual Exemys Example of Middleware Modbus application Before After GPRS Cellular telephone network GPRS T T Internet E EXEMYS NN MIDDLEWARE SS TCP Modbus Broadband SCADA system lr d SCADA i system Figure 3 MW Modbus application example 1 3 Middleware Internal Operation Diagram MB ID 5 ME ID 12 To the serial ports through of the MW redirector port a r Administrator Analog Digital n rd zt Database st Figur
31. mys com Rev 2 3 0 May 2010 41 MW User s Manual IO s Monitor Connection Configuration Connection Monitor Home Connect Reraote configuration of the GED 654 Q Q a 3 0 Informatian Model D CONNECTED Firmware Version Hardware Version Figure 45 Remote configuration commands If you are using a GRD with no IOs some buttons may not be enabled 9 1 1 MW Connection monitor From here we can get the signal level Remote configuration of the GRD 654 x acea Connection Monitor Signal Level dE Y uf TCP Connection Conectado wy exemys dyndns orae 40001 3 Update Figure 46 MW connection monitor 9 1 2 Connection configuration Serial Port Configuration Reports Configuration Historical Configuration Date and Clock Here we can see the connections configured parameters It s only possible to change the Inactivity Time and the Retry Time www exemys com Rev 2 3 0 May 2010 MW User s Manual Exemys Remote configuration of the GRD 654 E Q e Q 3 0 Connection configuration Identification TCP Connection D URLAP Pass Part 40001 Operator Inactivity Apply Update Figure 47 MW connection configuration 9 1 3 GRD Monitor On this screens you can read the instant value of each inputs and output Press the button Update to get and refresh the
32. o to the monitor screen through the menu in Monitor gt Connected GRDs gt MW XF Administrator start Configuration Monitor Help MW XF ADMIN GRDs Corpectes a Database GRD Server pMadbus Server Figure 24 GRDs monitor menu The monitor screen shows the status of the connection of each one of the GRDs as well as its operational mode the IP address from which the GRD is coming from From here we can also se the GRDs serial port communication statistics to monitor the GRD IO s reported values and to remotely configure the GRD rg GRDs Monitor m E GRD Id Description State IP address Statistics Monitor Configuration 22 Temperature B54 Slave ic Connected 200 48 201 26 Figure 25 GRDs monitor screen In the previous figure we can clearly observe that GRD 654 is connected to the MW that it s serial port is configure to work using Modbus and the remote IP address is 200 49 201 26 while GRD 22 is disconnected 4 1 1 Statistics The statistics make reference to the quantity of information transmitted and received to the serial port The information provided by the statistics differs according to how the GRD serial port s configuration has been defined To have access to the statistics for each GRD press the Open button in the statistics column 4 1 1 1 Modbus Statistics The Modbus statistics screen is shown below www exemys com Rev 2 3 0 May 2010 22 MW U
33. of the GRD 654 Digital Inputs 1 2 3 4 5 E 7 9 10 T1 12 13 14 15 16 e e0o000000000000200 Analog Inputs 3 1 2 4 3 B ie 5 EJ EE NEUE EE a a a REC Digital Outputs 1 2 3 4 5 8 7 8 9 10 11 12 13 14 15 16 o299092099290929029029020902202 L BEL LIBE JL ORELL EE dE JEJE ULL Exit Figure 28 IOs monitor screen We will see the same screen no matter want how many inputs and output the GRD has The lOs monitor screen has three parts Digital inputs Analog inputs and Digital outputs If the GRD has fewer inputs the value on the monitor screen will never change If the GRD has fewer outputs it will still accept an ON OFF command and you will see the red LED changes it state but this change won t be reflected on a physical output 4 1 3 Configuration The configuration screen allows us to configure the GRD remotely To have access to the configuration screen for each GRD press the Open button in the Configuration column Head chapter 9 for more details 4 2 Database To determine the status of the database we can access the database monitor screen in Monitor Database gt MW XF Administrator start Configuration Monitor Help GRDs Connected V stat Stop Figure 29 Database monitor menu MW XF ADMIN Database monitor indicates the operation of its tables and is shown in the following screen www exemys com Rev 2 3 0 May 2010 24 MW User s Manual Exemys rS Database Monitor En E
