User`s Manual
Contents
1. Special case averaged data item lf a data item is configured as Min Max Average in the definition file it will appear in the data file in the following manner nbVariableDeviceN index Variable_1 min index Variable_1 max indexVariable_1 avg date time_n variable_x_value_n_min variable_x_value_n__max variable_x_value_n_avg 10 5 3 Example 2 Modbus devices with acquisition every 15 minutes ADDRMODBUS 1 001 TypeMODBUS prefixID MODBUS_TYPE1 ini 127132 0 4 0 0 7 0 0 10 11512 27 03 13 09 45 00532 52 5 102 150 1 0 0 0 0 0 27 03 13 10 00 00535 57 5 108 1 51 0 0 0 0 0 1 ADDRMODBUS 2 002 TypeMODBUS prefixID MODBUS_TYPE2 ini 6 1 min 1 max 1 avg 2 min 2 max 2 avg 27 03 13 09 45 00 16 32 26 00 52 58 54 00 27 03 13 10 00 00 4 6 5 50 102 105 103 00 Where the two definition files are prefixID_ MODBUS_TYPE1 ini Definition of packets Id Name ReadFctCode WriteFctCode StartReg NbReg EnableReading EnableWriting Option1 Option2 Modbus_Requests I ables 1 counter 3 0 0 4 1 2 2 0utput 1 5 4 4 1 1 3 input 2 0 8 4 1 2 Definition of variables Id Reqld Name Type Signed Position Option1 Option2 CoeffA CoeffB Unit Action Modbus_VariablesT ables 131 counter1 3 2 1 1 0 pulse 4 2 1 counter2 3 2 2 1 0 pulse 4 331 counter3 3 2 3 1 0 pulse 4 4 1 counter4 3 2 4 1 0 pulse 4 84 MU WebdynSun V1 1 2014 5 2 0utput1 1 2 1 1 0 4 6 2 0utput2 1 2 2 1 0 4 7 2 0output3 1 2 32. A connection oriented protocol for the Internet which provides data segmentation into packets that are transmitted over the network via the IP protocol This protocol provides a reliable data transfer service See also IP TCP IP Transmission Control Protocol Internet Protocol The suite of network protocols that provide interconnection services between computers with different hardware architectures and operating systems TCP IP includes standards for communication between computers and conventions for network interconnection and for routing by the unit TIC Tele Information Client Remote Customer Information Digital data output port for ERDF smart meters which provides constant output of the contractual parameters managed as well as the consumption figures measured MU WebdynSun V1 1 2014 2 About this document The purpose of this guide is to describe the installation and operation of a WebdynSun gateway For all instructions pertaining to the installation and operation of inverters please see the Appendices corresponding to the individual inverters 2 1 Scope The present technical description is valid for WebdynSun gateways from hardware version 2 onwards and from software version V3 02 21 and up 2 2 Target audience This guide is intended for users of WebdynSun gateways 2 3 Product versions There are two versions of this unit WGE G PV this model includes a GSM GPRS modem WGE R PV this model inclu
3. MU WebdynSun V1 1 2014 9 1 2 Switching relay OUTOULS ncninsapnnesteaneranaidnarsantitieniniiedivicntsdieril iahsacedtavesteiloat svanthiectiaiedasenDtayaulbeatesn 63 9 1 3 Dy COMLAGT INDUS setuscsnetinaersanedsantacansiienasiesanbesinatvasitheansansnate suphehenbetenesiaaubtedasncdnaiesuphseasveteasireans 63 9 1 4 Index inputs pulse counting saiirinicvinsaivesndaatspesrithaut exakediwersiatedasenddiusandbintsxedaddreadindedeseisiueniediaadeis 64 92 Declaring IN OUY OUND poris sssrinin E E ARAA riae NETA aE AAE era O Eare ERs 65 9 3 Inpput OUtPUt AePINITION MES aeai aR EE Eeee ke EAk RAin EARNER 65 9 4 Checking that input output ports are operating correctly cccccccccessseceeeceeseeceeeeeeeeeeseeeeeeceeseeeeees 67 SRo E a e E oUa CS ie EE E E O A E E O E E E A 68 9 5 1 FHM AMS SV E h a E E E E T E E 68 9 5 2 Format of input output Gatar ccccccccccseecceecseeseeeeecaeeeceeeeaeeeeeeeesseeeeeeesseaseeeeessaeeeeseeseneeeeeeaas 68 9 5 3 EAD er E E E E R E EEEE E E ES 69 9 6 Alarms on the dry loop inputs cccccccccseeeeceeeeeeeceeeeeeeeeeeeeeeeeseeeeesseeseeeeeseaseeeesseeseeesessaaeeeesesseaeees 71 9 6 1 Syntax Of the alarms file NAME cccccseeecceceeeeeeceeeeeecaeeeeeeeeseeeeeegeeeeseueeeeseeeeseaeeeesseneeessaeeees 71 9 6 2 FON IAN AAS E nh suduroewanansmevanresnentaiy AT A E ence nes ecnan pars A A E A E 71 9 6 3 Example of an alarm On a Ory lOOP cccccccccseeseceeceeeseeeeceeeseeee
4. Webdyn Webdynsun The monitoring gateway for your solar installation User s Manual MU WebdynSun V1 1 2014 Table of Contents Te 0 Scr epee EE ee eee ee ee 6 2 POON TIS CO CUM SINE sesine EEE aE EA EEEE 7 PA 2 O E E ne eee ee ee eee 7 RR WANS UCI INCC aeiantaiscinetincnavahertarsscadshcanctehanine pina tacapsh canned E T AEE AEE 7 2o POON VO IONO aeee E E EE E E E ES 7 PA a A N E a EEEE A EE EEE EE EE AEEA ee 8 Os d FINCIDICS OF ODE O ee a E E E E EA E E 9 3 1 Overview diagram of a comprehensive monitoring Solution ccceeeeceeeeeeeeceeeceeeeseeeeeeeeeeeeeesaaaees 9 de WIA Cale CUS I SUIC Sua heken ent ahcep ennnies nnar A EEE a E EE A ES Eea 10 4 1 Tecmnicalcnaracieris WC S wasn cinestsxe pier naa neh dducessvaticuacunetsaw siNennenraldbeandihalisuasenchisianih dha db EEEIEE RNEER 10 A2 Li stofavaillable We AC SS casieria aa aa a aa a Na 11 A Opn ANC a e S MCS ar a NAE E EE EAE 12 4 3 1 DIN RAIE POWER CUR PLY eee eee e E E AE A 12 4 3 2 GSM GPRS right angled stub antenna ccccccecsccccceceeseesseeeeeeeeeeaeeeeseeeeeeesseaeeeeeeeesssaaaegeses 14 4 3 3 GSM GPRS externally mounted ANTENNA ceeeccccccecceeeeeeeeeeeeeeeeeaeeseeeeeeeeeessaeseeeeeeeessaaaaeses 14 Oy P USE aa A E nuduamiantanet tent 15 Sl WACCCSS TO MC FTF SONO eera a a E E T S 15 5 2 Access tothe NTP SCI Vel tcsstecgerteswares msuerene nisanevedanenscasmianaeiaewedvautsaiavtansienmaagniatsnvalepomameaaduseetvesus 16 5 3
5. COMP IDsite_config ini IDsite_var ini amp RC 0 amp RC COMP Download of a new firmware release URL confirm php NSITE IDsite amp ACTION CONF IGBIN amp RC 0 amp RC COMP 103 MU WebdynSun V1 1 2014 15 Tools and diagnostics 15 1 Events journal On every connection the gateway uploads a journal of events to the LOG directory of the remote FTP server This indicates the actions it has performed since the previous connection It is compressed into GZ format GZ and bears the name prefixID_ YYMMDD_hhmmss og gz List of messages that can appear in the events journal Error config file filename on variable Error in a variable in a configuration file variable name FTP connection failed Error connecting to the FTP server GPRS signal RSSI Level of the GSM signal 1 to 31 Restart Gateway The gateway was restarted WAN connection opened Beginning of the WAN connection WAN connection terminated End of the WAN connection a O ooo D FTP get firmware OK Firmware successfully downloaded from FTP server 4 MU WebdynSun V1 1 2014 FTP get firmware failed Firmware not downloaded from FTP server FTP send alarm file OK filename Upload of alarm file filename successful FTP send alarm file failed filename Upload of alarm file filename unsuccessful FTP send data file OK filename Upload of data file Inverters TIC IO MODBUS etc named filename successful FTP send
6. 1 closed 9 5 3 Example Acquisition from the input output ports with data being saved every 5 minutes 2 temperature sensors connected to the AIN1 index 1 and AIN3 index 3 inputs 2 bang bang inputs connected to DIN1 index 5 and DIN2 index 6 2 outputs connected to DOUT1 index 9 and DOUT2 index 10 1 pulse counter connected to the IND2 index 12 input 11 1 min 1 max 1 avg 3 min 3 max 3 avg 5 6 9 10 12 29 03 13 13 55 00 750 854 767 250 260 255 0 1 0 1 150 29 03 13 14 00 01 755 886 775 260 270 267 1 0 1 1 185 With the definition file prefix D_lO ini 1 1 1 Temperature 1 0 098 50 2 2 2 1 ANALOG2 1 0 0 3 3 1 Temperature 2 0 098 50 2 4 4 1 ANALOG4 1 0 0 5 1 2 Contact 1 0 0 8 6 2 2 Contact 2 0 0 8 7 3 2 INPUT3 0 0 0 8 4 2 INPUT4 0 0 0 9 1 3 Switch 1 0 0 4 10 2 3 Switch 2 0 0 4 11 1 4 INDEX1 0 0 0 12 2 4 Meter 1 0 0 4 On the server side a link must be set up between the data received and the corresponding definition files 69 MU WebdynSun V1 1 2014 After the data are formatted we obtain the following results Temperature measurements The sensors used have a temperature range from 50 C to 50 C As the resolution of the analogue digital converter on the AIN1 to AIN4 inputs is 10 bits 0 to 1023 we can deduce the scaling coefficients A and B as follows A 0 098 and B 50 Pe a 29 03 13 13 55 00 zonas 75 es 7 a ee ae 2o aa a a i as _
7. Each entry in this table is defined by 12 fields separated by semicolons Index for the variable from 1 to N indexRequest Designation of Modbus request defined the table Modbus A E a of the Modbus variable type a eaa e of variable 1 gt bit 2 gt byte 3 gt word 4 gt reversed word 5 gt double word 6 gt reversed double word 7 gt floating point 8 gt reversed floating point 9 gt character string 10 gt Specific Siebert display format Sign of the variable 1 gt signed 2 gt unsigned Position of the variable in the packet MU WebdynSun V1 1 2014 a Units of the variable action Processing method for the variable 0 variable not collected variable handled as a parameter minimum maximum and calculated average collected Instantaneous value alarm triggered on change of status Example Definition of a Modbus slave handling 4 pulse counters 4 outputs and 4 inputs Declaration of Modbus requests S readFunctionCode _ 3 read holding registers 1 read coils 3 read holding registers Led aA Tt me e E Eo write single coil 5 4 4 1 enableWriting 2 disabled 1 apu Not supplied Not supplied Not supplied ae l Not supplied Not supplied Not supplied Modbus_Requesis T ables 1 counter 3 0 0 451 52 2 output 1 35345451531 3 input 2 0 8 4 1 2 80 MU WebdynSun V1 1 2014 Declaration of variables FF Var
8. The WebdynSun has three configuration files prefixID_config ini this contains the general parameters of the WebdynSun prefixID_dag ini this contains the parameters required for data acquisition prefix D_var ini this contains the information for scheduling connection and data acquisition times These 3 files are contained in the configuration directory on the FTP server By default this directory is CONFIG but can be modified by means of the variable FTP _DirConfig in the file prefix D_config ini If the gateway does not detect these files on the FTP server it creates them from its current configuration Furthermore at every connection to the server the gateway checks the modification dates and sizes of the files in order to detect any modification of one of the files Should a modification be detected the file is downloaded by the gateway The details of each parameter in the configuration files will be explained as required in the remainder of this documentation 6 1 2 Definition files The role of the definition file is to define the set of data to be collected for a given type of module It may be generated automatically by the WebdynSun unit or created by the IT department depending on the specific details of the module that is to be managed The WebdynSun therefore possesses as many definition files as there are types of module to be controlled The link between the definition files and the unit is provid
9. fai j k A i5 PE Fami etd oo ae b Ee s T w i PF EG iy ty f E EJ oe be o am F a i j a aa ae Hie oe See CJ te 4 On continuously i Power on hardware version V2 Operational status of ACTIVITY l TESE Flashing slowly Operational llati h i SERVICES Installation Flashing rapidly progress Flashing rapidly Initialisation On continuously Initialisation complete RS485 A activity a LED inverters Traffic to and from TIC initialisation Initialisation complete the gateway Flashing rapidly Activity on Remote Customer Information On continuously A meted Traffic to and from smart interfaces Flickering meters Modbus initialisation Flashing rapidly Initialisation complete On continuously Traffic to and from Modbus devices RS485 RS232 B RS485 RS232 B activity LED Modbus devices Flickering 108 MU WebdynSun V1 1 2014 Ethernet On continuously Initialisation complete Connection with remote Flashing slowly l server in progress l GPRS modem being Initialisation complete Ethernet connection being WAN connection via l WAN connection via Flashes periodically 1 to GPRS 5 times Signal strength number of flashes Flashing slow Connection with remote i server in progress PSTN modem being initialised ONAE Oe VEEN On continuous initialisation complete PSTN Flashing slow Connection with remote f server in progress On 100 Mbps Flash
10. 1 0 4 8 2 0utput4 1 2 4 1 0 4 9 3 input1 1 2 1 1 0 8 10 3 input2 1 2 2 1 0 8 11 3 input3 1 2 3 1 0 8 12 3 input4 1 2 4 1 0 8 prefixID_ MODBUS_TYPE2 ini Definition of packets Id Name ReadFctCode WriteFctCode StartReg NbReg EnableReading EnableWriting Option1 Option2 Modbus_Requests Tables 1 voltage 3 0 0 4 1 2 Definition of variables Id Reqld Name Type Signed Position Option1 Option2 CoeffA CoeffB Unit Action Modbus_Variables Tables 1 1 U1 3 2 1 10 0 V 2 2 1 U2 3 2 2 10 0 V 2 On the server side a link must be set up between the data received and the corresponding definition files After the data are formatted we obtain the following results Device at address 1 Counter values 27 03 13 09 45 00 32pulses 52 pulses 102 pulses 27 03 13 10 00 00 35 pulses 57 pulses 108 pulses Status of outputs 27 03 13 09 45 00 at of a o 27 03 13 10 00 00 tf ot o o 85 MU WebdynSun V1 1 2014 Status of inputs 27 03 13 09 45 00 of o ol 27 03 13 10 00 00 Of Of Device at address 2 Measured tension values 10 6 Modbus alarms A variable declared as an alarm action field 8 for the variable in the definition file causes an alarm to be triggered if it changes its status This alarm is written to a file in CSV format This file is compressed into GZ format then uploaded to the FTP server at the next acqui
11. 13 12 45 03 701009361697 BASE 15 000445453 33000 000 000 002 000 000 00100 00000 00110C 0C 29 03 13 13 00 01 701009361697 BASE 15 000445458 33000 000 000 002 000 000 00100 00000 00110C 0C 29 03 13 13 15 02 701009361697 BASE 15 000445463 33000 000 000 002 000 000 00100 00000 00110C 0C With the definition file prefix D_TIC _CBEMT ini 1 ADCO 4 2 OPTARIF 4 3 ISOUSC 4 4 BASE 4 5 HCHC 4 6 HCHP 4 7 EJPHN 4 8 EJPHPM 4 9 BBRHCJB 4 10 BBRHPUJB 4 11 BBRHCJW 4 12 BBRHPJW 4 13 BBRHCJR 4 14 BBRHPJR 4 15 PEJP 4 16 PTEC 4 17 DEMAIN 4 18 IINST 154 19 IINST2 4 20 IINST3 4 59 MU WebdynSun V1 1 2014 21 IMAX1 4 22 IMAX2 4 23 IMAX3 4 24 PMAX 4 25 PAPP 4 26 HHPHC 4 27 MOTDETAT 4 28 PPOT 4 On the server side a link must be set up between the data received and the corresponding definition files After the data are formatted we obtain the following results The meter with serial number 701009361697 ADCO is configured with the BASE tariff option OPTARIF and contractual current ISOUSC of 15 A The present tariff period PTEC during acquisition is Every Hour TH The maximum three phase power attained PMAX is 100 W The index corresponding to the present tariff option went up by 15 Wh in 45 minutes po BASE The instantaneous current for the three phases 1 2 and 3 during the acquisition period collected is INST IINST2 IINST3 29 03 13 12 30 11 jo lo lo 29 03 13 12 45 03 o o Jo
12. 29 03 13 13 00 01 o o Jo 13 15 o jo 29 03 13 13 15 02 Jo The maximum current for phases 1 2 and 3 during the acquisition period collected is 29 03 13 12 30 01 2 Oo 29 03 13 12 45 03 2 29 03 13 13 00 01 29 03 13 13 15 02 The data values HCHC HCHP EJPHN EJPHPM BBRHCJB BBRHPJB BBRHCJW BBRHPJW BBRHCIJR BBRHPJR and PEJP are not supplied because they do not correspondent to the selected tariff option 60 MU WebdynSun V1 1 2014 9 Input output management This chapter describes the set of facilities that enables management of the input output features of the WebdynSun The WebdynSun has 4 dry contact bang bang inputs 2 index inputs for pulse counting 2 switching relay outputs 4 analogue inputs configurable as 0 10 V or 4 20 mA using jumpers 9 1 Wiring 4 Analogue inputs 0 10 V or 4 20 mA Ts 7 A a a AeA RS485CB RS23eC BR IND1 EA EEEE ae TRS SC ae 0e We 06 07 08 09 10 11 12 14 15 16 17 18 19 20 el 22 e3PA25 26 F L Switching relay outputs Dry contact inputs index inputs 9 1 1 Analogue inputs 0 10 V or 4 20 mA The WebdynSun provides 4 analogue inputs each provided with a power output that can be used to power sensors remotely The tension delivered by these pour outputs has the same value as the tension supplying the gateway The earth terminals are common Each analogue input can be configured to range from 0 10 V
13. 3 Automatic connection at fixed TIMES cee cccccccseeeeeeeeceeeeeeeeecaeeseeeeeseeesceeessaeeeeeesseaseeeessaeeeeeees 30 MU WebdynSun V1 1 2014 6 4 4 Automatic CONNECTION ON data capture cccccseeeeccceceeeeeeeeeaeeeeeeeeseeeeeeeessaeeeeeesseaeeeeessaeeeeeeees 31 6 4 5 Keeping the CONNECTION Open ccccccccccssseecceeseecceeeeecseuseeeseuseeeceaeeesseuseeeseageeessageeessaneeesseass 32 6 4 6 Automatic CONNECTION ON alarm ccccceeeceecseeeeeeseeeceeceeseeesaeueeeeseaeeeseaeeeesseeesessueeesseneeesaaeeees 32 6 4 7 Optimising THE CONNECUON cecceececuenccossectinseatedend ineens anin ana eT aaa ERE EERE eaa Ea Eai 32 6 5 Acquisition period and time slots ccccccseeececceeeeeeeeecaeeeeeeeeceaeeceeecseuseeeesceaaseeesssaaeeeesesaaeeeeessaaass 33 inverter Me AG SiC Mlncats san nesiy emisti ndicdnteapivedsoanenciintain snearadnweawranminael AEE PANE NENESE eTA REE AEA Aera adinsammuednnebieatiuasiteates 35 TAs E E S E E E EE O A E A E 36 2 Inverter diSCOVely iaccsncesacaneresaccssaavennanteninuniausncanntthunasanenatesmacsansnbacsndntanavaneesmianmeesnnteacsandanoensiaa tnmesiadeent 38 7 2 1 Discovering inverters using the built in Web server ssssssssssssrnrrrnsrrrrresrrrrrrrrnrrrrsrrrrrrennne 38 7 2 2 Discovering inverters via a command file ccecccccseeseecceeeeeeeeeeeeeseeeeeeeeeeueeesseneeeseeseeesseneeeeeas 39 7 3 Declaring and configuring inverters ccccceeeeccecceee
