User Manual - Innovative Energies Ltd
Contents
1. 28 Screenshot Examples ME BE ae M ule ula Meu unsere 28 POWER SUPPLY PARAMETERS IN HTIVIDBOBIMAT 4 30 Read Only Analogue lt 30 Read Write Digital 8 eere 5 02242 30 Read Only Beg eol ee eee eee eere roro e ilia RE 31 INTEGRATING ANALOGUE AND DIGITAL VALUES INTO A WEB PAGE 0 32 Pre Copfigured 5 amp 32 Adding a host reference to the 5 33 Creating a Web with information from the Ethernet Device eese 34 LPIVACOUe eere real ener irren onu terrier esee 34 POWER ETHERMBLINK PROTOCOL CONVERTER CONFIGURATION AND MONITORING qu CT E T inn A 41 GOMMUNICATION SETTINGS MR ARRE ii 41 POWER SUPPLY cea Enio cile ERR reete ette lesu 43 CONFIGURATION DATA TAB ii mmc 45 MODBUS MONITOR ROI i ia 46 MODBUS2. 2 7 2 004 RL 48 DEVICE INFORIMATRIGNATAB 2 ii i at 50 REVISION ec Hr n ir ETT Cou 51 INTRODUCTION The DZC eProtoCon IE1 is a protocol converter which connects to the following Innovative Energies Power Supply models SR100i SR250i SR500i SR750i SR100L SR250L SR500L SR750L It makes the following power supply parameters available via Modbus RTU on an RS485 or RS232 link via Modbus TCP and HTTP over Ethernet Output Voltage Battery Current Power Supply Current Battery Temperature Digital Indications for the following o Normal Operation Battery Presence Battery Condition Battery Condition Testing Status Battery Charging Battery Discharging Battery Condition Test Enable Status Mains Failure Overload System Down o Battery Low Digital Controls for the following o Battery Condition Test Start and Stop o Battery Condition Test Enable and Disable Optionally 4 digital inputs can be monitored and 2 relay outputs controlled O O O It provides a 10Mbps half duplex connection Serial Modbus RTU can be configured with baud rates from 9600 up to 115200 with parities of none odd even mark and space 8 data bits and one stop bits The converter can be interrogated via a web page to provide any of the parameters above MEM DEVICE SCHEMATIC AND
3. 8 ELECTRICA sss eerie vei ini iii 8 siia iere iii cia me rri 8 M ME Ouest emos eie ER 8 MODBUS RTU AND MODBUS TCP 5 6 9 READWONLY REGISTERS SBR eee rre esca eei 9 POWER SUPPLY READ ONLY COILS NEW REGISTER SET esee eene enne 10 POWER SUPPLY READ ONLY COILS OLD REGISTER iin nnns 11 O READ ONLY meer Reese ae monere range cro 12 BEAD WRITE COILS 88 9 amp 1 12 SINMIP emm UD S EE dI ur af nt SHEET 13 MANAGEMENT INFORMATION BASE MIB 410 4 0202 4444 4414 13 Device Identification OID 1 3 6 1 4 1 38586 1 1 13 Readings 1 3 6 1 4 1 38586 1 2 ME MF rias Roe es 13 Information Digitals OID 1 3 6 1 4 1 38586 1 3 0000000000000000000000 0 13 Alarm DigitalsOID 1 3 6 1 4M 385 S69LZT Eee 13 1 3 6 1 4 1 39686 15 RR 13 Tps 1 3 6 1 4 1 385 8685 46 8
4. Device Details 7 This section should be used to check that communication to the device is healthy and that the device connected to the serial port is the expected type If a link has successfully been established with the Modbus device the parameters will show up in the appropriate fields These parameters should be sent to the supplier as a reference when requesting help with a particular device to identify the exact part number and production batch If the connection is not healthy a No Comms notice will show up in all the fields 8 Thisis the re order part number and description of the device connected to the serial port TCP IP Settings 9 Pressing the Send New IP Settings will send the IP settings entered in section 11 to the device via the serial port TCP IP settings can only be set via the serial link 10 Pressing the Get Current IP Settings will retrieve the IP settings and MAC address of the device connected to the serial port and display them in section 11 11 These are the IP settings to be sent to the device or setting retrieved from the device In this model only a static IP address can be set 12 This is the MAC address of the device This information will only displayed when the Get Current IP settings button is pressed and the port has successfully connected to the device SNMP Settings 13 In this section reading and writing the SNMP setting from and to the device is possible Refer to SNMP Section for
5. Long Description Battery Bad Battery Missing Overload Communications Fail to Power Supply System Down Battery Low Mains Failure Charge Cycle Normal Operation Battery Present Battery Sign Set for Negative Discharge HTTP AND WEB PAGE PROGRAMMING INTRODUCTION A web page can be used to access registers using the popular HTML language The HTML Ethernet interface is compatible with version 1 1 The interface has been tested with the following popular web browsers Internet Explorer 7 0 and 8 0 Mozilla Firefox 3 5 Opera 9 0 to 10 5 Sea Monkey 2 0 Google Chrome 4 1 It should be compatible with other browsers but has never been tested Registers can be accessed individually by calling htm pages as indicated in the tables below As an example requesting web page http 192 168 8 60 MA01A001 htm will return the following information from the device with IP Address 192 168 8 60 32 bit value 1 This is equivalent to Modbus Registers 40001 and 40002 Detail to 1 decimal point Value automatic refresh is disabled The tables below show the deconstruction of the htm address HTML STRING DECONSTRUCTION MONITORING OF AN ANALOGUE VALUE BYTES 1 2 3 4 5 6 7 8 M 0 4 P E Monitor Analogue Reserved Decimals Rate Num Num Num 9 10 11 12 h BYTES DESCRIPTIONS Character i ADE Description alues 1 M Monitoring 2 A Analogue Values 3 0109 Reserved Byte 4 0 to 3 Numbe