34. ol will be used on the GRD s serial port 6 3 2 Slaves To be able to add slaves to each GRD we must access the Slave Modbus Serial screen then we position the mouse over the GRD in the top part and press button Slave a window appears like the one shown below where we enter the slave number connected to the GRD in its serial port and the TCP port number from where the slave will be read Enter a slave Enter the slave to associate to the GRD Slave Figure 40 Window to add slaves to a GRD Once the corresponding slaves and TCP ports have been entered we must select which variation of Modbus protocol will be used on the GRD s serial port Modbus RTU or Modbus ASCII www exemys com Rev 2 3 0 May 2010 32 MW User s Manual Exemys gt Slave Modbus Serial di yx Slave le GRADS Configuration 10 9 slaves BOO MODBUS RTU 13 sve O BIS TU 554 awe 1 1 BUS RT GRD Id Timeout 6000 Protocol MODBUS RTU Slaves add to GRD 10 Figure 41 Modbus RTU Slaves added to a GRD As we can see in the previous figure the GRD 10 has 2 Modbus slaves that talk Modbus RTU Finally configure the Timeout and then we press the Save button for changes to be stored The purpose of the Timeout is to keep the system from waiting for a response for an determined time this time is expressed in milliseconds therefore when a query is sent it is the maximum waiting time for a response once
35. onds www exemys com Rev 2 3 0 May 2010 39 MW User s Manual Exemys to bit 15 of the record we can determine each one The outputs in the records are located the same Way To know if a GRD is connected to the MW you can check bit 0 on the 16 register If it s 1 it s saying that the GRD is connected to the MW GRD4002 and GRD4003 s counter inputs can be read on registers 11 to 14 Each one uses 2 registers to store the count value from O to 1000000000 The first register has the most significative word the second one has the least significative word 8 1 2 Input Status In the input status we know the status of digital inputs of all GRDs Each GRD occupies 16 positions and the calculation to read the value of one of the inputs is the following Input X 10000 GRD ID 1 16 Input number 1 to 16 For example if we want to know the value of input 8 of GRD having ID 6 the calculation is as follows Input 8 GRD6 10000 6 1 16 8 Its equivalent to Modbus address 10088 8 1 3 Coil Status In the coil status records we visualize the digital outputs of the equipment To determine the address of outputs for each GRD we calculate Output X GRD ID 1 16 Output number 1 to 16 For example if we want to access output 4 of GRD with ID245 the calculation is the following Output 4 GRD 45 45 1 16 4 708 lt is equivalent to Modbus address 708 of the coil status If we write over these records the outpu
36. outputs of the GRD www exemys com Rev 2 3 0 May 2010 11 MW User s Manual Exemys Chapter 2 2 Start up 2 1 Requirements The minimum necessary requirements to run Middleware are e 2 4 GHz processor or better with at least 512 RAM e A PC with Windows 2000 Windows XP Windows 2003 Server for support for other platforms please contact support exemys com e The PC must have Java Runtime Environment 1 6 or above available free from WWW java com 2 2 Installation Insert the CD and execute file MW XF Vx x x msi then indicate the directory where the MW will be installed and press Install the system will do the rest Two components are installed e MW XF Service MW XF Administrator The Service component is the MW itself this service is running all the time in the computer and will automatically activate at the moment of installation The administrator is simply the configuration tool that has access to the MW service If you don t have the correct Java version installed an error message will appear during installation indicating that the installation could not be completed successfully i MW XF Installer Information Error 1722 There is a problem with this Windows Installer package 4 program run as part af the setup did nat Finish as expected Contact your support personnel or package vendor Figure 5 Installation error message What really happened is that the execution of the MW service failed for no
37. ransmit de values to the GRD www exemys com Rev 2 3 0 May 2010 44 MW User s Manual Exemys Remote configuration of the GRD 654 eeoasaso serial Port Configuration serial Port Baudrate 3600 w Data Bits party ee m Flow Control Figure 53 Serial Port Configuration 9 1 5 Reports Configuration From here you can configure when the GRD is going to report the values of its inputs and outputs Press Update to read the values and Apply to transmit de values to the GRD Remote configuration of the GRD 654 serial Part Configuration serial Port A Analog Inputs Baudrate Digital Outputs Figure 54 Reports Menu 9 1 5 1 Digital Inputs Reports Remote configuration of the GRD 654 Q Q 9 3 2 9 Report af Digital Inputs Report by change Jina lv In 2 Jing In Ie In 5 in amp lv In 7 In 8 Jing l in18 vlin11 v in 12 m13 Olmi wlmni15 wjn18 Report by Time Refresh Time vin Apply Update Figure 55 Digital Inputs Reports Configuration 9 1 5 2 Analog Inputs Reports www exemys com Rev 2 3 0 May 2010 45 MW User s Manual Remote configuration of the GRD 654 Q Q e286 Report of Analog Inputs Report by Percentual Change flint 100 w m2 100 w na 20 ina ico e Report by Time ome ioe mn Apply Update Figure 56 Analog Inputs Reports Configuration 9 1 5 3 Pulses Inputs Reports Remote configuration of