14. 97 MU WebdynSun V1 1 2014 13 Updating the unit The gateway can be updated locally via the built in Web server or remotely via the FTP server Only pak files containing firmware supplied by Webdyn should be used 13 1 Updating via the Web server To update your WebdynSun gateway from the Ugrade menu of the built in Web server go through the following steps Webdyn r CD Upgrade New firmware Please select the upgrade file and click on OK max 1Mb Choose File No file chosen oK About gateway Software version 2 05 10 Mar 25 2013 1 Click on Choose file and select the pak file provided by Webdyn 2 Click on OK 3 The following message is displayed The upload can take till 3 minutes Please wait during this 4 Click on OK and wait until the file download onto the gateway is complete Webdyn oO Upgrade New firmware Please select the upgrade file and click on OK max 1Mb Choisissez un fichier wg upgrade pak oK About gateway Software version 2 06 00 May 30 2013 Uploading Please wait 5 Once the download has finished the following page is displayed 98 MU WebdynSun V1 1 2014 e Upload file success Upgrade New firmware New firmware uploaded Please restart to upgrade or delete it to cancel the operation Restat Delete About gateway Software version 2 06 00 May 30 2013 6 Click on Restar
15. Connexion via GPRS or Ethernet ccceccccccecccsssseeeeeeeeeeeeeeeseeeeeeeseeeeeeseceeeessseeeaseeeeeeeessaaaaeeeeeeees 16 5 3 1 ENernel CONNSCUON srst Taena O a oaa ETAN a Aree EETA renias 16 D2 OPR COMMIS COA osaa E N 16 SASA Managing the PIN code for the SIM card ccccecccceccsesseeeeeeaeeeeeeeecaeeeeeeeessaeeeeeeessaaseeesenaaess 16 Oe OPC TAS U ieie r E saw ensasssh nec adeeaineseteeeceteess4nne 17 6 1 Roles of the WebdynSun files ccccccccssssececcceeseeeecaeeeeceeeceeeseeeeeesaaseeeeeseaaeeeeessaaseeesssaaeeeesssaaess 17 6 1 1 COMMOTION MES seriesas TTNET AEEA EE EAA EA ma iE aaia 17 6 1 2 Dalai E e E E E E O E 17 6 2 IPNRA SON ni E E EEEO EEE aa REA E AEU EAE AE 18 6 2 1 Configuration via the built in Web SrVel ccccceeeccccecseeeeeeeeeseeseceeeeeeeeseeeesseaeeceeeesaaeeeeeesaaees 22 6 2 2 Configuration via SMS ccsccccecsceseeeeescceseeecesecaseneeeseceseeeenscceseeeeesaceseeesnocenseeesseaseetensneceess 27 6 3 Setting the unit date and tiMe cc cccccccceeeceeeeeseeeeeeeeeeeeeeseeeeeeeesseeeseeeeeeeessseeaseeeeeeeesssaaseeeeeees 28 6 4 Connexion modes and PELIOMS cccccccceeeseeeceecaeeeeeeeeceeeeeeeeeeeesceeeseeeeeeeeessaaeeeeeeseaeeeeessaaseeeeessaaess 29 6 4 1 Manuae OIC CUI i osistsiran iE R EEE R E EENE E RE E ORE aN 29 6 4 2 Periodic automatic Connection ccccccseecceeeceeeeeeeeeceeeeeceeecaeeeceessaaeeeceeessaaeeeesaaeeeeesssageeeeeeaas 30 6 4
16. SMA Modbus TCP Pac Socomec SunSys Home Inverter Wattage Socomec SunSys Pro AC output A Wattage SolarMax MaxComm AC Power Total energy produced The total energy corresponds to the sum of the energy values from all the inverters configured on the gateway This variable can have different names depending on the manufacturer and the type of inverter It is for this reason that a list of variable names is predefined in the gateway to enable it to identify the inverter variables to be added in However it is possible to specify a variable name in the definition file prefix D_REPORT ini Protocol Default variable name SMA SMAnet E Total PowerOne Aurora Total Energy schneider SunEzy E Total Kaco Powador E Total Fronius Energy T otalex Schneider ConextCOM EnergyProduced Danfoss ComLynx TotalEnergyProduction Power One Manual Addressing Total Energy Central 90 MU WebdynSun V1 1 2014 siemens PVM Total Yield Diehl Ako Platinium Energy Total SMA Modbus TCP E Total Socomec SunSys Home Life Time Energy Socomec SunSys Pro Total Energy Ingeteam Modbus TCP Total Energy SolarMax MaxComm Energy Total Daily energy produced The daily energy is calculated by subtracting the previous day s total energy value from the current value CQ emissions savings The COs emissions savings are proportional to the total energy produced The conversion factor can be co
17. VOLTAGE RANGE 85 264VAC 120 370VDC FREQUENCY RANGE 47 63Hz INPUT AC CURRENT Typ 0 88A 115VAC 0 48A 230VAC INRUSH CURRENT Typ COLD START 35A 115VAC 65A 230VAC OVERLOAD Note 5 105 160 rated output power Protection type Constant current limiting PROTECTION recovers automatically after fault condition is removed WORKING TEMP 20 C 60 C Refer to output load derating curve WORKING HUMIDITY 20 90 RH non condensing ENVIRONMENT STORAGE TEMP HUMIDITY 40 C 85 C 10 95 RH TEMP TEMP COEFFICIENT 0 03 0 50 C m 10 500Hz 2G 10min 1cycle period for 60min each along X Y Z axes Mounting Compliance to IEC60068 2 6 SAFETY STANDARDS UL60950 1 TUV EN60950 1 approved design refer to EN50178 WITHSTAND piccaa P Ce 3 KV AC SAFETY 8 man RESISTANCE I P bin 100 megohm 500 V DC 25 70 RH EMC EMI CONDUCTION amp Compliance to EN55011 EN55022 CISPR22 RADIATION EN61204 3 Class B HARMONIC CURRENT Compliance to EN61000 3 2 3 EMS IMMUNITY Compliance to EN61000 4 2 3 4 5 6 8 11 ENV50204 EN55024 EN61000 6 2 EN61204 3 heavy industry level criteria A ee 1172 3K hr min MIL HDBK 217F 25 a 25 93 56mm W H D OTHERS MU WebdynSun V1 1 2014 4 3 2 GSM GPRS right angled stub antenna Characteristics Frequency range 900 1800 MHz 4 3 3 GSM GPRS externally mounted antenna 268 5t2 pro a FTFTFrevBp r_WmW
18. a zo a 29 03 13 14 00 01 aonana 78 23 C 36 C n i ome T za c A a 23 A C In green the values converted to degrees Celsius using the A and B coefficients from the definition file according to the conversion formula Ax B Capture of the bang bang inputs a Contact 1 Contact 2 29 03 13 13 55 00 Contact open Contact closed 29 03 13 14 00 01 Contact closed Contact open Capture of the bang bang outputs 29 03 13 13 55 00 Relay open Relay closed 29 03 13 14 00 01 Relay closed Relay closed Capture of the pulse counter coun 29 03 13 13 55 00 150 pulses 29 03 13 14 00 01 185 pulses 70 MU WebdynSun V1 1 2014 9 6 Alarms on the dry loop inputs The dry loop inputs can be configured as alarm triggers This is done via the input output definition file by setting the action field for the relevant inputs to 8 In this case a change to the input status causes an alarm to be triggered This alarm is written to a file in CSV format This file is compressed into GZ format then uploaded to the FTP server at the next acquisition time 9 6 1 Syntax of the alarms file name The alarms file uploaded to the FTP server complies with the following format prefixID_AL_YYMMDD_hhmmss csv gz Where prefixID gateway identifier YYMMDD_hhmmss timestamp for the archive in the format year month day hour minute second 9 6 2 Format of alarms The uplo
19. as soon as any local modification is carried out This must be done before connecting so that the gateway can upload its new prefixiD_config ini configuration file 21 MU WebdynSun V1 1 2014 6 2 1 Configuration via the built in Web server Access to the built in Web interface on the WebdynSun gateway is provided via the gateway s LAN connection As the gateway does not cross Ethernet signals when there is a direct connection between the gateway and the computer a crossover cable must be used In addition both the computer used and the gateway must belong to the same subnet If the WebdynSun gateway has a static IP address the default situation the computer must also be configured to use a compatible static IP address This static address must belong to the same subnet as the WebdynSun gateway On delivery the settings for the WebdynSun gateway are as follows IP address 192 168 1 12 Subnet mask 255 255 255 0 Network administrator If your local network is managed by a network administrator contact him or her before connecting the WebdynSun gateway up to your network Connecting to the built in Web interface 1 Once your computer has been correctly configured 2 Launch your Web browser Internet Explorer Firefox etc 3 Go to the home page of the WebdynSun gateway using the browser s address bar to specify the address http 192 168 1 12 4 The following window is displayed Authe
20. data file failed filename Upload of data file Inverters TIC IO MODBUS etc named filename unsuccessful FTP send log file OK filename Upload of events journal filename successful FTP send log file failed filename Upload of events journal filename unsuccessful FTP send debug file OK filename Upload of debug trace file filename successful FTP send debug file failed filename Upload of debug trace file filename unsuccessful FTP send parameters file OK filename Upload of parameter file filename successful FTP send parameters file failed filename Upload of parameter file filename unsuccessful NTP synchronization OK Synchronisation of gateway time via Network Time Protocol successful NTP synchronization failed Synchronisation of gateway time via NTP failed a ooo oo SMS received Change FIP parameters A request to change FTP parameters was received Server server Login login via SMS Password password SMS _ received Change GPRS _ number A request to change the GPRS call number was number received via SMS SMS received Change GPRS APN apn A request to change the APN was received via SMS SMS received p M e ARRE a GPRS login login An SMS to ae the APN login was received SMS received hondina GPRS password An SMS to aare the APN password was received password MU WebdynSun V1 1 2014 Example lt 0 gt Apr 04 13 27 10 Application FTP send debug f
21. done via the built in Web server by going to the Control Inverters menu PARTIN l Setup Inverters control maat Gii Sorin numier Typs Meteor pettiness Oefinkion fie Upgrade 2000366720 WAZITLOY croc peefixdD_INV_WR21TL 09 ini oo F ce Pir aay y Chol pretu NV _WRZ21ILOA in iiprank Status Indicates the status of the configured inverter Definition file P l Indicates the status of the definition file The inverter is correctly configured associated with the configured inverter and communicating with the WebdynSun AT fos prefixID_File ini file downloaded locally and valid uw The inverter is incorrectly configured or is not communicating with the prefix D_File ini file not downloaded locally or WebdynSun invalid 44 MU WebdynSun V1 1 2014 You can also look at the RS485 A LED on the front panel of the unit to check on the activity over the RS485 A link This LED flashes rapidly on reception of packets from inverters 7 6 Inverter data Once it has been configured the WebdynSun constantly collects data from the inverters then writes it to a text file in CSV format This file is compressed in GZ format then uploaded periodically to the FTP server for subsequent operations 7 6 1 Filename syntax The data file uploaded to the FTP server complies with the following format prefixID_INV_f_F_YYMMDD_hhmmss csv gz Where prefixID gateway identifier YYMMDD_hh
22. input 0 10 V or 4 20 mA 2 bang bang input 3 switching relay output 4 pulse counting input coeffA_N and coeffB_N Physical conversion coefficients For the analogue inputs the gateway uploads a digital value ranging from 0 to 1023 To obtain a physical value two successive conversions must be carried out a conversion into values in the ranges 0 10 V or 4 20 mA then a physical conversion by applying these A and B coefficients 0 variable not collected 2 minimum maximum and average collected 4 instantaneous variable 8 alarm Note Depending on the type of the variable several actions are applicable If the action defined is not consistent with the variable type it is ignored The file generated by default is prefix D_ O ini 1 1 1 ANALOG1 1 0 2 2 2 1 ANALOG2 1 0 2 3 3 1 ANALOG3 1 0 2 4 4 1 ANALOG4 1 0 2 5 1 2 INPUT1 0 0 8 6 2 2 INPUT2 0 0 8 66 MU WebdynSun V1 1 2014 7 3 2 INPUT3 0 0 8 8 4 2 INPUT4 0 0 8 9 1 3 OUTPUT 1 0 0 4 10 2 3 O0UTPUT2 0 0 4 11 1 4 INDEX1 0 0 4 12 2 4 INDEX2 0 0 4 9 4 Checking that input output ports are operating correctly It is advisable to check that input output ports are operating correctly after they have been installed and configured This can be done via the built in Web server by going to the Control Input Output menu This page enables consistency checks on the values and status flags read from the various input output devices connecte
23. php MAC ADR MAC address Automatic attribution of the site number MAC address format XX XX XX XX XX XX HTTP response ReturnCode Dsite The return codes of the responses from the HTTP server may be 00 OK 13 MAC ADR absent 1 Internal server problem Web Service confirm php confirm php NSITE IDsite amp Informs the HTTP server that an inverter ACTION UPLOADDATA amp meter Modbus or input output data file has been uploaded to the FTP server RC 0 amp RC COMP confirm php NSITE IDsite amp Informs the HTTP server that an alarms file has ACTION UPLOADALARM amp been uploaded to the FTP server RC 0 amp RC COMP confirm php NSITE IDsite amp Informs the HTTP server that configuration files ACTION UPLOADGLOBAL8 amp have been uploaded to the FTP server ACTION COMP list of files involved amp RC 0 amp RC COMP 101 confirm php confirm php confirm php confirm php confirm php confirm php confirm php NSITE IDsite amp ACTION CONFIGGLOBAL amp ACTION COMP2 list of files involved amp RC 0 amp RC COMP NSITE IDsite amp ACTION UPLOADDEF amp ACTION COMP2 list of files involved amp RC 0 amp RC COMP NSITE IDsite amp ACTION CONFIGDEF amp ACTION COMP2 list of files involved amp RC 0 amp RC COMP NSITE IDsite amp ACTION CONFIGINV amp RC 0 amp RC COMP NSITE IDsite amp ACTION CMD amp RC 0 amp RC COMP NSITE IDsite amp ACTION CONFIGBIN
24. status OK or ERR WS status of Web Services OK or ERR TIC status of the TIC meter link OK or ERR INV status of the inverter link OK or ERR MODBUS status of the Modbus link OK or ERR DI status of the bang bang inputs configured Al status of the analogue inputs configured DO status of the outputs configured DX status of the index inputs configured Operational only if the option to send SMSs is enabled 15 7 Debug traces Occasionally it is necessary to enable debug traces so as to be able to diagnose a problem This is done by providing values for the parameters listed below in the configuration file prefixID_config ini Enable Disable debugging logs 0 Disabled Log Enable 1 Enabled Reserved for use by Webdyn in support mode 110 Log Level Log RemotelpAddr CFG_Debug INV_ Debug MODBUS_ Debug TIC_Debug lO_ Debug MODEM_Debug MU WebdynSun V1 1 2014 Level of detail in debugging logs 0 Emerg emergency 1 Alert 2 Crit critical 3 Err error 4 Warning 5 Notice default value 6 Info informational 7 Debug Reserved for use by Webdyn in support mode Syslog destination address Reserved for use by Webdyn in support mode up to 15 characters Syslog destination port Reserved for use by Webdyn in support mode Enable disable configuration traces O Disabled 1 Enabled Enable disable inverter traces O Disabled 1 Enabled 2 Verbose mode Enable disable Modb
25. three phase meter on the TIC 1 input TIC Mode 0 TIC_SN O 1 TIC_FileDefName 0 prefix D_TIC_CBEMT ini To generate the file prefix D_daq ini automatically after launching a discovery phase you must proceed as follows 1 Delete the file prefix ID_daq ini from the FTP server 2 Force connection between the WebdynSun and the server via the web page the push button or an SMS 3 The gateway will regenerate a prefix D_daq ini file with the local information that it has gathered during its meter discovery phase 54 MU WebdynSun V1 1 2014 8 4 Meter definition files Each type of meter is characterised by its definition file The purpose of this file is to list the variables to be collected For automatic generation of configuration files the WebdynSun can upload the definition files for the meters it has discovered to the server The files generated by default are Description prefixID_TIC_CBEMM ini Bleu electronic single phase multi tariff meter CBEMM Bleu electronic single phase multi tariff meter CBEMM ICC version Bleu electronic three phase multi tariff meter CBETM Jaune electronic meter CJE Interface Client le Emeraude meter ICE Interface Client le Emeraude a quatre quadrants meter ICE 4Q If despite all during the discovery phase a meter is not recognised a definition file is generated by listing the variables available at that instant This file
26. to 59 seconds Inverters TIC I O Modbus Considered only if DAQ_ Period is equal to 0 DAQ_HeaderOption Enable Disable display of column headers in the data files O disabled 1 enabled Generic parameters that characterise the bus Variable Definition Comments Default value MODBUS_Mode Mode for serial communication Bus RS232 or RS485 1 with Modbus devices with 2 or 4 wires 0 RS232 1 RS485 2 wires 2 RS485 4 wires MODBUS BaudRate Speed of the serial link 9600 1200 2400 9600 19200 75 MU WebdynSun V1 1 2014 38400 57600 115200 MODBUS Parity Parity of the serial link 0 None 1 Even 2 Odd MODBUS_DataBit Number of data bits 8 7 MODBUS_StopBit Number of stop bits 1 2 Specific parameters for each Modbus slave unit Variable Definition Comments Default value MODBUS _Addr n Address of Modbus device n n 0 to 246 1 between 1 and 254 MODBUS _Namef n Name of Modbus device n n 0 to 246 empty up to 29 characters MODBUS FileDefName n Name of definition file for Modbus n 0 to 246 empty device n up to 59 characters MODBUS_Type n Device type generic or specific if n 0 to 246 not O Used only in specific cases such as Mersen devices MODBUS Interface n Medium used n 0 to 246 0 Serial interface RS485 RS232 1 Ethernet communication is via Modbus TCP Example 76 MU WebdynSun V1 1 2014 Configuration of the bus Mode RS485 2 wires baud rate 19
27. up to 15 characters Address of the gateway router 0 0 0 0 on the LAN ANAREN Communication via Ethernet up to 15 characters Address of the DNS server on 0 0 0 0 the LAN EAR TEND Communication via Ethernet up to 15 characters Enable Disable DHCP For automatic provision of Ethernet IP addresses 0 Disabled 1 Enabled GPRS Access Point Name m2minternet APN epee Provided by mobile operator up to 29 characters GPRS APN identifier sf GPRS_Login Provided by mobile operator up to 29 characters GPRS APN password sf GPRS_Password Provided by mobile operator up to 29 characters Phone number for GPRS 99 1 GPRS_PhoneNumber In France 99 1 up to 13 characters Phone number for PSTN empty LAN_DHCP_Enable r r Provided by the Internet Service Provider ISP FAL PhoneNumber up to 13 characters PSTN identifier empty FAI Login Provided by the ISP a eeEEE PSTN password FAI Password Provided by the ISP up to 29 characters Remote server connexion interface selected WAN_ConnectionInter J Etheinet 1 modem GPRS or PSTN depending on unit version face Name of remote FTP server up to 29 characters FTP_ Server FTP_Login FTP Password Identifier for connexion to remote FTP server up to 29 characters Password for connexion to remote FTP server up to 29 characters FTP Port Port used for connexion to remote FTP server FTP directory n