6. 38555 1 4 8 1 3 6 1 4 1 38555 1 4 9 1 3 6 1 4 1 38555 1 4 10 1 3 6 1 4 1 38555 1 4 11 1 3 6 1 4 1 38555 1 4 12 1 3 6 1 4 1 38555 1 4 13 1 3 6 1 4 1 38555 1 4 14 1 3 6 1 4 1 38555 1 4 15 1 3 6 1 4 1 38555 1 5 1 3 6 1 4 1 38555 1 5 1 1 3 6 1 4 1 38555 1 5 2 1 3 6 1 4 1 38555 1 5 3 1 3 6 1 4 1 38555 1 5 4 1 3 6 1 4 1 38555 1 5 5 1 3 6 1 4 1 38555 1 5 6 1 3 6 1 4 1 38555 1 5 7 1 3 6 1 4 1 38555 1 6 1 3 6 1 4 1 38555 1 6 1 1 3 6 1 4 1 38555 1 6 2 1 3 6 1 4 1 38555 1 6 3 1 3 6 1 4 1 38555 1 6 4 1 3 6 1 4 1 38555 1 6 5 1 3 6 1 4 1 38555 1 6 6 1 3 6 1 4 1 38555 1 6 7 1 3 6 1 4 1 38555 1 6 8 Type Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer R RW Long Description J 27 22 20 270 20 DD 2 2 RW RW RW RW RW RW RW RW Charge Cycle Normal Operation Battery Ok Battery Present Possible Mains Fail Brown Out Battery Sign Set for Negative Discharge Temperature Sign Set for Negative Retry Battery Test on Fail Battery Condition Testing Active Automatic Battery Condition Testing Enabled Digital Input 1 State Digital Input 2 State Digital Input 3 State Digital Input 4 State Digital Output 1 State Digital Output 2 State Battery Bad Battery Missing
7. 39 Sample Website SeaMonkey x File Edit View Go Bookmarks Tools Window Help status of Analogue Value 1 On 4 Status of Digital Value 1 POWER ETHERMBLINK PROTOCOL CONVERTER CONFIGURATION AND MONITORING SOFTWARE COMMUNICATION SETTINGS Power EtherMBLink v1 0 i Comm Settings B5 Power Supply Configuration Data B Modbus Monitor Modbus Monitor Control I Device Informationll PC Serial Communication Settings Device Details Port 1 Baud 9600 Parity Noe Type Data Bits Stop Bits Hardware Rev List Ports Open Port Close Port Firmware Get Specs Released Modbus Addsess of Curent Connection Serial Number 10 00120 00000001 Modbus Address B UTAH ENTRE DZC PCON EtherProtoCorE 1 New Device Serial Communication Settings Device Description Address i B Baud Rate 9600 PCON Range Innovative Energies Power Supply Protocol Converter with Ethernet Port ity v its 1 Pai None Stop Bits TCP IP Settings Data Bits Send New Comm Settings IPAddress 1922 168 8 2 60 2 Send New IP Settings i Gateway 192 i 168 3j 8 Get Current IP Settings Subnet Mask 255 1 255 2 255 Ethernet Power MBL NMS IP Address 192 168 iergie4 Read Only Key public Read Write Key private
8. ILL aee eerta 13 SNMP PROTOCOL BK Mus ME eese eer nonna DE Pres rara roii iaa 14 SOFTWARE ERN aiU uu E o i 14 SNMP WALK TEST 8s Modo Peer el sg t 15 OID Ree rrr rrt ee rrr ox hen 16 Objects Wf MA Bs SPAM eese a Meere 16 Ice oc SEM AME D ARDET M AE ER V DE 18 AND WEB PAGE 19 INTRODUCTION m i ii i QA 19 HTML STRING DECONSTRUCTION MONITORING OF AN ANALOGUE VALUE 4 20 20 Bytes 2 2 RS een ep ehe een eere onerat e ec 20 HTML Addis Exampl amp s amp 20 ScreenshoMExalmpleS eiie AE ii eee albos 21 HTML STRING DECONSTRUCTION MONITORING OF A DIGITAL 22 Screenshot 5 amp Re mss 23 HTML STRING DECONSTRUCTION CONTROL OF AN ANALOGUE 2 10 nnne 25 Saseenshot Examples IM Reese pm i sou 26 HTML STRING DECONSTRUCTION CONTROL OF A DIGITAL
9. NE SCREENSHOT EXAMPLES Examples when the value of Coil 1 is Off Monitor Digital Value 1 Message On Off Direct Logic Automatic Refresh Disabled Mozilla Firefox http 192 168 8 60 MDDAA00L him Monitor Digital Value 1 Message On Off Inverted Logic Automatic Refresh Disabled Mozilla Firefox Bl x 2 http 192 168 8 60 MDEBA001 htfn vue Monitor Digital Value 1 Message Full lt Blank gt Indirect Logic Automatic Refresh every 30 Seconds Mozilla Firefox Full Examples when the value of Coil 1 is On Monitor Digital Value 1 Message Alarm No Alarm Direct Logic Automatic Refresh Disabled Mozilla Firefox Monitor Digital Value 1 Message LoLo lt Blank gt Direct Logic Automatic Refresh Disabled Mozilla Firefox HTML STRING DECONSTRUCTION CONTROL OF ANALOGUE VALUE HTML Code Bytes Call first Time 1 2 3 4 5 6 7 8 hom V a O Num O Num O Num 9 10 11 12 Character bd Description alues 1 C Control 2 This value is static and cannot change 3 V This value is static and cannot change 4 a This value is static and cannot change 5 This value is static and cannot change 6 0 to 9 Variable Number to Monitor Hundreds 7 0 to 9 Variable Number to Monitor Tens 8 0 to 9 Variable Number to Monitor Units 9 This value is static and cannot change 10 This value is static and cannot change 2 11 This value is static and