38. ser s Manual Exemys GRD 654 Received Timeout Figure 26 Modbus Monitor When the GRD is connected the window is visualized as activated on the contrary if the GRD is disconnected the window shows grey tones as being deactivated The screen shows the quantity of packets sent to the GRD and received from the GRD those queries sent to the GRD that have no response are part of the Timeout count The Erase button sets the counters to zero 4 1 1 2 Transparent Statistics The Transparent Statistics screen is shown below EA XXE User Martin IP Address 192 768 0207 Tx Data 0 Bytes Rx Data 0 Bytes Figure 27 Transparent Monitor When the GRD is connected and the same way a user is connected to the MW pointing to that GRD the screen is shown as activated In the Transparent mode statistics we can find the user s name and the IP where he is located as well as the number of bytes transmitted to the GRD s serial port and the bytes received from the GRD s serial port The Erase button sets again the byte counters to zero 4 1 2 lOs Monitor The lOs Monitor will show you the reported value of the GRD s inputs and outputs Keep in mid that if you don t enable IOs reports on the GRD the value you see here won t be updated To have access to the IOs monitor for each GRD press the Open button in the Monitor column www exemys com Rev 2 3 0 May 2010 23 MW User s Manual Exemys Inputs and Outputs
39. t having Java installed in your computer if this happens you should install Java s latest version and enable the service from the administrator in Advanced options www exemys com Rev 2 3 0 May 2010 12 MW User s Manual Exemys Chapter 3 The MW administrator is the interface that allows you to configure the MW 3 MW Administrator With this tool we may know the status of the service act on it add or remove GRDs users monitor the connection status of each one etc The administrator can function locally or in remote form The local administrator is installed together with the MW the remote administrator is a tool you can use in case you need to remotely access the MW Both have almost the same functional features the main difference is at the moment a session starts since the remote administrator requires an authentication with the user name and password before starting to operate 3 2 Local Administrator The local administrator is installed together with the MW and it does not require any type of authentication to be able to enter but only works from the same computer where the MW is installed To gain access click on the administrator icon Configuration Menu 72 MW XF Administrator start Configuration Monitor Help Control Buttons MW XF ADMINISTRATOR Comunication GRO Server _ Modbus Server Ports la Port 40000 aa zl Port a02 server Mode Transparent Serial Server Num
40. t status is modified this means that we can modify the status of outputs from a GRD from the Modbus internal slave www exemys com Rev 2 3 0 May 2010 40 MW User s Manual Exemys Chapter 9 9 Remote Configuration Remote configuration allows changing the GRD configuration without having to go to the site where the GRD is installed Take into account that the GRD must be connected to the MW to be able to use the remote configuration If the GRD is not connected to the MW user the GRD configurator software or read the GRD user s manual to know how to configure the GRD by SMS to establish a connection to the MW To access to the remote configuration click on the Open button on the Configuration column 7 GRDs Monitor g 5 Eg RD Id Description State IP address Statistics Monitor Configuration 22 Temperature 654 Slave ly Connected 200 49 201 26 ae Open Figure 44 Remote configuration The main difference between configuring the GRD through the Remote Configuration and doing it through the GRD Configurator software is that using the Remote Configuration the parameters values must be read manually To know further about the GRD configuration please read the GRD user s manual 9 1 Connecting to the GRD lf the GRD is connected to the MW the first button will be enabled If we pressed it you will GRD the basic GRD information values and will be ready to start reading an writing the rest of the configuration www exe
41. the GRD 654 e o a 3 s 0 Reports by Pulses Reports by Count e In 1 1 a 1 le In 2 In 2 1 Report by Time Refresh Time vin Apply Update Figure 57 Pulses Inputs Reports Configuration 9 1 5 4 Digital Outputs Reports Remote configuration of the GRD 654 Q8 3 2 9 Report af Digital Outputs Report by Time Refresh Time nin Figure 58 Digital Outputs Reports Configuration WWW exemys com Rev 2 3 0 May 2010 Exemys 46 MW User s Manual Exemys 9 1 6 Historical Configuration From here you can configure when the GHRD is going to create historical records Press Update to read the values and Apply to transmit de values to the GRD Hemate configuration af the GRD 654 Eg Reports by Pulses X Digital Inputs Reports by Count Dividers y Analog Inputs Jind In 1 L In 2 In 2 C3 Digital Outputs nnn Pulses Figure 59 Historical Configuration Menu 9 1 6 1 Digital Inputs Historical Remote configuration of the GRD 654 2 Q QAaegaao0 Historical of Digital Inputs Historical by change L n1 lena Jna wing Uns eme Win Ling n8 Ll n15 eln11 Jint2 n13 L mn14 Emis e mn16 Figure 60 Digital Inputs Historical Configuration 9 1 6 2 Analog Inputs Historical You will find two tabs one for Historical By Alarm and the other for Historical By Time Remote configuration of the GRD 654 x Remate configuration of the GRD 654 Q Q 9 3 2 3