28. 0104 It Fakt 0 000000 150 000000 1 49 1 0901 0101 Upv lIst V3 1 000000 0 000000 2 50 2 0901 0101 Upv Soll V 1 000000 0 000000 2 51 3 0901 0101 lac Ist mA _ 1 000000 0 000000 0 52 4 0901 0101 lac Soll o 1 000000 0 000000 0 57 9 0901 0101 dZac ohm 0 001000 5 000000 2 58 10 0901 0101 RErd Start kilohm 1 000000 0 000000 2 59 11 0901 0101 Uac Srr V 1 000000 0 000000 0 MU WebdynSun V1 1 2014 70 1 0904 0102 E Total kWh 0 001000 4 71 2 0904 0102 h Total h 0 000278 4 72 3 0904 0102 h On h 0 000278 4 73 4 0904 0102 Netz Ein 1 000000 4 74 5 0904 0102 Event Cnt 1 000000 4 75 6 0904 0102 Seriennummer _ 1 000000 4 76 1 0908 0100 Status 77 2 0908 0100 Fehler On the server side a link must be set up between the data received and the corresponding definition files After the data are formatted we obtain the following results min max at ea eae E Total h Total Cnt nummer 10 30 01 aaea n eena O O l aal oi 10 30 01 0 215 kWh 62 h 35112 h 4 min 3 371 2000408440 13 10 45 02 Se wince a a ol 10 45 02 0 215 kWh 62h 35112 h 18 min 371 2000408440 13 11 00 02 aael n aenn d l a 11 00 02 0 215 kWh 62 h 35112 h 32 min 2000408440 11 15 01 enil a anean gl a wel 8 11 15 01 0 215 kWh 62 h 35112 h 46 min 2000408440 7 7 nverter parameters Some inverter data is not collected constantly These data items are identified by having the action field in the d
29. 1 24 BAWIE ZN DOUT TIN PRS4B5CAD RS485B RS232 B INDI i e js 4 e fa 1 4 1 Rx RX Tx Tx f 1 Rx Rx Tx Tx 1 Rx TX t 1 01 02 03 04 05 06 07 08 09 10 11 1 17 18 19 20 21 22 23 24 2526 ee RS485 Half duplex 2 wires RS485 A Ethernet Connection Ethernet Switch 100Mbit s RS485 Full duplex 4 wires RS485 A Inverter 1 Inverter N Inverter N 37 MU WebdynSun V1 1 2014 7 2 Inverter discovery This chapter is only applicable if the selected inverter protocol provides the facility to discover the inverters available on the network For more details please see the corresponding Appendix 7 2 1 Discovering inverters using the built in Web server It is possible to perform inverter detection via the built in Web server This is triggered by going to the Install menu and selecting Inverter discovery To launch the detection process follow these steps 1 Enter the number of inverters to be detected 2 Click on the Launch button The following page is displayed Sun Inverters discovery Number of devices to be discovered 5 Launch Stop Serial number Type Network address No inverter found Refreshing 3 The page refreshes itself automatically 4 Wait until the message in green text Discovery in progress disappears While this task is being executed no other tasks may be running If there are any a warning message will b
30. 2 value_n_Device1 variable_x_value_n_Device1 SNTIC sn_N NumDeviceN TypeTIC fileDefinitionName_N nb VariableDeviceN indexVariable_1_DeviceN indexVariable_2 DeviceN indexVariable_x_DeviceN date time_1 variable_1_ value_1_DeviceN variable_2 value_1 DeviceN variable_x_value_1_DeviceN date time_2 variable_1_value_2 DeviceN variable_2 value_2 DeviceN variable_x_value_2 DeviceN date time_n variable_1_value_n_DeviceN variable_2_value_n_DeviceN variable_x_value_n_DeviceN Where sn_N Serial number indicated in the configuration file prefix D_daq ini NumDeviceN index of the meter in DDD format 001 to 003 fileDefinitionName_N name of the definition file associated with the meter nb VariableDeviceN number of variables collected for each meter index Variable x DeviceN index of the variable collected date time_n timestamp of the data capture in YY MM DD hh mm ss format variable_x_value_n value n of variable x captured at date time n 58 MU WebdynSun V1 1 2014 With the definition file being index Variable_1 label1 4 index Variable_2 label2 4 index Variable_x labelx 4 8 6 3 Example Acquisition every 15 minutes of the data from a Blue three phase meter on the TIC 1 input SNTIC 1 001 TypeTIC prefixID_ TIC_CBEMT ini 28 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 03 13 12 30 01 701009361697 BASE 15 000445448 33000 000 000 002 000 000 00100 00000 00110C 0C 29 03
31. 200 baud 8 data bits 1 stop bit no parity MODBUS Mode 1 MODBUS BaudRate 19200 MODBUS_ DataBit 8 MODBUS_StopBit 1 MODBUS Parity 1 Declaration of Modbus slaves Slave 0 Mersen GreenString junction box specific Mersen Modbus Type 1 at address 1 named SLAVE1 and defined by the definition file MODBUS GREENSTRING ini Slave 1 Standard Modbus device Generic Modbus Type 0 at address 2 named SLAVE and defined by the definition file MODBUS_ SLAVE ini MODBUS Type 0 1 MODBUS Addr 0 1 MODBUS_Name 0 SLAVE1 MODBUS FileDefName 0 MODBUS_GREENSTRING ini MODBUS _Type 1 0 MODBUS _Adar 1 2 MODBUS_Name 1 SLAVE2 MODBUS FileDefName 1 MODBUS_ SLAVE ini 7 MU WebdynSun V1 1 2014 10 3 Structure of a Modbus definition file Every Modbus slave declared in the configuration file prefix D_dag ini must have a definition file The purpose of this file is to describe the whole set of variables available for a Modbus device For each variable it describes Collection method used by the gateway to collect the data Processing method average instantaneous parameter or alarm Formatting name unit and scaling coefficient This file must be made available to the gateway on the FTP server By convention the filename has the following format prefixID_MODBUS_deviceName ini where porefixID corresponds to the gateway identifier and deviceName corresponds to the name of the d
32. 5 6 r 8 9 a a ee 2 3 4 5 SourceVarNameExt Up to 20 characters Source TIC smart meter variable lO numerical analogue input variable MODBUS Modbus variable REPORT display variable This is considered only if the Type field has a value between 2 and 6 lt corresponds to the name of the variable to be summed Example Pac for power This field is only necessary if the name of the variable is not in the predefined list described in 11 1 Cumulative variables SourcelIndexEat Oto N Index of the device containing the variable to be displayed SourcelndexVar Index of the variable to be displayed 92 MU WebdynSun V1 1 2014 Target 0 HTML by default 1 HTML MODBUS TargetiIndexEat Oto N Index of the target display device Modbus or other TargetindexVar Oto N Index of the target variable Modbus or other to be updated TargetFloatPrecision O to 6 Number of digits after the decimal point to display for the value TargetBooleanTrueDescri Up to 40 characters Description to be displayed if the Boolean value ption is 1 Example Open TargetBooleanFalseDesc Up to 40 characters Description to be displayed if the Boolean value ription is O Example Closed The device index this index corresponds to the index 0 to N provided in the file IDsite_daq ini 11 3 1 Default definition file IDsite_ REPORT ini 1 1 1 Last acquisition GMT 0 0 0 0 0 0 0 0 0 2 1 2 lnstantaneous power k
33. AT RASAN ANRE EART 97 13 Bee ctiig pincat in i a E E E E N E EE N N E E E E 98 13 1 Updating via the Web server cccccccccseececeeccseeeeeeceaeueeeeeseeuseeeeeseusseeeessueaeeeeseeaaeeeesesaageseeessaaaes 98 13 2 Updating remotely via the FTP server ccccccccccccceseeeeeeceeeeceeeeeeeeeceeeeeeeeeeeeesseaeeeeeessaaeeeeeseaaages 99 14 Using Web Services ct settenisesase esas tartcemesanse need autiendencasesoee depanseesancossb eoteebawausesnaaePandnnet autierbencus toast antennas tye 100 14 1 ENabling and COMMQUMING sxcccsssexocessicinanuiessasdaesseecuacessisdnocasdseresedaeehoncssegeoceddncuassinaccedsnncehoedoineseceseees 100 14 2 Format Of HTTP requests cccccccssseecccesscecceseecceasececeeuseeeseuseeessaeeessascecsuseeessageeessaaseessseags 100 14 3 Examples of Web Services requests cccccccccececeeeseeceeeeeeceueeseceeeeeesseeeseeeeeeeesuaeseeeeeeeeeesagaas 103 15 MOIS and IAGO SCS ase tecsesaceessseasdcnsed secomet inin raea N EiS REEE TAEA PETET sone 104 lot eaea OI e EE A E E E E 104 15 2 Modem HAO FeO essione nostinn iia a ae E ada hiosta maa iaeaea DEE Dga Airea esse 106 15 3 Detecting power CONNECTION cccccceeecceceseeeeecneeeeeeceaseeeesaeeeesaaueeessaeeesseaeeesaeseeessaneeessaneeeesaags 107 15 3 1 Syntax of the alarm file NAME eee ccccseeeeeeceeeeeeeeeeeeeeeeeeeeeseeseeeeseaeeeseeeeeessaseeesseeeesseaeeees 107 WOre ONION daS esisiini e A E EEA dared tesendaneetosecedeseted
34. Bleu electronic single phase multi tariff meter CBEMM ICC version Bleu electronic three phase multi tariff meter CBETM Jaune electronic meter CJE Interface Client le Emeraude meter ICE Interface Clientele Emeraude a quatre quadrants meter ICE 4Q PME PMI meter The TIC inputs on the gateway conform to the appropriate ERDF specification version 4 ERDF NOI CPT O2E To ensure that both the gateway and the meters operate correctly and comply with the characteristics of the TIC bus check with the recommendations of ERDF 49 MU WebdynSun V1 1 2014 8 1 Smart meter wiring Access to the remote information from a smart meter is via 2 terminals To ensure that it operates correctly the system must have a maximum bus length of 500m and use a telephone type cable with the characteristics described in the following clauses e Twisted pair with foil shield and drain e Monofilament copper conductors with diameter 0 5 mm e PVC insulation 5 At 4 fa A AA A AR A AR PAINT TAIN AIN O AINA O NDR 1 1 24 1 e 3 1 1 eay 1 steal lrei 1 24 1 t AS DIN RS485 A RS 485 B RS232 B INDI DONT TIN _ _ 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 2223 24 25 26 Special case connecting an PME PMI meter The electrical interface of an PME PMI meter is different from that of other types of meter as it requires polarisation In ad
35. Connection_Hour1 Hour for connecting to remote FTP server Connection_Minute1 Minute for connecting to remote FTP server 30 MU WebdynSun V1 1 2014 Connection_Hour2 Hour for connecting to remote FTP server S Connection_Minute2 Minute for connecting to remote FTP server a Ll ns Ll E Lael ERS a eR e a ill Example o Configuration Connection _ Hour 7 Connection Minute 5 Connection_Hour1 12 Connection_Minute1 10 Connection_Hour2 18 Connection_Minute2 15 o Connection times Day d 07 05 12 10 18 15 Day d 1 07 05 12 10 18 15 6 4 4 Automatic connection on data capture Automatic connection on data capture consists of instructing the WebdynSun to connect to the remote FIP server so as to upload the newly captured data as soon as it is available This is configured by setting the variable Connection_OnDataAcquisition in the configuration file prefix D_var ini to 1 In this operating mode configuration checking and time synchronisation still take place according to the parameters for connecting periodically or at fixed times as shown in the foregoing chapters Example o Configuration Connection_OnDataAcquisition 1 Connection_Period 0 Connection_Hour 23 Connection_Minute 0 And the data capture period is defined to be 15 minutes DAQ_Period 15 o Connection times Every 15 minutes for uploading data At 23 00 for time synchronisation and configuration checking 31 MU Webdy
36. Definition Comments Default value INV_nbDeviceByLog Number of INV devices per data file O all devices are in a single data file Parameters specific to each inverter Variable Definition Comments Default value INV_SN n Serial number of inverter n n ee to 99 INV_FileDefName n Name of definition file for n A 99 empty inverter n up to 59 characters INV_INFO n Supplementary data used for n 0 to 99 empty some protocols up to 59 characters 41 MU WebdynSun V1 1 2014 42 MU WebdynSun V1 1 2014 Example Declaration of 2 SunnyBoy SB 2100 TL inverters from SMA INV_SN 0 2000499018 INV_FileDefName 0 prefix D_INV_WR21TLOQ ini INV_SN 1 2000509010 INV_FileDefNamef 1 prefix D_INV_WR21TLOA ini To generate the file prefix D_daq ini automatically after launching a discovery phase you must proceed as follows 1 Delete the file prefix ID_daq ini from the FTP server 2 Force connection between the WebdynSun and the server via the web page the push button or an SMS 3 The gateway will regenerate a prefix D_daq ini file with the local information that it has gathered during its inverter discovery phase 7 4 Inverter definition files Every inverter declared in the configuration file prefix D_daq ini must have an associated definition file The purpose of this file is to describe the whole set of variables available for the inverter For each variable it describes Collection me
37. Gateway 192 93 121 1 Password st DNS 192 93 121 2 FTP server AN Server tp server tr Setup CONFIG Login Definition DEF Password Data DATA Commands ico Log 10G Firmware ein Web services S Enable URL Inverter Protocol SMA SunnyBoy MiniCentral TiPower SMA net gt Choosing the language Selection the Web interface language from the popup menu This field corresponds to the variable Language in the configuration file prefix D_config ini Gateway identifier This field corresponds to the variable ID in the configuration file prefix D_config ini The value of this variable enables identification of the gateway when interacting with the FTP server The names of the files available on the server will be prefixed with the value of this variable so as to link them to the gateway i e the site concerned There are two ways of configuring the gateway identifier Manually in the D field by default ID WDXXXXXxX where XXXXXX is the last six digits of the MAC address Automatically by ticking the Automatic mode checkbox and leaving the D field empty ID For this option Web Services must be enabled The gateway will pick up its identifier just before the initial connection to the FTP server The ID will be filled in with the value returned by the Web Services server Should the variable ID be deleted once more ID the gateway will reques
38. Meter management ccccccseeeececeeeeeeececcaeeeeeeeeeaeeeeeeeeseaeeceeeeseeeeeeessaeeeeeessaaseeeessaaeeeesesaaees 49 8 1 Smart meter WIIG aeesiatrnciceorcita curesie stesendaieanttaeanpins atacetrattt noe uanleeduentdtcasunphatdentdssanetailanupassaadenntttaceuanliedseotihoan 50 8 2 Smart meter 8 os 9 en eee are 51 8 2 1 Discovering meters using the built in Web server ccccceecccceeceeeeeeeeeeeeeeeeeeesaeeeeeeseaaeeeeeseeas 51 8 2 2 Discovering Meters via a command fil ccccseecccceeeeeecceeseeeeaeeeeeeeeeeeeeeeeueeeesaeeeeseeeeeesseseeeeens 52 6 3 Declaring SUC Sarco necesito rca ness ecntaterids capes anmaaw iae n arani Ei aa EE A Aa Eain ian iE 53 8 4 Meter definition files 0000nn0000nnnnaannnneaennnosannnenonnnnrersnnnrerrnnnrrersnnnreronnnrrrrsnnnrrrrnnnrerrsnnnrerennnrerennnneer 55 8 5 Checking that meters are operating correctly cccccccseeecccecceeeeceeeeeseeeeeeesseeeseeeesseeeseeesesseaeeeetesaaees 57 COs Ci A patra eigtese sd E no ab ea bcune ds vancanin Gascectee E E E E sae 5 8 6 1 Filename SYMA or tne ta setnecaractd pean E A E E E 58 8 6 2 FODMIAOU Meer Ca mererin E a a e e E 58 8 6 3 ERAO e E 59 inp routput managemMmeNi esseistinen iinan eas Eara EAEn EEE ia EENE ENNEK EEEREN EEEo Nis TEKAN 61 Selle AN a E E E mena enaountinchauseteniads 61 9 1 1 Analogue inputs 0 10 V or 4 20 MA ccccccceeeeeececeeeeeeeeecaaeseceeessaeeeceeesseaaeceeessaaseeessesaaeeeees 61
39. Name_N name of the definition file associated with the inverter 45 MU WebdynSun V1 1 2014 nbVariableDeviceN number of variables collected for each inverter index Variable _x_ DeviceN index of the variable collected date time_n timestamp of the data capture in YY MM DD hh mm ss format variable_x_value_n value n of variable x captured at date time n With the definition file being 7 6 3 Example Acquisition every 15 minutes of the data from an SMA inverter whose serial number is 2000408440 Data file prefix ID_INV_1_1_130405 112607 csv gz SNINV 2000408440 1 TypelNV prefixID_INV_WR21TLO9 ini 20 49 min 49 max 49 avg 50 min 50 max 50 avg 57 min 57 max 57 avg 58 min 58 max 58 avg 70 71 72 73 74 75 76 77 05 04 13 10 30 01 5137 149 148 00 660 660 660 00 5000 5000 5000 005215 22622 126302399 3 371 52000408440 13 0 05 04 13 10 45 02 138 149 148 00 660 660 660 00 5000 5000 5000 005215 22622 126303256 3 371 52000408440 13 0 05 04 13 11 00 02 138 149 148 00 660 660 660 00 5000 5000 5000 005215 22622 1263041 10333371 52000408440 13 0 05 04 13 11 15 01 140 149 148 00 660 660 660 00 5000 5000 5000 005215 22622 126304961 533371 52000408440 13 0 With the definition file prefixID_INV_WR21TLO9 ini 15130401 0102 SMA SN 0 000000 4294899968 000000 1 2 2 0401 0104 Upv Start V 3 125 000000 600 000000 1 35330401 0104 T Start S 5 000000 300 000000 1 4 4 0401 0104 T Stop ss 31 000000 300 000000 1 30 30 0401
40. S485 2 4 wire Up to 247 Analogue sensors 0 10V or 4 20mA Up to 4 temperature light level etc 2 wires power Resolution 10 bits Status sensors open closed Dry contact via 2 wires Up to 4 Indicator lamp Switching relay via 2 wires Up to 2 Pulse counter safety switch Dry contact via 2 wires Up to 2 1 For the maximum number of inverters that the gateway can handle please see the Appendix that corresponds to their brand Appendix Brand WebdynSun pdf GSM GPRS Modem IP Services WGE G PV HTTP server Web Services option MU WebdynSun V1 1 2014 4 3 Options and accessories 4 3 1 DIN RAIL POWER SUPPLY Brand MEANWELL Reference No DR 15 24 This power supply unit is mounted next to the gateway on the standard 35 mm DIN RAIL metal rail This rail mounting means that no other mounting bracket is required e If the DIN RAIL unit is used to supply power remotely to analogue modules please check the output tension adjustment value e In addition check the power consumption of all remotely powered modules Characteristics DC VOLTAGE 24V RATED CURRENT 0 63A CURRENT RANGE 0 0 63A RATED POWER 15 2W RIPPLE amp NOISE max Note 2 150mVp p VOLTAGE ADJ RANGE 21 6 26 4V LINE REGULATION 1 0 LOAD REGULATION 1 0 SETUP RISE TIME 1000ms 50ms 230VAC 1000ms 50ms 115VAC at full load HOLD UP TIME Typ 70ms 230VAC 16ms 115VAC at full load MU WebdynSun V1 1 2014