10. Overload Communications Fail to Power Supply System Down Battery Low Mains Failure Start Battery Condition Test Stop Battery Condition Test Enable Battery Condition Test Disable Battery Condition Test Switch On Digital Output 1 Switch Off Digital Output 1 Switch On Digital Output 2 Switch Off Digital Output 2 yS ZOVE Units NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA NA Comment 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 1 ON 0 Off 1 ON 0 1 ON O Normal 1 Alarm O Normal 1 Alarm O Normal 1 Alarm O Normal 1 Alarm O Normal 1 Alarm O Normal 1 Alarm O Normal 1 Alarm 1 Set Auto Reset 1 Set Auto Reset 1 Set Auto Reset 1 Set Auto Reset 1 Set Auto Reset 1 Set Auto Reset 1 Set Auto Reset 1 Set Auto Reset TRAPS ieep1Traps OID Name psBatteryBad psBatteryMissing psOverload psComsFail psSystemDown psBatteryLow psMainsFail psChargeCycle psBatteryOK psBatteryDischarging 1 3 6 1 4 1 38555 1 7 OID Number 1 3 6 1 4 1 38555 1 1 3 6 1 4 1 38555 2 1 3 6 1 4 1 38555 3 1 3 6 1 4 1 38555 4 1 3 6 1 4 1 38555 5 1 3 6 1 4 1 38555 6 1 3 6 1 4 1 38555 7 1 3 6 1 4 1 38555 8 1 3 6 1 4 1 38555 9 1 3 6 1 4 1 38555 10
11. SNMP Settings NMS IP Address 1922 1683218 2 1508 Read Only Key public Read Write Key private Send New SNMP Setti 25 Current SNMP Settings Protocol Port 1 Network Manager Software NMS IP Address This is the IP Address where all the traps will be sent to The NMS software should be configured to accept unsolicited messages from this SNMP Agent 2 Theread only community string should be programmed to match the community string programmed in the NMS 3 Similar to the Read Only String the Read Write String is used for writing information to the SNMP Agent In this implementation it is required for all the items in the section ieep1Control OID Number 1 3 6 1 4 1 38586 1 5 4 Checking this box will enable sending of Traps Unsolicited messages will be sent to the NMS only if this feature is enabled Port 162 will be used for sending of traps on the IP address in item 1 5 The SNMP agent can be interrogated for information on the default standard port of 161 or otherwise this can be changed to a more secure port 6 These buttons will either write the information in this section to the device attached via the serial port or read the values from it 2 2 MEM SNMP WALK TEST The EtherMBLink software installation CD contains a copy of SNMPWalk exe which is a small program which can be used to do an SNMP Walk test on the SNMP Agent The following is a screenshot with an example
12. Sample Website SeaMonkey PI es File Edit View Go Bookmarks Tools Window Status ot Analogue Value 1 4 status of Digital Value 1 HTML Code head meta http equivz Content Type content text html charset iso 8859 1 gt lt title gt Sample Website lt title gt lt style type text css gt lt 1 4 position absolute left 44px top 35px width 178px height 31px z index 1 Layer2 4 position absolute left 43px top 78px width 179px height 37px z index 2 style3 margin bottom 12px Layer3 position absolute left 243px top 35px width 55px height 36px z index 3 gt lt style gt lt head gt lt body gt div id Layer1 gt Status of Analogue Value 1 lt iframe src http EtherDevice MA01C002 htm frameborder 0 marginheight 0 marginwidth style height 20px width 35px namez I20 idz I20 lt iframe gt lt div gt div id Layer2 gt Status of Digital Value 1 iframe src http EtherDevice MDBAC016 htm frameborder 0 marginheight 0 marginwidth style height 16px width 40px name 124 14 124 class style3 gt lt iframe gt lt div gt lt div id Layer3 gt lt iframe src http uProc CSNDD001 htm frameborder 0 marginheight 0 marginwidth style height 30px width 50px name 123 id 123 gt lt iframe gt lt div gt lt body gt lt html gt Web Page
13. cannot change This value is static and cannot change HTML Code Bytes Setting a Positive Value 1 2 3 4 5 6 7 8 C 9 V 0 0 0 Control 9 10 10 n 10 n 1 10 n 2 10 3 10 n 3 m 10 n 3 m 1 05 n 0 0 0 HTML Code Bytes Setting a Negative Value 1 2 3 4 5 6 7 8 C Control V a 0 0 0 9 10 11 11 n 11 N 1 11 n 2 11 n 3 11 n 3 m 0 R n 0 f 0 11 n 3 m 1 0 Max Chars n 7 Max Chars m 3 Possible Character V Description alues 1 C Control 2 This value is static and cannot change 3 V This value is static and cannot change 4 a This value is static and cannot change 5 This value is static and cannot change 6 0 to 9 Variable Number to Monitor Hundreds 7 0 to 9 Variable Number to Monitor Tens 8 0 to 9 Variable Number to Monitor Units 9 Variable Number to Monitor Units 10 0 to 9 Variable Number to Monitor Units 1001 1 n Variable Number to Monitor Units 10 n 1 0 to 9 Variable Number to Monitor Units 10 2 This value is static and cannot change 10 3 0109 Variable Number to Monitor Units 10 n 3 m Variable Number to Monitor Units 10 n 3 m 1 0 to 9 Variable Number to Monitor Units Examples HTML Page Description Result Example C Val0012 Initial Call to set analogue value 1 M asked 10 set a Value is set and user is asked to set a value SCREENSHOT EXAMPLES Setting of Analog