42. the internal slave when queries are made to the number 247 slave The same way queries are made to the external slaves they are made to the internal slaves The same in its map has all the values of all analog and digital inputs of all GRDs from GRD ID 1 to 4000 It is also possible to act on the digital outputs modifying its status at any instant 8 1 Internal Map The information of each GRD can be visualized in different forms according to the parameter you want to see Each GRD has a specific location in the Modbus map this location is determined through its ID number 8 1 1 Input Register In the input registers we are able to know digital inputs as well as analog inputs and also the value of digital outputs Each GRD covers a total of 16 records that contain the following information RECORD NUMBER information Record 1 to 8 Analog 1 to 8 Digital inputs The calculation to determine the address of a register for a determined GRD is the following Record X 30000 GRD ID 1 16 Record Number 1 to 16 As an example let s suppose we want to read analog input 3 from the GRD with the ID 87 Analog input 3 corresponds to record 3 therefore Record 3 GRD 87 30000 87 1 16 3 In order to know the desired value we have to access record 31379 Digital inputs and outputs group in a single record containing in its bits the corresponding values knowing that input 1 of GRD corresponds to bit 0 of the record and input 16 corresp
43. us RTU On the contrary if the query is made to slave 87 it will be addressed to GRD 13 in Modbus ASCII protocol When queries are made take into account the Offset configured in the Modbus AN server www exemys com Rev 2 3 0 May 2010 35 MW User s Manual Exemys Chapter 7 Database The MW can connect to MySQL or Microsoft SQL databases After connecting it creates a schema and a database with the configured name Inside that database the MW will create 3 tables Using this tables we can know the GRDs inputs and outputs reported values to read historical data and to command the GRD s outputs You must configure the GRD when to send an IO report or when to create a historical record For more information see the GRD manual When the connection parameters with the database are loaded and the MW starts the schema and tables are created automatically The tables with the different fields are detailed and a separate appendix shows some queries to access them 7 1 Reports Table The last values reported by the GRD are stored in the reports table as well as its status When a new GRD is created this is automatically added to the reports table and from that moment on its status can be known through this means To know the desired values the appropriate queries must be made For each GRD there is an entry in the table and this entry keeps updating with the reports from that GRD Field Description Condition
44. ys Chapter 1 1 Introduction 1 1 About this manual 1 1 1 Purpose of this manual The purpose of this manual is to provide a complete guide for the installation start up and maintenance of the MW XF It begins with a general description of the possibilities offered by the system and then followed by a more detailed description allowing the user to take full advantage of the system 1 1 2 Conventions terms and abbreviations DB batabae O 1 2 General Description of the product The MW XF is software that together with the GRD forms a complete tool for the collection of remote data The MW XF is basically a server with multiple connections that allows the collection of data from all the existing GRDs in the field and the dumping all the information in several formats to be accessed in different ways In a few words the MW XF acts as a concentrator of the information sent by the GRDs once the information reaches the MW XF it can be accessed from different media and formats according to the requirements The complete system is made of multiple blocks some of which can be dispensed with depending on the use The present manual describes in depth all the MW XF operating modes The components are MW XF GRD MW port redirector Database SQL not included www exemys com Rev 2 3 0 May 2010 7 MW User s Manual Exemys Classification according to the user s software application There are 3 variants of
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