41. The PIN code is managed using the following methods If the PIN code is deactivated GPRS communication is operational for the gateway If the PIN code is activated and equal to O000 when the gateway is fired up for the first time a new PIN code is attributed to the SIM card This PIN code is defined on the basis of the ICCID Integrated Circuit Card Identification number of the SIM card installed It is calculated using a proprietary Webdyn algorithm This feature allows fraudulent use of the SIM card to be prevented while providing ease of use In addition this same SIM card can be reused in another WebdynSun or WebdynTIC unit without any additional configuration If the card has a PIN code that is activated but is neither 0000 nor the code attributed by the WebdynSun gateway communications including SMSs will not be operational value attributed by a WebdynSun If you do so the SIM card will be blocked and the user will have to unblock it by entering the PUK code manually f Never insert a SIM card with an activated PIN code that is neither 0000 nor a MU WebdynSun V1 1 2014 6 Configuring the unit Configuration of the WebdynSun gateway should be carried out in several stages The first stage initialisation consists of configuring the WebdynSun gateway so that it can connect to the FIP server During this stage it is also possible to trigger the detection of inverters or meters so that these item
42. W 1 0 1 0 0 1 0 1 0 3 1 3 Total energy produced kWh 1 0 1 0 0 1 0 2 0 4 1 4 Daily energy produced kWh 1 0 0 0 0 0 0 0 2 5 1 5 COs savings kg 0 476 0 0 0 0 1 0 3 0 6 1 6 Daily COs savings kg 0 476 0 0 0 0 0 0 0 2 11 3 2 Examples of IDsite_REPORT ini configuration Display of variables on a Modbus screen 1 1 2 Instantaneous power kW 1 0 1 0 0 1 0 1 0 2 1 3 Total energy produced kWh 1 0 1 0 0 1 0 2 0 3 1 5 COs savings kg 0 486 0 0 0 0 1 0 3 0 Display of an INV variable in HTML 7 1 8 TEST INV VAR 0 0 1 0 87 0 0 0 2 Display of a TIC variable in HTML 8 1 7 TIC ADCO 0 0 2 0 1 0 0 0 0 Display of a Modbus variable in HTML 9 1 8 MODBUS 0 0 4 1 53 0 0 0 0 Display of an I O variable in HTML 10 1 9 10 0 0 3 0 1 0 0 0 2 93 MU WebdynSun V1 1 2014 11 3 3 Configuring a Siebert Modbus display To display data on a Siebert Modbus display using a 2 wire connection proceed as shown below 1 Configure the display manually using the push buttons provided for the purpose 2 Connect the Modbus display to the RS485 B port on the WebdynSun gateway 3 Upload the definition file for the Siebert device to the FTP server in the directory DEF MODBUS Definition file for a Siebert Modbus display Modbus_Requests I ables Description des champs reqindex reqName reqReadFctCode reqwriteFctCode reqStartRegister reqNbRegisters reqEnableReading r eqEn
43. ableWritting reqOption1 reqOption2 1 Request 0 16 1 6 2 1 0 0 Modbus_VariablesTables Description des champs varlndex varReqIndex varName varT ype varSigned varPosition varOption1 varOption2 varAction 1 1 Puissance instantan e 6 2 1 1 05 0 2 1 Energie cumul e 6 2 3 1 0 0 3 1 Energie journaliere 6 2 2 1 0 0 4 Update the definition file REPORT ini on the FTP server 1 1 1 Last acquisition GMT 0 0 0 0 0 0 0 0 0 2 1 2 Instantaneous power kW 1 0 1 0 0 1 50 1 0 3 1 3 Total energy produced kWh 1 0 1 0 0 1 0 2 0 4 1 4 Daily energy produced kWh 1 0 0 0 0 0 0 0 2 5 1 5 COs savings kg 0 476 0 0 0 0 0 053 0 6 1 6 Daily COs savings kg 0 476 0 0 0 0 0 0 0 2 94 MU WebdynSun V1 1 2014 5 Update the configuration file prefixID_dag ini on the FTP server with the following parameters Configuration of the Modbus interface 4 wires 19200 baud 8 data bits 1 stop bit no parity MODBUS Mode 2 MODBUS_BaudRate 19200 MODBUS Parity 0 MODBUS _DataBit 8 MODBUS_ StopBit 1 Declaration of the Modbus device Modbus address 1 definition file prefixID_ MODBUS_SIEBERT ini MODBUS _Adadr 0 1 MODBUS_Name 0 SIEBERT MODBUS_FileDefName 0 prefix D_MODBUS_ SIEBERT ini 6 Force the gateway to connect to the FTP server to download the new configuration 95 MU WebdynSun V1 1 2014 12 Command file It is possible to ask the WebdynSun gateway to perform certain speci
44. aded CSV alarm file can contain several alarms from different sources It is in the following format date time_1 AlarmSource1 fileDefinitionName_1 typelO_1 indexlO_1 valuelO_1 date time_N AlarmSourceN fileDefinitionName_N typelO_N indexlO_N valuelO_N Where date time_N timestamp when the alarm was triggered in the format YY MM DD hh mm ss AlarmSourceN source that triggered the alarm here I O fileDefinitionName_N name of the definition file associated with the trigger typelO_N type of trigger here Input indexIO_N index of the input raising the alarm valuelO_N value of the input raising the alarm 0 open 1 closed 9 6 3 Example of an alarm on a dry loop Reception of the alarm file prefix D_AL_ 130329 132505 csv gz after the Contact 2 bang bang input has closed The file contains the following information 29 03 13 13 21 01 lO prefix D_lO ini Input 6 1 With the definition file prefix D_lO ini 1 1 1 Temperature 1 0 098 50 2 2 2 1 ANALOG2 1 0 0 3 3 1 Temperature 2 0 098 50 2 4 4 1 ANALOG4 1 0 0 5 1 2 Contact 1 0 0 8 71 MU WebdynSun V1 1 2014 6 2 2 Contact 2 0 0 8 7 3 2 INPUT3 0 0 0 8 4 2 INPUT4 0 0 0 931 3 Switch 1 0 0 4 10 2 3 Switch 2 0 0 4 11 15 4 INDEX1 0 0 0 12 2 4 Meter 1 0 0 4 9 7 Controlling relays via a command file Some tasks called commands can be requested remotely from the WebdynSun These commands are sent to the gateway in the form of files upl
45. ame for gateway configuration files up to 29 characters FTP DirConfig FTP_DirDef FTP_DirData FTP_DirLog FTP_DirBin FTP _DirAlarm FTP directory name for gateway definition files up to 29 characters files up to 29 characters up to 29 characters FTP directory name for gateway firmware up to 29 characters files up to 29 characters FTP directory name for data FTP directory name for log files Used for upgrading gateway FTP directory name for alarm MU WebdynSun V1 1 2014 i empty empty empty empty 2 _ h CONFIG DEF DATA LOG BIN ALARM 20 MU WebdynSun V1 1 2014 FTP directory name for FTP DirCmd command files up to 29 characters Enable Disable of two phase data uploading File with extension tmp uploaded FTP Option then extension tmp deleted after transfer 0 Disabled 1 Enabled Enable Disable of web services O Disabled 1 Enabled WebService_Enable Web Service http address WebService_Url up to 29 characters Language chosen for built in website anguage fr French en English The server configuration always overrides the local configuration via the web interface Please ensure that the two configurations are consistent To ensure consistency between the server and the unit it is advisable to delete the unit s configuration file prefix D_config ini from the remote server
46. amp RC 0 amp RC COMP NSITE IDsite amp ACTION VERSION amp ACTION COMP 2 03 01 Aug 1 2011 amp RC 0 amp MU WebdynSun V1 1 2014 Informs the HTTP server that configuration files have been downloaded from the FTP server Informs the HTTP server that inverter meter Modbus or input output definition files have been uploaded to the FTP server Informs the HTTP server that inverter meter Modbus or input output definition files have been downloaded from the FTP server Informs the HTTP server that the file INV ini has been uploaded to the FTP server Informs the HTTP server that a CMD file has been downloaded from the FTP server Informs the HTTP server that a firmware file has been downloaded from the FTP server Informs the HTTP server of the current version of the gateway firmware This Web Service is sent on the first connection following a gateway restart 102 MU WebdynSun V1 1 2014 HTTP response ReturnCode The return codes of the responses from the HTTP server may be 00 OK 10 Site unknown 11 Action code unknown 12 RC received unknown 13 MAC ADR absent 1 Internal server problem 14 3 Examples of Web Services requests Upload of a data file URL confirm php NSITE IDsite amp ACTION UP LOADDATA amp RC 0 amp RC COMP Download of the configuration files Dsite_config ini and Dsite_var ini URL confirm php NSITE IDsite amp ACTION CONF IGGLOBAL amp ACTION
47. ase daeoceheanucstedcenttt niuuacdtedne adavannueatadaetanneeus teadeenineans 87 10 7 Writing Modbus variables via a command file cceceeeeecceeceeeeeeeeeeeeeeeeeeeeeeeeeeeeaeeeeeeessaegeeeeeneas 88 11 Displaying operating OS esssS EEEE AEE eai 89 11 1 Displaying cumulative variableS 0000nnnneannneneennnnosennnrnsrrrrrrrsrnrrresrnrrressrnrrrrsrnrrrenenrrrensnnrrernnne 89 11 2 Displaying instantaneous variables 2 0 ccccccseeeeceeeceeeeeeeeeeaeseeeeeeeeeeseeeeesaaeeeeeessaeeeeesseaeeeeesseaeees 91 11 3 Details of the definition file IDsite REPORT ul occ cecccceceseeeeeeeeseeceseueeeeeeeueeeeeeeeeneenenes 91 11 3 1 Default definition file IDsite REPORT ANI cece ccccseeeseeeeseeeseeeeueeeeaeeeeeeeseueeeeeseneenes 93 11 3 2 Examples of IDsite REPORT ini configuration cccccccccccccssseeeeeeeaeeeeeeeseaeeeeeeeesaaeeeesessaaees 93 11 3 3 Configuring a Siebert Modbus CiSPIlAY cccccccesseeececeeeeeeeeecaeeseeeeecsaaeeeeeseeaeeeeessaageeeeesseaass 94 12 CONN A eee mene ee tn ee en ee ee ee ee ee eee 96 MU WebdynSun V1 1 2014 12 1 GATEWAY TV De COMMANGS wiacccwiesaceccnntdnendsszedencaidsecdedaxdeaeedebeteccuetsArecedgsanstensedrsatebsedessetiareauieeatets 96 12 2 VO ype commands ore ccc eaassctinsesaceqeenen ster seacsoeseetyaccocea okii RA sec oR arn Nie ease aie ERRA niian EAEn ni 97 12 3 MODBUS type commands ssis sss iiaissnriin ai enren ARR RAE n NAR E ARA en ERa BA AEn Enik RE
48. ble and WebService Url in the configuration file prefix D_config ini Enable Disable Web Services WebService_Enable O Disabled 1 Enabled http address of the Web Service WebService_Url up to 29 characters 14 2 Format of HTTP requests There are two types of Web Services initialisation php gt called to obtain a site number the site ID confirmation php gt called to give notification that an action has been performed on the FTP server The POST method is used for requests to the HTTP server The format of requests for Web Services complies with the following syntax URL of HTTP server name of Web Service POST data parameters of the Web Service in the format parameter amp parameter2 parameterN The URL is configured via the variable WebService_Url in the configuration file The name of the Web Service can be initialisation php or confirmation php The possible parameters are MAC ADR MAC address of the gateway in the format 00 05 F3 XX XX XX NSITE site number of the gateway ACTION action performed 100 MU WebdynSun V1 1 2014 ACTION COMP supplementary information about the action described by ACTION RC return code RC COMP supplementary information in ASCII about the return code The list of Web Services and the available actions is described below Web Service initialisation php initialisation
49. ble_x_value_n_Device1 ADDRMODBUS slaveAddr_N NumDeviceN TypeMODBUS fileDefinitionName_N nb VariableDeviceN indexVariable_1_DeviceN indexVariable_2 DeviceN indexVariable_x_DeviceN date time_1 variable_1_ value_1_DeviceN variable_2 value_1 DeviceN variable_x_value_1_DeviceN date time_2 variable_1_value_2 DeviceN variable_2 value_2 DeviceN variable_x_value_2 DeviceN date time_n variable_1_value_n_DeviceN variable_2_ value_n_DeviceN variable_x_value_n_DeviceN Where slaveAdadr_N address of the Modbus slave 1 to 247 NumDeviceN index of the device in DDD format 001 to 247 fileDefinitionName_N name of the definition file associated with the device nb VariableDeviceN number of variables collected for each device index Variable _x_ DeviceN index of the variable collected date time_n timestamp of the data capture in YY MM DD hh mm ss format variable_x_value_n value n of variable x captured at date time n With the definition file being Definition of packets Id Name ReadFctCode WriteFctCode StartReg NbReg EnableReading EnableWriting Option1 Option2 Modbus_ Requests Tables 1 request 3 0 0 4 1 2 Definition of variables Id Reqld Name Type Signed Position Option 1 Option2 CoeffA CoeffB Unit Action Modbus_ Variables I ables index Variable_ 1 1 data1 3 2 1 1 0 unit 4 index Variable_2 1 data2 3 2 2 1 0 unit 4 index Variable_x 1 data_x 3 2 3 1 0 unit 4 83 MU WebdynSun V1 1 2014
50. ction at fixed times Automatic connection on data capture Automatic connection on alarm In the case of automatic connection the connection type is chosen depending on the prefix D_var ini configuration file The WebdynSun always carries out the same tasks regardless of the type of connection requested NTP synchronisation Connection to the remote FTP server o Alarm management o Command file management o Data management Upload of input output data files Upload of electric meter files Upload of inverter data files Upload of Modbus data files o Configuration file management o Definition file management o Log management o Firmware update management 6 4 1 Manual connection Connection by pressing the push button You can force a connection manually by using a tool to press and hold the push button labelled INSTALL until the SERVICES LED begins to flash rapidly Connection via the built in Web server You can force a connection manually via the built in Web interface by going to the Install Connection menu and clicking on the Connect button Gt at gt Connection inverters discovery TEET Connection Connect Connection via SMS Send the SMS connect to the WebdynSun to force immediate connection 29 MU WebdynSun V1 1 2014 6 4 2 Periodic automatic connection Periodic automatic connection consists of providing the WebdynSun with a period for conne
51. ction to the remote server This period is expressed in hours and is repeated every day This is done by using the variables Connection_Period Connection_Hour and Connection_ Minute in the configuration file prefix D_var ini Connection_Period Period for connection to the remote FTP server in hours range 0 to 23 If gt 0 number of hours between two connections The variable Connection_Minute is used to specify the minute number within the hour for the connection If 0 connection every day at the time specified by the variables Connection _Hour and Connection_Minute Hour for connection to the remote FTP server Connection Minute Minute for connection to the remote FTP server oS Example Configuration Connection_Period 7 Connection_Minute 25 Connection time Day d 00 25 07 25 14 25 21 25 Day d 1 00 25 07 25 14 25 21 25 6 4 3 Automatic connection at fixed times Automatic connection at fixed times consists of programming the WebdynSun with up to 5 times for connecting to the remote server per day This mechanism is taken into account only if the variable Connection_Period is equal to 0 Programming the connection times is carried out by updating the variables listed below in the configuration file prefix D_var ini Variable Definition Default value Hour for connecting to remote FTP server Connection_Minute Minute for connecting to remote FTP server
52. ctionality you must change the value of the variable ALM_Delay in the file prefixID_var ini SEES ALM_Delay 0 Alarms sent in real time 1 Alarms sent after the next acquisition point by default 10 minutes 6 4 7 Optimising the connection To avoid excessive GPRS consumption it is possible to enable an optimisation option for FIP communications This is specified through the variable Connection _CheckConfigPeriod in the configuration file prefix D_var ini 32 MU WebdynSun V1 1 2014 When this optimisation is enabled the gateway can be programmed not to analyse the configuration and definition directories on every connection Connection_CheckConfigPeriod 0 Disabled n Number of days between 2 analyses Note When the gateway processes a command file it goes on to analyse the configuration and definition directories regardless of whether optimisation has been enabled Where the variable Connection _ Period is zero the time for the analysis is defined by the variable Connection_Hour lf it is not the gateway will launch the analysis during the first connection of the day 6 5 Acquisition period and time slots The role of the WebdynSun is to collect data from different sources inverters meters sensors etc and then to write them periodically to CSV files for provision via a remote FTP server Data collection is scheduled using the variables DAQ_Period and DAQ PeriodSec in the configuration fil
53. d It has the appearance shown below Numerical 0 to 1023 and converted values of the analogue inputs applying the A and B coefficients Analog inpute from the definition file IO control Name Coefficients Values AX B Numeric Conver 1 ANALOG 0 625000 0 000000 O 0 000000 2 ANALOG2 1 000000 0 000000 O 0 000000 3 ANALOG3 1 000000 0 000000 O 0 00000 4 ANALOG4 1 000000 0 000000 O 7 Status of the bang bang neu inputs open or closed 1 INPUT1 2 INPUT2 3 INPUT3 4 INPUT4 Status of the bang bang outputs open or closed Digital a Name fal 1 OUTPUT 2 OUTPUT2 Name y ADETI Check on the bang bang 2 INDEX2 outputs Open Close or Pulse Status of the index inputs numbers of pulses read 67 MU WebdynSun V1 1 2014 9 5 Input output data Once it has been configured the WebdynSun constantly collects data from the input output ports then writes it to a text file in CSV format This file is compressed in GZ format then uploaded periodically to the FTP server for subsequent operations 9 5 1 Filename syntax The data file uploaded to the FTP server complies with the following format prefixID O_YYMMDD_hhmmss csv gz Where prefixID gateway identifier YYMMDD_hhmmss timestamp for the archive in the format year month day hour minute second 9 5 2 Format of input output data The file format is as follows fields in green are optional data that can be e