14. corresponding signal These values do not 0005 cdigiEnableDigiouti need to be reset to 0 The correct read write community string is required 0006 cdigibisableDigiouti to control these values RY 0007 caigitnabiedigiout2 p 0008 cdigiDisableDigiOut2 ee 0007 ieep1 Traps va 0001 psBatteryBad TRAPS OID 1 3 6 1 4 1 38586 1 6 PA 27 0002 psBatteryMissing 7 0003 psOverload These unsolicited messages will be sent to network management software JP 0004 pscomsfai when these signals are activated There will be no messages signals sent to the Pa 0005 psSystemDown NMS when they are back to the Off state e 000 j e 7 0007 psMainsFail ow 0008 psChargeCycle va 0009 psBatteryOK 40 0010 psBatteryDischarging 2 AN 107 2 ME SNMP PROTOCOL COMPATIBILITY This implementation of the SNMP Protocol supports the following functions SET TRAPS GETNEXT SNMP Walk The following settings are user configurable Read Only Community Key Read Write Community Key A Protocol Port Enabling Disabling of sending of Traps Network Management Software NMS IP address for Traps The MIB file is included as part of the EtherMBLink Installation CD SOFTWARE All the SNMP parameters can be programmed using the Power EtherMBLink Software Below is a screenshot of the section in the Communication Settings Tab in the software
15. htm MA01F005 htm MA01F006 htm MA01F007 htm MA01F008 htm MA01F009 htm MA01F010 htm MA01F011 htm MA01F012 htm MA01F013 htm MA01F014 htm MA01F015 htm MA01F018 htm HTML Address CSNDD161 htm CSNDD162 htm CSNDD163 htm CSNDD164 htm CSNDD165 htm CSNDD166 htm Description Output Voltage Battery Current Power Supply Current Temperature Time in minutes between battery detect tests in mins Minimum voltage to detect battery presence in Volts Shutdown Voltage in Volts Battery low alarm voltage level in Volts Battery disconnect voltage in Volts Battery charge current limit in Length of battery condition test in mins Time interval between BCTs in mins Time interval between BCTs in hours Time interval between BCTs in days Mains fail check interval during BCT in mins Watchdog Description Start Battery Condition Test Stop Battery Condition Test Enable Battery Condition Test Disable Battery Condition Test Control of Digital Output 1 Optional Control of Digital Output 2 Optional Once the bit commands are sent to the device they are automatically reset to O Type Register Register Register Register Register Register Register Register Register Register Register Register Register Register Register Register Type Bit Bit Bit Bit Bit Bit READ ONLY DIGITAL PARAMETERS Register Name CC OL MF BCT BP BM BL BB M B SD BO Bcond Ret TempS
16. more details Exit Application 14 Exits the Power EtherMBLink software 2 POWER SUPPLY MONITORING Power EtherMBLink v1 0 Power Supply Variables Communications IP Address _ o go Address Set To Serial 8 Status Normal Operation Battery Present Battery Charing BOT Enabled Output Voltage Battery Current Power Supply Current Battery Temperature 13 3 18 7 07 9 14 0 Volts Amps _ Amps Battery Condition Test Start BCT 5 top BCT BCT Enable Dutputs Digital Outputs Control Enable Output 1 Disable Qutput 1 BCT Disable N Enable Output 2 Disable Output 2 Code Description a _ Type Notice 03013 ei Updating of Information From Device With Address 1 Ended The Power Supply Monitoring Section is used for the following functions the Innovative Energies Power Supply Parameters Statuses and Alarms e Start and Stop a Battery Condition Test e Enable and Disable Automatic Battery Condition Tests e Switch On and Off the two digital outputs purchased optionally Monitor the 4 digital inputs purchased optionally Section Descriptions Power Supply Variables 1 Display of the power supply monitoring parameters Status 2 Display of the power supply statuses Alarms 3 Display of the power supply alarms Inputs 4 Display of the digital inputs status
17. of Analogue Value 1 lt div gt lt body gt lt html gt Web Page Sample Website SeaMonkey File Edit Go Bookmarks Tools Window status of Analogue Value 1 HTML Code head meta http equivz Content Type content text html charset iso 8859 1 gt lt title gt Sample Website lt title gt style type text css gt lt Layer1 4 position absolute left 44px top 35px width 178px height 31px z index 1 gt lt style gt lt head gt lt body gt div id Layer1 gt Status of Analogue Value 1 lt iframe src http EtherDevice MA01C002 htm frameborder 0 marginheight 0 marginwidth style height 20px width 35px namez I20 14 120 gt lt iframe gt lt div gt lt body gt lt html gt Web Page Sample Website SeaMonkey 10 File Edit View Go Bookmarks Tools Window Help status of Analogue Value 1 HTML Code head meta http equivz Content Type content text html charset iso 8859 1 gt lt title gt Sample Website lt title gt style type text css gt lt Layer1 4 position absolute left 44px top 35px width 178px height 31px z index 1 Layer2 4 position absolute left 43px top 78px width 179px height 37px z index 2 j gt lt style gt lt head gt lt body gt lt div id Layer1 gt Status of Analogue Value 1 lt iframe src http EtherDevice MA
18. transmitted in reply to a request from the serial Modbus RTU network LAN Link Solid green when a link to the network has been established LAN Activity Flashes yellow when there is communications activity on the LAN O1 O2 Output 1 2 Status indication Solid green when output relay is ON 11 14 Input 1 4 status indication Solid green when input is ON Color Coding Red Power ON Indication Yellow Communications and Watchdog Indications Green Inputs and Outputs status indication 2 N ME DEVICE SETUP PROGRAMMING SOFTWARE The DZC eProtoCon IE1 module is configured using the Power EtherMBLink Software This software package is supplied for free with the device Further details on the software are provided later on in this manual RESETTING TO DEFAULT COMMUNICATION SETTINGS To Reset to default communication settings the Rst button on the front of the device has to be pressed for 5 seconds while the Ethernet Protocol Converter is being powered up The default parameters are as follows General Parameters Modbus Address 1 Serial Communications Baud Rate 9600 Parity None Data Bits 8 Stop Bits 1 Ethernet Communications IP Address 192 168 8 60 Gateway Address 192 168 8 255 Subnet Mask 255 255 255 0 SPECIFICATIONS ELECTRICAL Power Supply Model 1 9 15V Digital Inputs Volt Free Contact inputs with no isolation Maximum of 4 Inputs Digital Outputs Relay Outputs max 2A at M
19. 01C002 htm frameborder 0 marginheight marginwidth style height 20px width 35px name 120 idz I20 lt iframe gt lt div gt lt div id Layer2 gt Status of Digital Value 1 lt div gt lt body gt lt html gt Web Page Sample Website SeaMonkey ioj x File Edit wiew Go Bookmarks Tools Window Help Status of Analogue Value 1 4 Status of Digital Value 1 HTML Code head meta http equivz2 Content Type content text html charset iso 8859 1 gt lt title gt Sample Website lt title gt lt style type text css gt lt Layer1 4 position absolute left 44px top 35px width 178px height 31px z index 1 Layer2 4 position absolute left 43px top 78px width 179px height 37px z index 2 style3 margin bottom 12 gt lt style gt lt head gt lt body gt lt div id Layer1 gt Status of Analogue Value 1 lt iframe src http EtherDevice MA01C002 htm frameborder 0 marginheight 0 marginwidth 0 style height 20px width 35px namez I20 14 120 gt lt iframe gt lt div gt lt div id Layer2 gt Status of Digital Value 1 lt iframe src http EtherDevice MDBAC016 htm frameborder 0 marginheight 0 marginwidth style height 16px width 40px name 124 id 124 class style3 gt lt iframe gt lt div gt lt body gt lt html gt Web Page 2 Sample Website SeaMonkey 24
20. 036 Description Output Voltage Battery Current Power Supply Current Temperature Time in minutes between battery detect tests in mins Minimum voltage to detect battery presence in Volts Shutdown Voltage in Volts Battery low alarm voltage level in Volts Battery disconnect voltage in Volts Battery charge current limit in 96 Length of battery condition test in mins Time interval between BCTs in mins Time interval between BCTs in hours Time interval between BCTs in days Mains fail check interval during BCT in mins Watchdog All Values are scaled 1 10 i e a value of 123 is equivalent to 12 3 The values are stored in 16 bit unsigned registers Type Register Register Register Register Register Register Register Register Register Register Register Register Register Register Register Register Modbus Address 00040 00041 00042 00043 00044 00045 00046 0004 7 00048 00049 00050 00051 00052 00053 00054 00055 00056 00057 00058 00059 00060 POWER SUPPLY READ ONLY COILS NEW REGISTER SET Description BCT Related Digitals BCT Active BCT Status Enabled Disabled BCT Start Acknowledge BCT Stop Acknowledge BCT Enable Acknowledge BCT Disable Acknowledge Information Digitals Charge Cycle Normal Operation Battery Ok Battery Present Battery Possibly Missing Possible Mains Fail Brown Out Battery Sign Set for Negative Discharge Temperature Sign S
21. 9 Toggle _ oft on 9 Dig021 Toggle ot On Dig033 Toggle ot Cf Dig010 ot On 9 Dig022 Toggle _ oft Dig034 Toggle ot on Dig011 Toggle _ oft On 9 Dig023 Toggle ot On Dig035 Toggle _ oft 94 Dig012 Toggle ot On Dig024 Toggle C Dig036 Toggle Off of On CH After the software is installed these pages can be accessed via Start DoZeener Controls DZC Power EtherMBLink DZC EtherCard Website htm The html source can be used to help configure custom user web pages This is also a very good tool to monitor the values inside the Protocol Converter using an internet browser This web page uses the host name EtherDevice to access data from the protocol converter A host name instead of an IP address is used so that the website is easily configurable to connect to any address simply by changing the hosts file NE ADDING A HOST REFERENCE TO THE HOST FILE The host file in the windows directory is used to resolve a host name into an IP address The host file is located here in C WINDOWS system32 drivers etc hosts When the file is opened using notepad this is how it looks if it has never been edited hosts Notepad Jog File Edit Format wiew Help Copyright 1993 1999 Microsoft Corp This is a sample HO