54. des a PSTN PSTN modem This manual covers only the WGE G PV variant For all specific details concerning the WGE R PV variant please contact WebdynSun support MU WebdynSun V1 1 2014 2 4 Safety advice It is essential to respect all safety recommendations featured in this guide Failure to comply with these recommendations may cause damage to equipment and danger to the health safety of personnel Electrical connections All wiring must be carried out only by a specialised qualified electrician Prior to installation all equipment connected to the corresponding communications bus must be disconnected on both sides DC and AC Respect all safety recommendations appearing in inverter documentation The WebdynSun unit is liable to damage from electrostatic discharge ESD Avoid all contact with component connectors and terminals The WebdynSun unit contains a lithium battery WARNING RISK OF EXPLOSION IF THE BATTERY IS REPLACED BY ANOTHER BATTERY OF AN INCORRECT TYPE DISCARD ALL WORN OUT BATTERIES IN COMPLIANCE WITH THEIR INSTRUCTIONS MU WebdynSun V1 1 2014 3 Principles of operation The WebdynSun gateway is the communications hub for your solar generator It continuously collects all the data from inverters sensors electric meters and Modbus units In this way it enables you to be informed constantly on the operational state of your installation 3 1 Overview diagram of a comprehensive monitoring so
55. dition the remote customer data TIC interface connector is an RJ45 connector and the communication speed is configurable on the meter Consequently access to the meter should be provided via a series cable with a male RJ45 connector patch cable linked to two wires And the speed of this bus must be defined as 1200 baud on the meter The wiring of the RJ45 plug is as follows RJ45 pins WebdynSun pins 4 Signal Signal ground 29 for TIC1 GND 33 for TIC3 Data send 30 for TIC1 TX 34 for TIC3 50 MU WebdynSun V1 1 2014 8 2 Smart Male RJ45 plug meter discovery 1 Female RJ45 socket 8 2 1 Discovering meters using the built in Web server It is possible to perform meter detection via the built in Web server This is triggered by going to the Install menu and selecting Meter discovery To launch the detection process follow these steps 1 Click on the Launch button The following page is displayed Meters discovery Launch e Discovery in progress No meter found 2 The page refreshes itself automatically 3 Wait until the message in green text Discovery in progress disappears While this task is being executed no other tasks may be running If there are any a warning message will be displayed at the top of the page such as A X task is already in progress Please try again in a few moments After the search a table is displayed at the bottom of th
56. e prefixID_dag ini Variable Definition Comments Default value DAQ_ Period Collection interval in minutes Possible value from 0 common to all data sources to 59 minutes Inverters TIC I O Modbus DAQ _ PeriodSec Collection interval in seconds Possible value from 0 common to all data sources to 59 seconds Inverters TIC I O Modbus Considered only if DAQ_ Period is equal to 0 AN If the collection period configured is less than the real data acquisition period the data will be timestamped at the acquisition period A data acquisition time slot can be defined using the variables listed below in the file prefix D_var ini 33 MU WebdynSun V1 1 2014 DAQ_TimeZoneStartHour Acquisition start hour eS DAQ_TimeZoneStartMinute Acquisition start minute el DAQ_TimeZoneStopHour Acauisition end hour cc DAQ_TimeZoneStopMinute Acquisition end minute eT 34 MU WebdynSun V1 1 2014 7 Inverter management The WebdynSun can manage up to 100 inverters However this limit may be lowered in accordance with the recommendations of each manufacturer The WebdynSun behaves differently according to the type and brand of inverter that you wish to monitor This is why it is important to follow the instructions from the corresponding Appendix available on our website http www WebdynSun com Depending on the manufacturer and on the type of inverter it is possible to Detect the inverters available on the bus Change
57. e displayed at the top of the page such as A X task is already in progress Please try again in a few moments After the search a table is displayed at the bottom of the page showing the types and descriptions of the inverters detected Inverters discovery Number of devices to be discovered 1 Launch Stop Serial number Type Network address 1 2000388220 WR21TLO9 OxC C00 38 MU WebdynSun V1 1 2014 The discovery result is stored in a file named prefix D_INV ini This file is uploaded to the CONFIG directory of the FTP server during the next connection to the server The file contains the full set of information that characterises the inverters discovered It complies with the following format INV_SN n serialNumber INV_Type n inverterT ype INV_Adadr n inverterAddress Where n index of the inverter discovered 0 to 99 serialNumber serial number of the inverter format defined by manufacturer inverterT ype model number of the inverter format defined by manufacturer inverterAddress address of the inverter on the bus defined by manufacturer Example INV_SN 0 2000388220 INV_Type 0 WR21TLO9 INV_Addr 0 0xC C00 Until the inverters detected are declared in the configuration file prefix D_daq ini no data will be collected See the following chapter Declaring and configuring inverters 7 2 2 Discovering inverters via a command file Some tasks known as commands ma
58. e page showing the types and descriptions of the meters detected 51 MU WebdynSun V1 1 2014 Meters discovery Launch Type Description 1 CBEMM ICC Compteur Bleu monophas volution ICC 2 CBEMT Compteur Bleu triphas If you click on Details you will see a list of the variables read from the meter and their values at the moment of detection Meter details Label Value ADCO 020828402511 OPTARIF EJP ISOUSC 45 EJPHN 000110225 EJPHPM 000002131 PTEC HN INST 000 IMAX 008 PAPP 00000 MOTDETAT 000000 Back Until the meters detected are declared in the configuration file prefix D_daq ini no data will be collected See the following chapter Declaring meters 8 2 2 Discovering meters via a command file Some tasks known as commands may be requested remotely from the WebdynSun These commands are transmitted to the gateway in the form of files uploaded to the FTP server prefix D_CMD csv This file can contain several types of commands including the command to discover meters It is deleted from the server by the gateway after downloading After the commands are executed an acknowledgement file is sent to the server prefixID_ ACK_YYMMDD_hhmmss csv 52 MU WebdynSun V1 1 2014 Command file prefixID_CMD csv The parameters of the commands depend on the type of command sent as indicated below index GATEWAY GET_TIC_DEVICE Where 1 to N Unique identifier providing com
59. ed via the configuration file prefix D_daq ini A detailed description of an inverter definition file is provided in the inverter specific appendices 17 MU WebdynSun V1 1 2014 6 2 Initialisation Initial configuration of the unit is necessary to enable connection to the remote FTP server This configuration can be carried out either via the built in Web server or by SMS if this option is available where connexion is done using GPRS Local configuration of the WebdynSun affects only the variables in the configuration file prefix D_config ini Here is a list of the variables accessible via the local web interface http and or via SMS commands Gateway identifier W Dxxxxxx where xxx IS the last 6 to 29 characters ep digits of the MAC address Type of inverter protocol used 0 SMA SMA Net 1 PowerOne Aurora 2 Schneider Electric SunEzy 3 Kaco Powador Ingeteam 5 LTI 6 Fronius 7 Schneider ConextCom 8 Danfoss ComLynx EYES 9 PowerOne Manual addressing 10 Siemens PVM Refusol 11 DiehlAko Platinum 12 SMA CENTRAUX Modbus TCP 13 SOCOMEC SunSysHome 14 SOCOMEC SunSysPro 15 reserved 16 Ingeteam Modbus TCP 17 SolarMax MaxComm 18 Delta IP address of the gateway 192 168 1 12 X router on the LAN local area LAN_lpAddr network Communication via Ethernet MU WebdynSun V1 1 2014 LAN subnet mask 255 255 255 0 i LAN_SubnetMask Communication via Ethernet
60. eeeeeecaeeeeeeeeeaeeeeeeeesseeeeeeeessaseeeessaaeeeeeesaaeeeeeeeeeas 40 7 4 Inverter definition files ccc eeeeccecceeeeceeccaeeeeecceaeeeeeeesaeeueeeessaeseeeeesseaseeeeeseaasecessssaueeeeessaaeeeesssaaess 43 7 5 Checking that inverters are operating correctly cccceeccccccceeseeceeeceeeseeeeecaeeeeeeeesaeseeeeseeaaeeeeeessaeees 44 TO NRA aR E E socecieaseesanecbetedeegeetcabes ee 45 7 6 1 Filename SYNAX ccccceeececceeseecceeseeecceeeecseuseeecsaeeecseaseeeseuseeessageeeeeseeeessseeessageeessegeeessseseeeses 45 7 6 2 Format of inverter data cccccccsseecceeeeeseceeeeseeeeeeeeseeeseeeeeeseeseeeeesseeeeeeeesseaseceeesseaseeeeseseneeeeeeeas 45 7 6 3 BANOS E OEE E AEE CETE E E OEE GEE E EE E PE 46 7 7 nverter parameters ceccccceeccccceeeceeceseeeccauseecceuseecssaeeeesaaseeeseuseeessaeeeesaaeeesseueeeessageeessageeesssegeesens 47 7 8 nverter ALANS eee ccc ec ccc secceceeeeeceeeeseeeeeseeeeseeeceseueeeseaeeeseeceeeeeesaeessaeeeseaeeeseaeeeseeeesseseesseeeessneeesaneeees 48 7 8 1 Filename SYNMAX ccccceseccccseseeccseeeeecceseeceeuseeeceaeeecsauseecseaseeessaueeesseeeeeseseeessageeessageeesseeeeeesss 48 7 8 2 Format Of AlAMS ceccccccccceecceceeeeeceeeeceeceeseeeeeeeeeeseaeesseueesseucessaeeessaeeeseeeesaeesseeesseeeesaneeesaes 48 7 8 3 Example of alarm file here crane eneatta teenth nie veuadeadecetie vaanenilsainenddacnsacaianndueadianuscitaimmntihanetsteedueotitoan 48 TIC Smart
61. eeseeeceeeeseaseceeeseeeeeeessaeeseeeeenaas 71 9 7 Controlling relays Via a command file cece cccccccccsseeeeeceeeeeeeaeeeseeceeeeeeeeeeeeseceeessaeeeeeeeeeesssaeaaeeeeeeees 72 10 Modbus device management cccccseeeceeeceeeeeceeecseeeeeeeeaeeeeceeesaeeeeeeeeseeaseeeeesseaseeeeeseaeseeeeesaaaeeeeeesaaees 73 10 1 BUS WINO coseneateateatnssatisn EEEa EAA i Ar AEREA EE EE EE ERE E EEEO 73 10 2 Configuring and declaring Modbus slave devices cccceeeeseeeeeeeeeeeeeeeeeeeaeeeeeeeeeaaeeeeesaaeeeesenas 75 10 3 Structure Of a Modbus definition file 2 0 ceeeeeeeeecaeeeeeeeesaeeeeeeeeaeeseeeeeseaeeeeeeeseeeeeeesneaeeeeeeeas 78 10 4 Checking that Modbus devices are Operating COrreCtly cccccccecneeeeeeeeeeeeeeeeeeeeeeeeeeeseeaaeeeeess 82 10 5 NV oYo 00 se f ec 82 10 51 Filename Syntax attest sce acre eee ae ils mcrae ote da iei ea aia iieiea aiai 82 1052 MTOM gate eae es teen a eae hasten ct cnt R teehee dares 82 Ds TEAMS arte as recreate ets parmesan re dace E ce ca ded econ eae eeteu teenth E E 84 10 6 MOODUS alai menaa eae ne E E E A A 86 10 6 1 Alarm filename syntax ses tienda recite renaie taco cairartiacisentasdtndareacitt ueancanifcodateneit oaacuantadaeotsdhedenaitanaaceradeneaieca 86 10 6 2 Format of UAT S erases esateen ce teas haireah ct eon elvaedelee vaiceduaecthie Casts ade tiaenioaiet dea atinde dance naan oe amsaa herent dutdeeee 86 10 6 3 Example of alarm WS ai arsctacndnercdasemnctarece n
62. efinition file set to 1 They are uploaded to the FTP server on request either by pressing the push button or via a command file The uploaded file is a compressed CSV file in GZ format It is handled like an inverter data file and bears the name prefixIlD_INV_P_YYMMDD_hhmmss csv gz Where a parameter request is made via a command file the command is in the following format index GATEWAY GET_INV_PARAMS After connecting the gateway downloads its command file prefix D_CMD csv downloads the inverter data identified as parameters then uploads an acknowledgement file prefix D_ ACK_YYMMDD_hhmmss csv containing the acknowledgement of the command like that below Date time index GATEWAY GET_INV_ PARAMS ack Where ack OK or ERROR 47 MU WebdynSun V1 1 2014 7 8 Inverter alarms A variable declared as an alarm action field 8 for the variable in the definition file causes an alarm to be triggered if it changes its status This alarm is written to a file in CSV format This file is compressed into GZ format then uploaded to the FTP server at the next acquisition time 7 8 1 Filename syntax The alarm file uploaded to the FTP server complies with the following format prefixIlD_AL_YYMMDD_hhmmss csv gz Where prefixlD gateway identifier YYMMDD_hhmmss timestamp of the archive in the format year month day hour minute secong 7 8 2 Format of alarms The uploaded CSV alarm file may contain several alarms
63. ete the configuration file prefixID_config ini from the unit before connecting In this case the gateway will generate and upload a new prefix D_config ini file 6 2 2 Configuration via SMS It is possible to configure the information required for connection to the remote FTP server via SMS To do so you must first insert an active GPRS SIM card into the WebdynSun unit and ensure that you know its telephone number SMS to configure the APN Send the following SMS to the WebdynSun apn apn_name usr user_name pwd password Where aon_name Name of the APN user_name User ID for access to the APN password Password for access to the APN SMS to configure the remote FTP server Send the following SMS to the WebdynSun ftp server_name user_name password port Where server_name Symbolic name or IP address of the remote FTP server user_name User ID for access to the remote FTP server password Password for access to the remote FTP server port TCP port number for access to the remote FIP server default 21 AN It is advisable to force connection to the remote server after restarting the unit This is to check that all the new parameters are correct SMS to connect to the remote FTP server Send the following SMS to the WebdynSun Connect 2 MU WebdynSun V1 1 2014 To ensure consistency between the server and the unit it is advisable to delete the configuration file prefixID_config ini fro
64. evice A single file may be used for many devices that behave in exactly the same way The file contains two declaration tables The declaration table for Modbus requests named Modbus_RequestsT ables Each entry in this table is defined by 10 fields separated by semicolons TE Description Index for the request from 1 to N name Designation of the Modbus request readFunctionCode Read function code and function sub code 0 to 65535 Standard codes handled 1 gt read coils 2 gt read discrete inputs 3 gt read holding registers 4 gt read input registers writeFunctionCode Write function code and function sub code 0 to 65535 Standard codes handled 5 gt write single coils 6 gt write single register 15 gt write multiple coils 16 gt write multiple registers startRegister Address of the first Modbus register 0 to 65535 MU WebdynSun V1 1 2014 Length of the response excluding header and CRC in bytes 1 to 250 enableReading Activation of read requests 0 gt enabled in instantaneous mode parameters 1 gt enabled in polling mode measurements 2 gt disabled enableWriting Activation of write requests 0 gt write enabled with read before write 1 gt write enabled without read 2 gt disabled Reserved for future use Reserved for future use The declaration table for variables named Modbus_ Variables Tables
65. fic tasks This can be done via a file called the command file The principle is that at every connection to the remote server the gateway checks on the existence of its command file named prefixID_CMD csv If this file exists it is downloaded then executed sequentially Using this command file we can therefore request the gateway to perform a discovery function for inverters or meters or to update a device variable if the device allows this The name of the command file must respect the following format orefixID_CMD csv This file must be placed in the directory defined by the variable FTP _DirCmd by default CMD After the command file has been downloaded and executed the gateway deletes the file from the server and uploads an acknowledgement file orefixID ACK_YYMMDD_hhmmss csv This file provides a check that the gateway has understood the commands properly Format of the command file The command file can contain several lines with each line corresponding to one command index type param 1 param2 param3 Where index unique identifier for the command type command type GATEWAY IO MODBUS etc param1 param2 and param3 Parameters for the command Format of the acknowledgement file The acknowledgement file informs the operator as to whether the commands have been taken into account or not It repeats the commands sent and adds a timestamp and a status date time index type param1 param2 para
66. from different sources It complies with the following format date time_1 AlarmSource_1 fileDefinitionName_1 deviceSn_1 indexVariable_1 value_1 date time_N AlarmSource_N fileDefinitionName_N deviceSn _N indexVariable_N value_N Where date time_N timestamp when the alarm was triggered in format YY MM DD hh mm ss AlarmSource_N source of alarm triggering here INV fileDefinitionName_N name of the definition file associated with the triggering inverter deviceSn _N serial number of the triggering inverter index Variable_N index of the variable raising this alarm Value_N value of the variable that raised this alarm 7 8 3 Example of alarm file The alarm file prefixID_AL_130404 083015 csv gz was received after a change in the status of the variable Fehler with index 77 in the definition file prefix D_INV_WR21TLO9 ini for the SMA inverter 2000408020 The file contains the following information 04 04 13 08 27 23 INV prefixID_INV_WR21TLO9 ini 2000408020 77 28 04 04 13 08 27 33 INV prefixID_INV_WR21TLO9 ini 2000408020 77 0 48 MU WebdynSun V1 1 2014 8 TIC smart meter management This chapter describes the operations of the WebdynSun in conjunction with smart electric meters that have a Tele Information Client TIC output to provide Remote Customer Information RCl The gateway is compatible with the following French meters Bleu electronic single phase multi tariff meter CBEMM
67. iable 1 Variable 2 e Variable 12 a a counter1 counter2 input4 2 unsigned eur te 2 unsigned 1 1st packet item Horo ee 4 4th packet item replicate Not supplied Not supplied a Not supplied erm Not supplied Not supplied _ Not supplied coeffB unit pulse pulse Net Not supplied Cana eee nee Hoe Modbus_VariablesTables 131 counter1 3 2 1 1 0 pulse 4 2 1 counter2 3 2 2 1 0 pulse 4 331 counter3 3 2 3 1 0 pulse 4 4 1 counter4 3 2 4 1 0 pulse 4 5 2 0utput1 1 2 1 1 0 4 6 2 0utput2 1 2 2 1 0 4 7 2 0utput3 1 5253555150334 8 2 output4 1 5254555150334 9 3 input1 1 2 1 1 0 8 10 3 input2 1 2 2 1 0 8 11 3 input3 1 2 3 1 0 8 12 3 input4 1 2 4 1 0 8 81 MU WebdynSun V1 1 2014 10 4 Checking that Modbus devices are operating correctly It is advisable to check that Modbus devices are operating correctly after they have been installed and configured This can be done via the built in Web server by going to the Control Modbus menu Modbus devices control us Name Address Definition file WebdynBridge 247 prefixiD_ MODBUS_TYPE1 in WebdynBridge 1 prefixiID_MODBUS_TYPEZ ini Status Indicates the status of the configured Modbus device Definition file Indicates the status of the definition file and communicating with the WebdynSun prefixID_File ini file downloaded locally and complies with standards uw The Modbus slave is not co