22. Battery Low and in Bad Health Battery Bad 9 9 999539 Web Page will try 1o accese vakaes from denice with host name eProtoCozn entry needs to bs added to the hosts fie located m C WINDOWS uysten37 diverret O Dore In the sections below short examples are used to show how values from the Ethernet HTML interface can be places on a web page These are only basic examples If more advanced languages like Flash are used more sophisticated effects can be created To make this example work the host file has to be edited as shown in the previous section HTML CODE EXAMPLES HTML Code head meta http equivz Content Type content text html charset iso 8859 1 gt lt title gt Sample Website lt title gt lt head gt lt body gt lt body gt lt html gt 2 2 NM Web Page Sample Website SeaMonkey Edit Go Bookmarks Tools Window HTML Code The sections highlighted grey are additions over the previous example Highlights are used to show the effect on the web browser when the html code is added head meta http equivz Content Type contentz text html charset iso 8859 1 gt lt title gt Sample Website lt title gt lt style type text css gt lt Layer1 position absolute left 44px top 35px width 202px height 31px z index 1 j gt lt style gt lt head gt lt body gt lt div id Layer1 gt Status
23. Data Modbus Montar 8 Modbur Montar Contol 1 Device External Connector Wang Diagam Genel Connectors Wan Duran Ganed 01 Modbus R5232 TX 02 Modbus AS232 RX 2 03 Modbus 5232 Common aaa 04 Relay Outputs Common ve e 05 Modbus 5485 D IT 06 Modbus 5485 D 05 06 07 09 07 Relay Output 1 Optional 08 Relay Output 2 Optional A Ethernet Port 09 input 2 Optional 10 input 1 Optional 11 Power Supply RS485 12 Power Supply RS485 D 1 09 10 an 12 eae avis Crs Duer to 4 2 Ethernet Port _T_ 15 Unused 16 Unused J 17 input 4 Optional i NK TTI SE 18 input 3 Optional Modus Network 19 Power i Vasta Commencasora D 1 Power Sugpiy RAR 12 Rewer 0 0 2 Mastan Mactan 05 Modibus Ethernet Port H h Serial Port 143 45 Ge 20 Power Leo 01 Updating of komaton from Device With Address 1 Ended Updating of hiomaton From Device With Address 1 Ended Power LtherMBL ink w1 0 Comm Serge Forse Supply Nordal Configuration Data Modsa Monta Modas Monitor Control Device 4 svn Eemal Connector Wang Diagam Geneva hiomaton Default Communications Settings To Reset to detauit setings the Ast
24. E New SNMP Setti Enable Traps Protocol Port 11 B Get Current SNMP Settings No Break Power Supplies NA 9 Mhovative E 4 ene rg es Email support dozeener com no k Innovative Code Type Description Notice 03013 Updating of Information From Device With Address 1 Ended The Comm Settings Section is used for the following functions e Choosing the PC communication port and comms parameters e Setting device Modbus address to be configured e Displaying specifications of the device connected to the serial port e Displaying Ethernet interface IP Details and MAC Address e Setting Ethernet interface IP Details PC Serial Port Communication Settings 1 These three buttons are associated with the PC serial communication ports Pressing List Port will display which ports are available on the machine at the bottom of the screen in the Notice area Open port and close port buttons are used to open and close the serial ports selected in the Port field 2 Communication port parameters Com Ports up to 32 are possible Baud Rate possibilities are 9600 14400 19200 38400 56000 57600 and 115200 The data bits are fixed to 8 and stop bits fixed to 1 and cannot be altered Parity configuration possibilities are None Odd Even Mark and Space Modbus Address of Current Connection 3 Thisis the device Modbus address connecte
25. IO CONNECTIONS CONNECTIONS 01 Modbus RS232 TX 02 Modbus RS232 RX 03 Modbus RS232 Common 04 Relay Outputs Common 05 Modbus RS485 D 06 Modbus RS485 D 07 Relay Output 1 Optional 08 Relay Output 2 Optional A Ethernet Port 09 Input 2 Optional A 10 Input 1 Optional 11 Power Supply RS485 D 12 Power Supply RS485 D 13 Inputs Common 11 12 14 Unused 15 Unused 16 Unused 17 Input 4 Optional 18 Input 3 Optional 17 19 20 NODU WIRING DIAGRAMS Power Supply Communications Module and Modbus Communications Module s Common 1 2 3 4 11 Power Supply RS485 D A Ethernet Port 19 Power AC DC 20 Power AC DC 12 Power Supply RS485 D 07 Relay Output 1 08 Relay Output 2 04 Relay Outputs Common 01 Modbus RS232 TX 02 Modbus RS232 RX 03 Modbus RS232 Comm 05 Modbus RS485 D 06 Modbus RS485 D 10 09 18 TZ 13 Digital Outputs RS485 Digital Inputs RS232 5485 Comms Comms Comms Module Module Module 11 12 07 08 04 10 09 18 17 13 01 02 03 05 06 o gt 3 cS SUP O0 0 0 Su 9 O ES or EVA Power Supply Or Straight Cable