68. ies expected e CONFIG Contains the configuration files for the gateway e DEF Contains the definition files for the modules and sensors to be controlled o ANV Definition files for inverters TIC Definition files for electric meters O Definition files for analogue and digital input output and index entries MODBUS Definition files for Modbus units REPORT Definition files for variables to be displayed on the home page or on a display panel e BIN contains the binary files of the gateway for update purposes e DATA Directory for upload of data files This directory contains four subdirectories o INV inverter data TIC electric meter data lO Analogue and digital input output data and index entries MODBUS Modbus data o ID Identification files for the gateway e ALARM Contains the alarm files e CMD Contains the command and acknowledgement files e LOG Contains the gateway system log DSite_DATE log and the debug trace log disabled by default and used only by Webdyn in support mode DSite_DATE_debug log O O O O O 0 It is possible to modify part of the directory tree of the FIP server by modifying the root directories CONFIG DEF DATA BIN ALARM CMD and LOG in the configuration of the WebdynSun gateway MU WebdynSun V1 1 2014 5 2 Access to the NTP server To set its date and time correctly the WebdynSun synchronises itself with a
69. ile OK LOG prefixID_ 130404 132611 _debug log gz lt 0 gt Apr 04 14 26 16 Application Firmware version 2 05 10 Mar 25 2013 lt 0 gt Apr 04 14 26 16 Application WAN connection opened lt 0 gt Apr 04 14 26 17 Application NTP synchronization OK lt 0 gt Apr 04 14 26 17 Application FTP send data file OK DATA INV prefixID_INV_1_1_ 130404 142614 csv gz lt 0 gt Apr 04 14 26 17 Application FTP send data file OK DATA TIC prefixID_TIC_130404_ 142614 csv gz lt 0 gt Apr 04 14 26 18 Application FTP send data file OK DATA IO prefixID_lO_130404_ 142614 csv gz 15 2 Modem information lt is advisable to examine the information from the modem to check that it is operating correctly This is done by going to the page Control Modem of the built in Web server The following page is displayed Webdyn a Modem control Modem type GPRS Modem ID IMEI 359138030442532 SIM ID 89331013080866052160 SIM status READY Signal level 1 31 22 Modem status Standby Refresh Modem type GPRS Modem ID IMEI number of the modem IM ID ICCID number of the SIM card SIM status Status of the SIM card The message may be o READY The SIM card has been inserted and the PIN code is correct The gateway is ready to open a GPRS connection o SIM PIN The SIM card is waiting for a PIN code o SIM PUK The SIM card is waiting for a PUK code after three unsuccessful attempts to enter a PIN code o SIM ERROR No SIM card has been i
70. ing rapidly Ethernet socket Green LED speed Connection speed Off No connection Connection made received 15 5 Installation button The INSTALL button fitted on the front panel of the unit enables forced connection or restart of the gateway as explained in the table ACTION CONSEQUENCE Press the INSTALL button for about 1 second until Besides the actions defined in 70 3 3 Connection the SERVICE LED flashes the gateway uploads the inverter parameter file Orange LED link activity Connection Press the INSTALL button for about 10 seconds until The gateway restarts all the LEDs on the gateway go out the LEDs light up again about 1 minute after the restart begins 109 MU WebdynSun V1 1 2014 15 6 Diagnostic SMSs Besides the configuration SMSs described in previous chapters some SMSs can enable initial diagnosis of a problem with the WebdynSun SEES Status Requests information on the current configuration of the unit Unit tyoe WebdynSun Unit identifier prefixID Software version Connection mode GPRS or LAN Information on the APN configured SIM card identifier GSM signal strength RSSI Information on the Ethernet interface IP router DNS etc Information on the remote FTP server diag Requests diagnostics on the unit interfaces WAN status of the WAN connection OK or ERR FTP status of the connection to the FTP server OK or ERR NTP NTP synchronisation
71. is named prefix ID_TIC_DEF EQPTx ini Where x corresponds to the TIC interface used 1 2 or 3 A TIC definition file respects the following format indexVariable1 label1 action1 indexVariableN labelN actionN indexVariable Index of the variable to be collected 1 to n This index must be unique within the file Name of the TIC variable to be collected This name identifies the variable in the TIC flux Action to be performed on the variable 0 variable not read 4 instantaneous value default setting For a definition of the labels please consult the ERDF documentation version 4 ERDF NOI CPT_02E pdf 55 MU WebdynSun V1 1 2014 Example Blue electronic single phase multi tariff meter CBEMM Default definition file prefixID_TIC_CBEMM ini 1 ADCO 4 2 OPTARIF 4 3 ISOUSC 4 4 BASE 4 5 HCHC 4 6 HCHP 4 7 EJPHN 4 8 EJPHPM 4 9 BBRHCJB 4 10 BBRHPUJB 4 11 BBRHCJW 4 12 BBRHPJW 4 13 BBRHCJR 4 14 BBRHPJR 4 15 PEJP 4 16 PTEC 4 17 DEMAIN 4 18 IINST 4 19 ADPS 4 20 IMAX 4 21 HHPHC 4 22 MOTDETAT 4 56 MU WebdynSun V1 1 2014 8 5 Checking that meters are operating correctly lt is advisable to check that meters are operating correctly after they have been declared This can be done via the built in Web server by going to the Control Meters menu Serial number 1 2 You can also look at the TIC LED on the front panel of the unit to check on the activity
72. lution Photovoltaic installation ha pets OMe oy were x ee reo Tea Energy Might Correnst perio Total energy kWh a gt Sensors temperature Electric sun etc meters Circuit breakers relays Inverters l Modbus devices Local PC configuration l Operation i FTP Server l HTTP Server Web Services MU WebdynSun V1 1 2014 4 Unit characteristics 4 1 Technical characteristics Electrical characteristics Input tension 12 24V Electricity consumption when idle 2 8 W 1 Electricity consumption when connected via Ethernet 3 2 W 1 Maximum peak power during GPRS connection oO Lithium lon battery 3 7V 650mA 2 4Wh GSM GPRS antenna Microel EA 247 Frequency 900 1800 MHz Gain 0 dB Polarisation Vertical Memory Storage capacity 157mm 86mm 58 5mm Environmental conditions 100 MB of compressed data Operational temperature range 10 C to 55 C Storage temperature for a period of less than one month 20 C to 45 C Storage temperature for a period of more than one month 20 C to 35 C 1 Measurements carried out on the Unit DIN Rail DR15 24 power supply assembly MU WebdynSun V1 1 2014 4 2 List of available interfaces RS485 A 2 4 wire Ethernet Maximum number depends on the brand 1 noran annee S Electric meters Remote customer ERDF Bleu jaune meraude PME formation TIC PMI Modbus devices R
73. m the unit before connecting In this case the gateway will generate and upload a new prefix D_config ini file 6 3 Setting the unit date and time The WebdynSun unit timestamps all its data and log entries As a result it is necessary to set its time and date reliably The real time clock is therefore synchronised with a remote NTP server as a matter of course every time the unit connects to the Internet To choose an NTP server you must modify the variables listed below in the prefix D_config ini configuration file available on the server then force the unit to connect to the remote server IP address for the main NTP server pool ntp org NTP_Servert up to 29 characters IP address for the backup NTP server empty NTP_Server2 up to 29 characters An option to force NTP resynchronisation after a restart following a power failure is enabled by setting to 1 the variable NTP_SyncPowerLoss in the configuration file prefix D_config ini Option to force NTP resynchronisation after a power failure If this option is enabled an NTP connection will be NTP_SyncPowerLoss established after the gateway restarts following a 7 power failure O Disabled 1 Enabled A All timestamping of data and events is carried out using GMT 28 MU WebdynSun V1 1 2014 6 4 Connexion modes and periods There are four modes of connection to a remote server Manual connection Periodic automatic connection Automatic conne
74. m3 status Where date time Date and time when the command was executed DD MM YY hh mm ss index type param1 jparam2 param3 Command sent status Status of the command OK or ERROR 12 1 GATEWAY type commands 1 to N Unique identifier enabling the command to be identified Type GATEWAY The command type is GATEWAY GET_INV_NETWORK Discovery and addressing of the inverter network MU WebdynSun V1 1 2014 GET_TIC_DEVICE Discovery of TIC smart meters GET_INV_PARAMS Upload inverter parameters Number of inverters to be discovered via GET_INV_ NETWORK 12 2 I O type commands 1 to N Unique identifier enabling the command to be identified IO The command type is IO Input Output Parameter 1 1 to N Index of the item to command This index corresponds to the first field of the item described in the I O definition file Parameter 2 0 Open contact 1 Close contact 2 Pulse 1 s 12 3 MODBUS type commands 1 to N Unique identifier enabling the command to be identified MODBUS The command type is MODBUS Parameter 1 Index of the Modbus device to be configured This index corresponds to the index used to declare the device in the prefix D_daq ini file 0 to N Parameter 2 Index of the Modbus variable to be configured This index corresponds to the variable identification index present in the definition file for the device to be configured Value of the parameter in decimal or ASCII
75. mand identification Acknowledgement file prefixID_ACK_YYMMDD_hhmmss csv The acknowledgement file mirrors the command file with timestamps added and the acknowledgement Date time index GATEWAY GET_TIC_DEVICE ack Where ack OK or ERROR 8 3 Declaring meters Each meter to be monitored must be declared in the configuration file prefix D_daq ini This can be done manually by completing the fields listed below in the file prefix D_daq ini or automatically after launching a meter discovery phase Parameters that are common to all interfaces Variable Definition Comments Default value DAQ_ Period Collection interval in minutes Possible value from 0 common to all data sources to 59 minutes Inverters TIC I O Modbus DAQ_PeriodSec Collection interval in seconds Possible value from 0 common to all data sources to 59 seconds Inverters TIC I O Modbus Considered only if DAQ_ Period is equal to 0 DAQ_HeaderOption Enable Disable display of column headers in the data files O disabled 1 enabled 53 MU WebdynSun V1 1 2014 Generic parameters for all smart meters Variable Definition Comments Default value TIC_ Mode Interface chosen for TIC smart meters 0 Wired Parameters specific to each meter Variable Definition Comments Default value TIC_FileDefName n Name of definition file for meter n n 0 to 2 empty up to 59 characters Example Declaration of a Blue
76. mmss timestamp for the archive in the format year month day hour minute second f index of the inverter file incremented if the option INV_nbDeviceByLog is in use F total number of inverter files to be transferred incremented if the option INV_nbDeviceByLog is in use 7 6 2 Format of inverter data The file format is as follows fields in green are optional data that can be enabled or disabled in DSite_daq ini SNINV sn_1 indexDevice 1 TypelNV fileDefinitionName_1 nbVariableDevice 1 index Variable_1_Device1 indexVariable_2 Device1 indexVariable_x_Device1 date time_1 variable_1_ value_1_Device1 variable_2 value_1 Device1 variable_x_value_1 Device date time_2 variable_1_ value_2 Device1 variable_2 value_2 Device1 variable_x_value_2 Device date time_n variable_1_value_n_Device1 variable_2 value_n_Device1 variable_x_value_n_Device1 SNINV sn_N indexDeviceN TypelNV fileDefinitionName_N nb VariableDeviceN indexVariable_1_DeviceN indexVariable_2 DeviceN indexVariable_x_DeviceN date time_1 variable_1_value_1_DeviceN variable_2 value_1_ DeviceN variable_x_value_1_DeviceN date time_2 variable_1_value_2 DeviceN variable_2 value_2 DeviceN variable_x_value_2 DeviceN date time_n variable_1_value_n_DeviceN variable_2_value_n_DeviceN variable_x_value_n_DeviceN Where sn_N Serial number indicated in the configuration file prefix D_daq ini IndexDeviceN index of the inverter in DDD format 001 to 100 fileDefinition
77. n NTP server before each connection to the FTP server By default the gateway is configured to synchronise itself with the NTP server oool ntp org As this NTP server is accessible via the Internet the gateways must have valid Internet access the UDP port 123 must be open for outgoing traffic for synchronisation to occur 5 3 Connexion via GPRS or Ethernet Access to the FTP and NTP servers may be via an Ethernet connection or a GPRS connection 9 3 1 Ethernet connection For connection via Ethernet the following parameters must be supplied IP address of the WebdynSun on the local network Subnet mask IP address of the router or ADSL modem IP address of the DNS server 5 3 2 GPRS connection For connection via GPRS it is essential to procure an activated SIM card with a DATA option and to know the values of the following parameters APN Access Point Name Name of the GPRS access point This depends on the operator and the type of subscription User name and password for connection to the APN 5 9 0 Managing the PIN code for the SIM card For connection via GPRS a card must be inserted into the WebdynSun gateway The PIN code to enable access to the card cannot be entered on the gateway The WebdynSun unit handles the PIN code for the SIM card automatically It is for that reason that the SIM card must either be initialised with no PIN code or with a PIN code set to 0000 when tt is first inserted
78. nSun V1 1 2014 6 4 5 Keeping the connection open With a view to optimising the connection when automatic connection on data capture has been enabled it is possible to keep the connection open to avoid pointless disconnections and reconnections This is carried out by correctly configuring the variable Connection_WaitBeforeCloseDelay in the configuration file prefix D_var ini This delay which is expressed in minutes must be greater than the data acquisition time DAQ_ Period defined in the file prefix D_dag ini The maximum authorised value is 59 minutes Example o Configuration Connection_OnDataAcquisition 1 Connection_WaitBeforeCloseDelay 5 Connection_Period 0 Connection_Hour 23 Connection_Minute 0 And the data acquisition period is defined as 2 minutes o Connection times Connection kept open with data being uploaded every 2 minutes Time synchronisation and configuration checking occurs at 23 00 every day 6 4 6 Automatic connection on alarm By default the WebdynSun will trigger a connection to the remote FTP server immediately after the alarm will be detected However to limit the number of exchanges with FIP server it s possible to disable this functionality and to delay the connection at the next acquisition point In this second case the product will collect all the alarms and they will be uploaded to the FTP server after the next acquisition point To enable or disable this fun
79. nabled or disabled in DSite_daq ini TypelO fileDefinitionName nbVariableDevice 1 indexlO_1_ Device indexlO_2 Device indexlO_x_Device1 date time_1 IO_1 value 1 Device1 lO 2 value 1 Device1 lO _x_value_1 Device1 date time_2 IO_1 value 2 Device1 lO 2 value 2 Device1 lO_x value 2 Device1 date time_n lO_1 value n Device1 lO_ 2 value n Device1 lO_ x value n Device1 Where fileDefinitionName name of the definition file associated with the input output ports nbVariableDeviceN number of variables collected Index_IO__x _DeviceN index of the variable collected date time_n timestamp of the data capture in YY MM DD hh mm ss format IO_x_value_n value n of variable x captured at date time n With the definition file being Index_ O_1 number_lO_1 type_ IO _1 name_lO_1 coeffA_1 coeffB_1 action1 Index_ O 2 number_lO_2 type IO 2 name_lO_2 coeffA_2 coeffB_2 action2 Index_ O_N number_lO_N type_lO_N name_lO_N coeffA_N coeffB_N actionN 68 MU WebdynSun V1 1 2014 Special case averaged data item lf a data item is configured as Min Max Average in the definition file it will appear in the data file in the following manner nbVariableDeviceN index O min indexlO max indexlO avg date time_n lIO_x_value_n_min lO_x_value_n__max lO_x_value_n_avg The data values uploaded are different depending on the input output type Dry loop bang bang inputs 0 open 1 closed Switching relay bang bang outputs 0 open
80. net 100Mbps Modbus Modbus Slave N Slave 1 Connecting the RS485 2 wire half duplex bus RS485 B RX RX TX TX Modbus Modbus Slave N Slave 1 RS485 B RX RX TX TX Connecting the RS485 4 wire full duplex bus TX TX RX RX TX TX RX RX Modbus Slave N Modbus Slave 1 RS232 B Connecting RS232 GND RX TX 22 23 24 GND Modbus Slave MU WebdynSun V1 1 2014 10 2 Configuring and declaring Modbus slave devices The choice between Ethernet RS232 and 2 or 4 wire RS485 is exclusive Consequently the whole set of Modbus devices to be connected to the WebdynSun must use the same interface and must be configured in identical fashion Only the slave address should be unique for each device thus enabling them to be identified on the bus Unlike inverters and smart meters discovery of Modbus devices is impossible As a result every device present on the bus must be declared in the prefix D_daq ini file This configuration is done via the FTP server The file prefix D_daq ini must contain the parameters listed below Parameters that are common to all interfaces Variable Definition Comments Default value DAQ Period Collection interval in minutes Possible value from 1 10 common to all data sources to 59 minutes Inverters TIC I O Modbus DAQ_PeriodSec Collection interval in seconds Possible value from 0 common to all data sources