26. Ret After saving the pinging the host name is good test to test whether the new entry had the desired result E WINDOWS sy sbEem32 cmd exe Windows Version 5 2 3790 Copyright 1985 2003 Microsoft Corp C Documents and Settings kiwifping etherdevice Pinging etherdevice 192 168 8 66 with 32 bytes of data Reply from 192 168 8 6 bytes 32 time lt ims TTL 64 Reply from 192 168 393 608 bytes 32 time lt ims TTL 64 Reply from 192 168 8 60 bytes 32 time lt ims TIL 64 Reply from 192 168 8 60 bytes 32 time lt ims TTL 64 Ping statistics for 192 168 8 68 Packets Sent 4 Received 4 Lost 10552 fipproximate round trip times in nilli secands Hinimum Ane Maximum Average Bms C Documents and ettings kiwi gt CREATING A WEB PAGE WITH INFORMATION FROM THE ETHERNET DEVICE The screenshot below shows how the Ethernet HTML links can be placed on a web page to display information in a meaningful way In this case the web browser Sea Monkey is being used This is a very good free web browser wrwakme Energies Power Sopply Sea ionkry ovative HTTP Interface Demo Website ener gie Addresses compatible wah Protocol Converter DZC eProtocon IEl Charge Cycle Mans Fabre Overload Battery Present and in Good Health Battery Present and Health Battery Low and in Good
27. STS file used by Microsoft TCP IP for Windows This file contains the mappings of IP addresses to host names Each EDEN should be kept on an individual line The address shoul be placed in the first column followed the corresponding host name The IP address and the host name should be space es comments such as these may inserted on individual lines or fo lowing the machine name denoted by symbol separated by at least one For example 102 594 94 97 rhino acme com 4 source server 38 25 63 10 x acme com x client host IA N IA localhost To make the website work the new host name reference to the protocol converter s IP address must be added i e 192 168 8 60 EtherDevice 1 hosts Notepad File Edit Format Help This is a sample HOSTS file used by Microsoft TCP IP for Windows This contains the mappings of IP addresses to host names Each be p should be kept on an individual Ene he address shoul be p Sgt in th e first column followed the corresponding host e separated by at least one P address and the host name should 52 20 comments such as these may inserted individual lines or fo lowing the machine name denoted by a symbo For example 1072 54 94 97 rhino acme com 4 source server 38 725 63 10 x acme com x client host localhost EtherDevice
28. aximum of 2 Outputs COMMUNICATIONS Ethernet Port Speed 10Mbps Half Duplex IPv4 Power Supply Communication Port RS485 with no isolation Modbus Serial Communication Port RS485 with no isolation RS232 with no isolation or flow control PROTOCOLS Modbus Functions 1 3 5 6 15 16 Modbus TCP Functions 1 3 5 6 15 16 nternet Protocol HTTP Internet Protocol ARP ICMPv4 TCP MODBUS RTU AND MODBUS TCP PROTOCOLS The Maximum polling values for Modbus RTU and Modbus TCP are the following Maximum number of registers that can be polled using function 3 20 Maximum number of coils that can be polled using function 1 32 Maximum number of registers that can be written using function 16 20 Maximum number of coils that can be written using function 15 8 lt is recommended that the device polling rate is not made faster than 500ms Polling via Ethernet can be done every 10ms but is not recommended as it overloads the communications network and may result in occasional failures when polling via HTTP Polling via serial RS232 or RS485 can be done every 100ms but may result in a failure rate of 1 or less READ ONLY REGISTERS Register Name Vout Ibat Ipsu Temp BatDetect Vpres Vshutd Vbatl Vdisco Bccl BCTim CC Mins CC Hrs CC Days MfiBCT NA Modbus Address 40002 40004 40006 40008 40010 40012 40014 40016 40018 40020 40022 40024 40026 40028 40030 40
29. buton on the front of the device to be pressed fort seconde while the Ethernet Protocol Converter being powered up The detaut parameters ave ob follow General P eteri Modtbui Sena Communicatoni Baud Rate 9600 Party Data Bite 8 Stop Bis 1 Ethernet Commuricahianz IP Address 182 1 68 B 60 Address 192 168 8 255 Subast Mask 2 Specticatons lectncal Power Medel 9 1 Digital h Free Contact with no OM amu of 4 Digital Output Outputs max 24 st JUVOC Maximum of 2 Outputs Co freu rs Ca on s Ethernet Port Speed 10M bos Mat Duplex f municaton Port 8425 wth no inslaton 85 with o isolaton RB232 no inclation flow control Modbut RTU Fusctions 1 Modbus TOP Functions 1 gt lee Now 0013 TE TIME The device information tab shows the following information e Protocol Converter physical connections e Protocol Converter wiring diagram e Default communication settings and device specifications REVISION HISTORY Revision Date Revised Number Revised By 1 9 10 Initial Revision 2 12 Jan 11 RM Added section Read Only Coils New Register Set to match update in the device firmware Updates on pages 11 and 12 Corrected address from 25 to 3 7 Sep 11 RM 35 and changed to 22 to 32 Added Section SNMP and modified the picture and description on page 40