81. nfigured in the definition file Daily CO emissions savings The CO emissions savings are proportional to the daily energy produced The conversion factor can be configured in the definition file 11 2 Displaying instantaneous variables Report Date Time The date and time of the report correspond to the GMT date and time when the variable were recorded The format of the display is DD MM YYYY HH MM GMT Other possible variables Data of TEXT type can be displayed All data sent by devices connected to the gateway Examples Ambient temperature Index of an electric meter Modbus light level sensor etc 11 3 Details of the definition file IDsite REPORT ini Each line of the definition file describes the variable to be displayed 91 MU WebdynSun V1 1 2014 A variable is characterised by 1 to 10 Unique index of the variable to be displayed Disabled Enabled gt data display is operational Date Time of report Index Enable Type Instantaneous power of the installation Total energy produced Daily energy produced COs savings Daily CO savings ASCII variable Numerical variable Boolean variable Up to 60 characters Text displayed Up to 10 characters Units of the displayed value Used if non zero Description Unit Scaling coefficient for the variable Ax B Scaling coefficient for the variable Ax B Undefined INV inverter variable isn a 0 2 3 4
82. nloading After the commands are executed an acknowledgement file is sent to the server prefixID_ACK_YYMMDD_hhmmss csv Command file prefixID_CMD csv The parameters of the commands depend on the type of command sent as indicated below index MODBUS indexDevice indexVariable value Where 1 to N Unique identifier providing command identification indexDevice Index of the Modbus device to be configured This index corresponds to the index used in the file daq ini to declare the device 0 to N indexVariable Index of the Modbus variable to be configured This index corresponds to the index identifying the variable that is found in the definition file of the device to be configured Value of the parameter in decimal or ASCII Acknowledgement file prefixID_ACK_YYMMDD_hhmmss csv The acknowledgement file mirrors the command file with timestamps added and the acknowledgement Date time index MODBUS indexDevice indexVariable value ack Where ack OK or ERROR 88 MU WebdynSun V1 1 2014 11 Displaying operating data The WebdynSun gateway constantly collects data from inverters smart meters input outputs and Modbus devices This data set is described in definition files which provide a link to the application server The data values are written periodically after a configurable acquisition period by default every 10 minutes then uploaded to an FTP server ready for formatting It is possible to di
83. nserted Signal level Quality of the GSM signal range 1 to 31 For an operational GPRS connection this level must be at least 10 Modem status The message may be o Standby modem not connected o Initialisation modem establishing a connection o Connected modem connected 106 MU WebdynSun V1 1 2014 15 3 Detecting power connection The WebdynSun constantly monitors the status of its 24 V power supply This enables it to detect a prolonged power cut and so warn the operator by uploading an alarm file to the FIP server An alarm indicating that power has been restored is also uploaded 15 3 1 Syntax of the alarm file name The name of the alarm file uploaded to the FTP server complies with the following format prefixID_AL_YYMMDD_hhmmss csv gz Where prefixID gateway identifier YYMMDD_hhmmss timestamp for the archive in the format year month day hour minute second 15 3 2 Format of alarms The uploaded CSV alarm file may contain several alarms from different sources The entry for a 24 V power loss alarm has the following format date time GATEWAY info Where date time_N timestamp when the alarm was triggered in format YY MM DD hh mm ss info Power OFF to indicate loss of the 24 V supply Power ON to indicate loss of the 24 V supply Example 09 10 09 09 09 36 GATEWAY Power OFF 107 MU WebdynSun V1 1 2014 15 4 LED indicators a 2 A U EJ j m i be Ne A
84. ntication Required EF The server http 192 93 121 149 80 requires a username and password The server says WGE_PV_HTTP_server User Name Password 5 Key in the identifier and the password On delivery the settings of the WebdynSun gateway are as follows D User Name userhigh Password high 22 MU WebdynSun V1 1 2014 6 The following home page is displayed WebdynSun Home Home Setup install Control Upgrade Welcome in Webdyn gateway s setup application About gateway Restart Software version 2 06 00 May 30 2013 About installation Description Value Last acquisition 31 05 13 09 34 37 Power AC 0 00 Total Energy of production 1935 00 CO2 emission savings 921 06 lf the gateway is not yet operating the following message is displayed The gateway is not ready please wait nra General configuration The Configuration page allows you to e Choose the Web interface language e Configure the gateway identifier e Complete the PSTN GPRS Ethernet connection parameters and the http ftp servers e Choose the inverter protocol to be used 23 MU WebdynSun V1 1 2014 Setup Choose language English x i Gateway ID Connection mode ID prefixiD automatic mode Ethernet Mod Ethernet GPRS modem Address mode dynamic static Call number 99 1 IP address 192 93 121 87 APN m2mintermet Mask 255 255 255 0 Login s r
85. nverters This is done by modifying the variable INV_ Type in the configuration file prefix D_config ini as follows Type of inverter protocol used 0 SMA SMA Net 1 PowerOne Aurora 2 Schneider Electric SunEzy 3 Kaco Powador 4 Ingeteam 5 LTI 6 Fronius 7 Schneider ConextCom INV_Type 8 Danfoss ComLynx 9 PowerOne Manual addressing 10 Siemens PVM Refusol 11 DiehlAko Platinum 12 SMA CENTRAUX Modbus TCP 13 SOCOMEC SunSysHome 14 SOCOMEC SunSysPro 15 reserved 16 Ingeteam Modbus TCP 17 SolarMax MaxComm 18 Delta 40 MU WebdynSun V1 1 2014 Each inverter to be monitored must be declared in the configuration file prefix D_daq ini This can be done manually by completing the fields listed below in the file prefix D_daq ini or automatically after launching an inverter discovery phase where this phase is available Parameters that are common to all interfaces Variable Definition et Ti Default value DAQ_ Period Collection interval in minutes ol value from O0 common to all data sources to 59 minutes Inverters TIC I O Modbus DAQ _ PeriodSec Collection interval in seconds Possible value from 0 common to all data sources to 59 seconds Inverters TIC I O Modbus Considered only if DAQ_Period is equal to 0 DAQ_HeaderOption Enable Disable display of column headers in the data files O disabled 1 enabled Generic parameters for all inverters Variable
86. oT 17 Characteristics Cable length 5 10 or 20 metres available 824 960 MHz 1710 1990 MHz Frequency ranges MU WebdynSun V1 1 2014 5 Prerequisites Configuration of the WebdynSun is mainly carried out using configuration and definition files which are available on a remote FIP server Consequently it is vitally important that the WebdynSun gateway should have access to an FTP server for downloading and or uploading its configuration and definition files as well as its data alarm and log files In addition the factory default time and date setting of the gateway is 1 January 1970 at 00 00 Time synchronisation is therefore required to enable the data to be correctly timestamped For this purpose the gateway must synchronise itself with an NTP Network Time Protocol server For these reasons it is important to ensure that the prerequisites listed below are correctly entered 5 1 Access to the FTP server For the configuration of the remote FTP server it is essential to respect the following configuration Read Write Rename access authorised Passive mode enabled Port 21 by default Short handshake message Login and Password must be less than 30 characters As the WebdynSun gateway does not create any directories the FTP server must provide the directories and subdirectories for configuration definition data alarms commands logs and updates Here is a list of the default director
87. oaded to the FTP server prefix D_CMD csv This file can contain several types of commands including control of the relay outputs It is deleted from the server by the gateway after downloading After the commands are executed an acknowledgement file is sent to the server orefixID ACK_YYMMDD_hhmmss csv Command file prefixID_CMD csv The parameters for the commands are different according to the type of command sent as shown below index lO indexlO action Where 1 to N Unique identifier providing command identification indexlO 1 to N Index of the device to be controlled This index corresponds to the first field of the device described in the I O definition file action 0 Open contact 1 Close contact 2 Pulse 1 s On receiving a command for the bang bang outputs the gateway forces acquisition of its bang bang and analogue inputs and its bang bang outputs Its data will therefore be available in the next I O data file uploaded to the server Acknowledgement file prefixID_ACK_YYMMDD_hhmmss csv The acknowledgement file mirrors the command file with timestamps added and the acknowledgement Date time index lO indexlO action ack Where ack OK or ERROR 72 MU WebdynSun V1 1 2014 10 Modbus device management This chapter describes the full set of features that enable the WebdynSun to manage Modbus devices It can handle up to 247 Modbus slaves but this limit depends both on the type of slave
88. odbus_Requests Tables 1 counter 3 0 0 4 1 2 2 output 1 5534545151 3 input 2 0 8 4 1 2 Definition of variables Id Reqld Name Type Signed Position Option1 Option2 CoeffA CoeffB Unit Action Modbus_VariablesTables 131 counter1 3 2 1 1 0 pulse 4 2 1 counter2 3 2 2 1 0 pulse 4 331 counter3 3 2 3 1 0 pulse 4 4 1 counter4 3 2 4 1 0 pulse 4 5 2 0utput1 1 2 1 1 0 4 6 2 0utput2 1 2 2 1 0 4 7 2 0utput3 1 5253555150334 8 2 0utput4 1 2 4 1 0 4 9 3 input1 1 2 1 1 0 8 10 3 input2 1 2 2 1 0 8 11 3 input3 1 2 3 1 0 8 12 3 input4 1 2 4 1 0 8 In the configuration file prefix D_daq ini MODBUS_Adar 0 1 MODBUS_Name 0 Slave1 MODBUS FileDefName 0 prefixID MODBUS_TYPE1 ini 87 MU WebdynSun V1 1 2014 After analysis of the alarm file and the definition files we obtain the following result On 27 03 13 at 10 01 16 the variable input4 indexed at 12 on the device named Slave1 switched to 1 On 27 03 13 at 10 01 18 the variable input2 indexed at 10 on the device named Slave1 switched to 0 10 7 Writing Modbus variables via a command file some tasks known as commands may be requested remotely from the WebdynSun These commands are transmitted to the gateway in the form of files uploaded to the FTP server prefix ID_CMD csv This file can contain several types of commands including the command to write Modbus variables It is deleted from the server by the gateway after dow
89. or from 4 20 mA The choice between the two is made using jumpers on the circuit board The WebdynSun includes 4 analogue to digital converters ADCs whose resolution is 10 bits The values reported are therefore digital from O to 1023 To convert these to real values scaling must be done 61 MU WebdynSun V1 1 2014 according to the type of sensor used This scaling must be done on the server side via the scaling coefficients A and B provided in the input output definition file Example If we consider a linear temperature sensor whose operating range is from 50 to 50 TC the value 50 CT corresponds to the digital value 0 and 50 CT corresponds to 1023 Using the Ax B formula we obtain the scaling coefficients A and B A 100 1023 and B 50 If the gateway uploads a digital value of 748 this corresponds to 23 046875 after conversion Analogue input type selection JMP5 to JMP8 syr JMP5 Analogue input 1 JMP6 Analogue input 2 JMP7 Analogue input 3 JMP8 Analogue input 4 0 10V Wiring Sensor 62 MU WebdynSun V1 1 2014 9 1 2 Switching relay outputs The WebdynSun provides 2 relay outputs The relays used are electromechanical ones intended for switching They are not power relays They are open when not energised and their characteristics are Current ratings 3A 48 V AC e 3 A 30 V DC The outputs can be used in their open or closed states or pulsed wi
90. our Ethernet network is managed by a network administrator contact him or her to have your WebdynSun gateway included in the existing Ethernet network Modem If the connexion mode chosen is Modem enter parameters that are valid for your GPRS subscription o Call number enter the phone number for the GPRS connection The default number is 99 1 which is valid in most cases This number is not the phone number of the SIM card fitted to the unit o APN enter the Access Point Name APN supplied by your mobile operator o Login enter the user ID for the APN supplied by your mobile operator o Password enter the password for the APN supplied by your mobile operator O Consult your mobile operator to obtain the information pertaining to your SIM card APN user ID and password 25 MU WebdynSun V1 1 2014 FTP server To enable the gateway to communicate with a remote FTP server via Ethernet OR modem enter the following information Server IP Address or symbolic name of the remote FTP server Login User ID used by the gateway for connection to the remote FTP server Password Password used by the gateway for connection to the remote FTP server Port Port number used for communications with the remote FTP server default 21 Setup Name of the Configuration directory default CONFIG Definition Name of the Definition directory default DEF Data Name of the Data direc
91. over the TIC link This LED flashes rapidly on reception of TIC packets 8 6 Meter data Once it has been configured the WebdynSun constantly collects data from the meters then writes it to a text file in CSV format This file is compressed in GZ format then uploaded periodically to the FTP server for subsequent operations The WebdynSun collects the data from the TIC flux and saves the data read in their raw state Only the printable characters from the ASCII table from 0x40 SP to Ox7E are written to the data files It is therefore possible that if the flux is perturbed some values may not be saved 57 MU WebdynSun V1 1 2014 8 6 1 Filename syntax The data file uploaded to the FTP server complies with the following format prefixID_TIC_YYMMDD_hhmmss csv gz Where prefixID gateway identifier YYMMDD_hhmmss timestamp for the archive in the format year month day hour minute second 8 6 2 Format of meter data The file format is as follows fields in green are optional data that can be enabled or disabled in DSite_daq ini SNTIC sn_1 NumDevice1 TypeTIC fileDefinitionName_1 nbVariableDevice 1 index Variable_1_Device1 indexVariable_2 Device indexVariable_x_Device1 date time_1 variable_1_ value_1_Device1 variable_2 value_1 Device1 variable_x_value_1_ Device date time_2 variable_1_ value_2 Device1 variable_2 value_2 Device1 variable_x_value_2 Device date time_n variable_1_value_n_Device1 variable_
92. present on the bus and the number of variables to be collected from each device 10 1 Bus wiring Communication with Modbus devices can be via RS485 using 2 or 4 wires RS232 or Ethernet This choice is made using software configuration via the configuration file prefix D_daq ini Where the configuration uses RS485 the gateway may be placed at the end or in the middle of the RS485 communication bus To ensure correct operation of the RS485 data bus it must be terminated at both ends using a 120 ohm terminator Depending on the positioning of the gateway on the bus this terminator must be enabled or disabled via a pair of jumpers JMP4 and JMP 1 fitted inside the casing Configuration of bus termination jumper JMP4 and JMP1 RS485 2 wires Half Duplex JMP4 JMP1 JMP4 JMP1 Ho BB gt A oo ENABLE DISABLE B RS485 4 wires Full Duplex od 7 JMP4 JMP1 JMP4 JMP1 O O R H HH oe ENABLE DISABLE See the documentation for the Modbus devices for details of their connections and wiring 13 MU WebdynSun V1 1 2014 J 2 40 z A z 4 42 43244 45 46 47 48 49 50 P PWR ME CT AN AINE AINS CANA LINUS 1 demi i D a T SS DIN ERS4850A _ TS 485CB PS232CBR NINDI e 3 4 4 L RX RX TX TX 1 Rx RX TX TX L RX TX it pm 01 02 03 04 05 MB 07 08 09 10 11 12 13 14 15 16 17 8 19 20 21W22 23 24 feo N NT NS Connecting the Ethernet Modbus TCP bus Switch Ether
93. rrectly configured or is not communicating with the WebdynsSun prefixID_File ini file not downloaded locally or not compliant with standards You can also look at the RS485 232 B LED on the front panel of the unit to check on the activity over the Modbus bus This LED flashes rapidly on reception of Modbus packets 10 5 Modbus data Once it has been configured the WebdynSun constantly collects data from the Modbus devices then writes it to a text file in CSV format This file is compressed in GZ format then uploaded periodically to the FTP server for subsequent operations 10 5 1 Filename syntax The data file uploaded to the FTP server complies with the following format prefixID_MODBUS_YYMMDD_hhmmss csv gz Where prefixID gateway identifier YYMMDD_hhmmss timestamp for the archive in the format year month day hour minute second 10 5 2 Data format The file format is as follows fields in green are optional data that can be enabled or disabled in DSite_daq ini 82 MU WebdynSun V1 1 2014 ADDRMODBUS slaveAdadr_1 NumDevice1 TypeMODBUS fileDefinitionName_1 nbVariableDevice 1 indexVariable_1_Device1 indexVariable_2 Device1 indexVariable_x_Device1 date time_1 variable_1_ value_1_Device1 variable_2 value_1_ Device1 variable_x_value_1_ Device date time_2 variable_1_ value_2 Device1 variable_2 value_2 Device1 variable_x_value_2 Device date time_n variable_1_value_n_Device1 variable_2 value_n_Device1 varia
94. s can be included in the configuration that will be uploaded to the FTP server The second stage is configuration of the gateway via the remote server During this stage it is possible to modify the whole set of configuration parameters via the files available on the server as well as to trigger the commands to detect inverters or meters 6 1 Roles of the WebdynSun files Except for the locally accessible parameters enabling connection to the remote FTP server all configuration of the unit is performed via the configuration files available on the said server The files available on the FTP server must be in ANSI format Each configuration file is prefixed with a unique identifier named the prefixID This prefix enables the configuration for each gateway on the server to be customised Two categories of files are necessary for configuring the unit the configuration files and the definition files The WebdynSun gateway does not overwrite the configuration and definition files available on the server Care must be taken to maintain consistency between the configuration of the gateway and the files on the server Where the configuration is modified locally it is advisable to delete the files from the server so that the gateway will recreate them Conversely if one of the files on the server is modified the gateway detects this and will download it The standard configuration of the gateway is thus overwritten 6 1 1 Configuration files
95. sacdeusastens 107 15 4 LE D MVGNC ALORS sssrin EEEE EEA EAEE EEE E EE EE ER E Ei 108 15 5 IVS WOW UO Ne sssri rennin oei ER EE E seme ecadseatedsashstatedivessecctea 109 15 6 Diagnostic SMSS wesccicctcsatesecendsassevccetsxdecnsds sedesdsatne cans ooddsheaces cnedesedandsassevcestexddanetsetesadsseenedeasoeendeds 110 15 7 SUG ACCS ore cote cnet sees niptin ere dagesntetaes Seuecht coed EE EEE EEA Eai 110 15 8 Factory reset PrOCCCUIEC ccccccseeeccceccaeeeeeeeeeeeeeeeeeeseeaseeeeeseeeeeeeeeseeaeeeesseeueeesssaeeeeeessaaeeeeeeeneas 112 15 9 DDO eea E E E E EER 112 MU WebdynSun V1 1 2014 1 Glossary APN Access Point Name Name of the access point that enables the gateway to connect to the Internet via a mobile link Electricit R seau Distribution France the French National Grid which defines connection norms for installations and meters especially smart meters See TIC General Packet Radio Service Standard for mobile telephone communications derived from the GSM standard and enabling higher data transfer rates Also known as 2 5G DL maximum 86 kbps UL maximum 43 kbps Internet Protocol Message protocol controlling the addressing and transmission of TCP packets over the network DIN Rail Standardised 35 mm metal rail used in Europe for rack mounted industrial control equipment PSTN Public switched telephone network Switched network for telephone land lines TCP Transmission Control Protocol
96. sition time 10 6 1 Alarm filename syntax The alarm file uploaded to the FTP server complies with the following format pretixID_AL_YYMMDD_hhmmss csv gz Where prefixID gateway identifier YYMMDD_hhmmss timestamp of the archive in the format year month day hour minute second 10 6 2 Format of alarms The uploaded CSV alarm file may contain several alarms from different sources It complies with the following format date time_1 AlarmSource 1 fileDefinitionName deviceName index Variable value date time_N AlarmSourceN fileDefinitionNameN deviceNameN index VariableN valueN Where date time_N timestamp when the alarm was triggered in format YY MM DD hh mm ss AlarmSourceN source of alarm triggering here MODBUS fileDefinitionName_N name of the definition file associated with the triggering device deviceNameN name of the triggering device index VariableN index of the variable raising this alarm valueN value of the variable that raised this alarm 86 MU WebdynSun V1 1 2014 10 6 3 Example of alarm file The alarm file prefix D_AL_130327 100305 csv gz was received after a change in the status of inputs input4 and input2 of the device Slave 1 The file contains the following information 27 03 13 10 01 16 MODBUS prefixID_ MODBUS_TYPE1 ini Slave 1 12 1 27 03 13 10 01 18 MODBUS prefixID_MODBUS_TYPE1 ini Slave 1 10 0 With the definition file prefixID _ MODBUS_TYPE1 ini M
97. splay this data locally on the home page of the built in Web server on the gateway or on an external Modbus display The variables to be displayed are described in the definition file IDsite REPORT ini available on the FTP server in the directory DEF REPORT The gateway can display up to a maximum of 10 variables Two types of variable may be distinguished e Cumulative variables Power Energy etc e Instantaneous variables Temperatures Light levels etc By default the gateway displays the following variables in HTML format Date Time of report Instantaneous power of the installation Total energy produced Daily energy produced CO savings Daily CO savings Four additional variables can be added to the display 11 1 Displaying cumulative variables Instantaneous power of the installation The instantaneous power corresponds to the sum of the powers of all the inverters configured on the gateway This variable can have different names depending on the manufacturer and the type of inverter It is for this reason that a list of variable names is predefined in the gateway to enable it to identify the inverter variables to be added in However it is possible to specify a variable name in the definition file prefixID_ REPORT ini 89 MU WebdynSun V1 1 2014 Manufacturer Protocol Default variable name one swaeiAre wenn oo Fronius Power Now Schneider ConextCOM RealPower aem oo pa
98. t 7 The gateway should restart After a few seconds all the LEDs should flash indicating that the update is in progress Warning do not disconnect the unit from the power supply during this phase 8 Wait until the update has finished 10 15 minutes and check the version number on the home page te Home Welcome in Webdyn gateway s setup application About gateway Software version 2 06 00 May 30 2013 Your WebdynSun gateway is now up to date 13 2 Updating remotely via the FTP server Proceed as follows for remote updating 1 Upload the new firmware supplied by Webdyn onto the FTP server 2 Modify the following variables in the configuration file prefix D_config ini for the gateway to be updated e BIN _FileName name of the new firmware supplied by Webdyn e BIN Checksum checksum of the new firmware supplied by Webdyn e FTP_DirBin name of the directory containing the new firmware The gateway will download its new configuration file then its new firmware when it next connects to the FTP server MU WebdynSun V1 1 2014 14 Using Web Services The WebdynSun can access the Web Services of an HTTP server in order to retrieve information or to inform the front end application that an action has been performed on the FTP server such as upload or download of files These calls are optional 14 1 Enabling and configuring The use of Web Services can be enabled via the variables WebService Ena
99. t a new identifier on its next connection 24 MU WebdynSun V1 1 2014 3 Connection mode Choose Ethernet or Modem depending on the mode to be used for the connection Ethernet If the connexion mode chosen is Ethernet enter parameters that are valid for your Ethernet network Address mode you can obtain the Ethernet parameters automatically if the network infrastructure and the version of the WebdynSun can handle this If this is the case click the dynamic radio button and consult the configuration of your DHCP server to find the IP address attributed to your gateway IP Address enter the IP address at which the WebdynSun gateway is accessible Mask enter the subnet mask for your network This mask limits the Ethernet network to one range of defined IP addresses and separates one network range from another Gateway enter the address of the gateway to your network The gateway address is the IP address IP of the device that establishes the connexion to the Internet In general the address entered here is that of the router or ADSL modem DNS enter the address of the DNS server The DNS Domain Name System server translates symbolic Internet addresses e g www webdyn com into their corresponding IP addresses Here you should enter the address of the DNS server you received you re your Internet Service Provider ISP You can also enter the IP address of your router or ADSL modem If y
100. tact Webdyn support 112 MU WebdynSun V1 1 2014 Webdyn SA 26 Rue des Gaudines 78100 Saint Germain en Laye France Fax 33 1 3904 2941 E mail support webdyn com Websites http www webdyn com http www webdynsun com We shall require the following details e Serial number of the gateway e Hardware and software version numbers of the gateway 113
101. th a pulse duration closed of 1 second When the gateway is restarted the bang bang control outputs switch first to their default open states then switch to their last configured states Please take all possible safety precautions during this phase So as to avoid all risks we advise using the bang bang control outputs in pulsed mode especially for all power relay purposes WebdynSun 7 DOUT1 1 pour ee 9 1 3 Dry contact inputs The WebdynSun gateway provides 4 bang bang inputs These 4 inputs have a common earth and are intended to connect to dry contacts open closed The maximum control impedance is 5 ohm AN To avoid damage to the gateway do not inject current or tension on the bang bang inputs 63 MU WebdynSun V1 1 2014 Taa 9 1 4 Index inputs pulse counting The WebdynSun gateway provides two index inputs to enable pulse counting These two inputs have a common earth connection and are provided for dry contacts open closed A pulse is counted if its duration is between 20 ms and 1 second AN To avoid damage to the gateway do not inject current or tension on the index inputs Filtering Protection WebdynSun The maximum resistance allowable on the index input terminals is 50 ohm 64 MU WebdynSun V1 1 2014 9 2 Declaring input output ports The use of the input output ports must be declared in the configuration file prefix D_daq ini This can be done a
102. the addresses of the inverters Collect the list of data that can be used Modify the parameters of the inverters The information provided below gives an overview of how the WebdynSun operates when connected to inverters but does not replace the Appendices 35 MU WebdynSun V1 1 2014 7 1 Inverter wiring The gateway can handle three different types of inverter architecture RS485 Half Duplex RS485 Full Duplex and Ethernet Only one option can be chosen and the protocol used must be selected in the configuration file prefix D_config ini or via the built in Web interface from the Configuration menu For connection via RS485 it may be necessary to enable the bus termination resistors or leave them disabled Depending on the positioning of the gateway on the bus this terminator must be enabled or disabled via a pair of jumpers JMP3 and JMP2 fitted inside the casing Configuration of bus termination jumper JMP3 and JMP2 oo nes Gar ewer er till o it Dp he thhovhe A 7M tt A AA E e see fe stES Totes eeeeey TETEE he gt RS485 2 wires Half Duplex JMP3 JMP2 ENABLE DISABLE RS485 4 wires Full Duplex JMP3 JMP2 JMP3 JMP2 O O R p HA 29 ENABLE DISABLE See the Appendix for the inverters for details of their connections and wiring 36 MU WebdynSun V1 1 2014 43 Al 4 fd fd Ad Zl a AG 4 AR 49 i pC gt AINI AINE AINS AIN4 IND l
103. thod used by the gateway to collect the data from within the inverter Processing method average instantaneous parameter or alarm Formatting name unit and scaling coefficient This file must be made available to the gateway on the FTP server By convention the filename has the following format prefixID_ INV_inverterType ini Where porefix D corresponds to the gateway identifier and inverterType corresponds to the type or version of the inverter A single file may be used for many types of inverter that behave in the same way An INV definition file respects the following format 43 MU WebdynSun V1 1 2014 Where jindexN Index of the variable to be collected 1 to n This index must be unique within the file reserved1 N Fields specific to the chosen inverter protocol reserved2_ N Note these fields are not user modifiable reserved3_N name N Variable name ww p o C Sig coset ATs te arg TOBA Action to be taken on the variable 0 variable not collected variable regarded as a read only parameter average values with minimum and maximum collected instantaneous value variable processed as an alarm On change of status triggers an alarm 7 variable regarded as a parameter read write 7 5 Checking that inverters are operating correctly lt is advisable to check that inverters are operating correctly after they have been declared in the file prefixID_daq ini This can be
104. tory default DATA Alarms Name of the Alarms directory default ALARM Commands Name of the Commands directory default CMD Log Name of the Log directory default LOG Firmware Name of the directory for downloading new firmware default BIN gateway does not create any directories on the server f Check that the FTP directories defined actually exist on the FTP server The For UNIX servers the names are case sensitive lower UPPER case Web Services If the gateway has to use a connection to Web Services enable this option and fill in the URL of the server Otherwise disable this option Inverter protocol select the inverter protocol that you use from the popup menu ii Once all the parameters have been specified click on OK A message will appear at the top of the page to indicate that the gateway must be restarted to take the new parameters into account Click on Restart in the menu on the left and confirm this in the dialogue box The page at 192 93 121 149 says in eS The gateway will restart Continue a Genet Wait for the WebdynSun gateway to complete the restart then reconnect to the built in Web server 26 4 MU WebdynSun V1 1 2014 It is advisable to force connection to the remote server after restarting the unit This is to check that all the new parameters are correct To ensure consistency between the server and the unit it is advisable to del
105. us device traces 0 Disabled 1 Enabled 2 Verbose mode O Disabled 1 Enabled Enable disable input output traces 0 Disabled 1 Enabled Enable disable modem traces O Disabled 1 Enabled 111 MU WebdynSun V1 1 2014 D Enabling debug traces is likely to generate much greater GPRS traffic The traces are subsequently sent out via UDP and on every connection stored in the directory LOG of the remote FTP server in the form of a compressed file named prefixID_YYMMDD_hhmmss_debug log gz 15 8 Factory reset procedure A mechanism to reset the gateway to its factory default parameter settings is provided to deal with problems of access to the WebdynSun To carry out this factory reset please proceed as shown below im 2 eee Je ee oe WS EE A mE amiee DIP Switch pe e T at 1 T Ta ia eS Eh ie E H Lithium ion battery connector Turn off the power supply to the unit Open the casing of the WebdynSun to gain access to the configuration DIP switch Disconnect the lithium ion battery Set DIP switch 2 to ON 5 Turn on the power supply to the unit Wait for the unit to restart automatically after all the LEDs flash simultaneously around 2 minutes Reset DIP switch 2 to OFF Reconnect the lithium ion battery Close the unit A factory reset does not delete the collected data 15 9 Support lf there is a technical problem related to our products con
106. utomatically on generation of the file prefix D_dag ini It can also be modified manually by altering the fields listed below in the file prefix D_daq ini Parameters that are common to all interfaces Variable Definition Comments Default value DAQ _ Period Collection interval in minutes Possible value from O common to all data sources to 59 minutes Inverters TIC I O Modbus DAQ_PeriodSec Collection interval in seconds Possible value from 0 common to all data sources to 59 seconds Inverters TIC I O Modbus Considered only if DAQ_ Period is equal to 0 DAQ_HeaderOption Enable Disable display of column headers in the data files O disabled 1 enabled I O parameters Variable Definition Comments Default value lO_FileDefName Name of definition file for empty input output ports up to 59 characters 9 3 Input output definition files The set of input output ports available on the WebdynSun is described in the definition file prefix D_lO in1i This file respects the following syntax Index_lO_1 number_lO_1 type_ IO _1 name_lO_1 coeffA_1 coeffB_1 action1 Index_lO_N number_lO_N type_lO_N name_lO_N coeffA_N coeffB_N actionN 65 MU WebdynSun V1 1 2014 Where Unique index of the variable 1 to N Number of the input output 1 to 4 for the analogue input type 1 to 4 for the bang bang input type 1 to 2 for the output type 1 to 2 for the index type type 1O_N Type of input output 1 analogue
107. y be requested remotely from the WebdynSun These commands are transmitted to the gateway in the form of files uploaded to the FTP server prefix D_CMD csv This file can contain several types of commands including the command to discover inverters Command file prefixID_CMD csv The parameters of the commands depend on the type of command sent as indicated below index GATEWAY GET_INV_NETWORK3nbInverter Where 1 to N Unique identifier providing command identification Number of inverters to be discovered The command file is deleted from the server by the gateway after downloading After the commands are executed an acknowledgement file is sent to the server prefixID_ ACK_YYMMDD_hhmmss csv 39 MU WebdynSun V1 1 2014 Acknowledgement file prefixID_ACK_YYMMDD_hhmmss csv The acknowledgement file mirrors the command file with timestamps added and the acknowledgement Date time index GATEWAY GET_INV_NETWORK5nbinverter ack Where ack OK or ERROR The acknowledgement indicates whether the command was understood by the gateway It gives no information as to whether inverter detection succeeded or failed Until the inverters detected are declared in the configuration file prefix D_daq ini no data will be collected See the following section Declaring and configuring inverters 7 3 Declaring and configuring inverters lt is essential to select the inverter protocol to be used before declaring the i
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