30. d Website DzC EtherCard Website html Untitled Document 3JDo EENER CONTROLS www dozeener com Affordable Aut omatiow Ana 001 to 024 025 to 048 T Ana 049 to 072 T Ana 073 to 096 Ana 097 to 120 Ana 121 to 144 Ana 145 to 168 Ana 169 to 192 Ana 193 to 200 001 036 T Dig 037 to 072 T Dig 073 to 108 109 10 144 145 10 180 Dig 181 to 216 Dig 217 to 252 Dig 253 to 288 289 10 324 325 10 360 361 10 396 Dig 397 to 462 T Dig 433 to 468 Il Dig 469 to 504 Dig 505 to 540 Dig 541 to 576 Dig 577 to 612 T Dig 613 to 648 Dig001 Toggle On C Dig013 Toggle _ oft on Dig0o25 Toggle Off ot Cf Dig002 Toggle ot on 9 Toggle ot on Dig026 Toggle Off ot 94 Dig003 Toggle ot On S Dig015 Toggle _ oft on Dig027 Toggle Off ot on Dig 004 Toggle ot On f 0016 Toggle ot On 9 Dig028 Toggle of on CH Dig 005 Toggle Off ot On f Dig017 Toggle Off On O Di029 Toggle CH Dig006 Toggle Off ot On f Dig018 Toggle ot On Dig030 Toggle CH Dig 007 Toggle Off On f Dig019 Toggle Off ot On 9 Dig031 Toggle CH Dig008 Toggle Off ot On f Dig020 Toggle ot On f Dig032 Toggle CH Dig00
31. d in conjunction with the Modbus Monitor Control These two tabs enable the user to poll any Modbus registers or coils via the serial or Ethernet link This is a generic Modbus monitor and can be used with any device capable of communicating via Modbus RTU or Modbus TCP It is a valuable tool to troubleshoot Modbus devices The Modbus Monitor Section is used for the following functions Monitoring Modbus registers using function 3 Poll multiple registers Monitoring Modbus coils using function 1 Poll multiple coils Controlling Modbus registers using function 6 Preset single register Controlling Modbus coils using function 5 Preset single coil Section Descriptions Monitoring Table 1 Displays the Modbus registers being monitored The software can monitor registers in the range 40001 and 49999 and coils in the range 00001 and 99999 using functions 1 and 3 only A user configurable field describing the Modbus register or coil s function These descriptions can be saved from the Modbus Monitor Control tab Each register can be scaled to display a meaningful engineering value in section 4 Valid numbers are from 0 001 to 99999 If the monitored value is a register this Value is equal to the register value multiplied by the scaling factor in section 3 For example if the scaling factor is 0 1 and the value of the register is 123 a value of 12 3 will be displayed in this field If the value is a coil a O or 1 will be disp
32. d to the serial port or in the case the PC is connected to a multi drop RS485 network this will be the Modbus address of the device to be configured in the network This Modbus address only applies to this section used to configure the device or check the existing device settings New Device Serial Communication Settings 4 This section is used to configure new serial parameters or the Modbus address of the device attached to the serial port Possible selections for the baud rate and parity are as section 2 The data bits and stop bits cannot be changed 5 Bypressing this button all the parameters selected in section 4 will be sent to the Modbus device A success notice will be displayed at the bottom of the screen if the operation was successful After using this function the parameters in section 2 should be changed to match the new configuration and Specs button in section 7 used to confirm that the communication link is healthy Notice Bar 6 The Notice area is used to display the result of an operation carried out in the program When successful the notice Type will change to Success and turn green and associated information shown in the description Similarly an error will show up as red with an text Information only which is neither an error nor success will show up as orange with a Notice text Every time an operation is carried out the user should check out these fields for feedback
33. e appropriate Modbus coil addresses to initiate and stop a BCT Buttons to Enable and Disable the Battery Condition Test These buttons will set the Enable or Disable bit of the appropriate Modbus coil addresses to enable or disable the BCT Digital Output Control 13 14 Buttons to switch On and Off the digital output 1 if available Buttons to switch On and Off the digital output 2 if available CONFIGURATION DATA TAB Power EtherMBLink v1 0 Comm Settings I Power Supply Monitor Ml Configuration Data Modbus Monitor I Modbus Monitor Control In Device Information Modbus Packets Power Supply Settings Successful Polls BatDetect Failed Polls VPres PR olts VShut Volts VBati Volts VDisco Volts BCCL BCTim Minutes Hover mouse over Power Supply Settings to display a description below CCMins Minutes Move mouse over power supply setting CCHrs to display a description of the parameter CCDays 24 MfiBCT 2 Minutes Code Type Description Notice 03013 Updating of Information From Device With Address 1 Ended The Configuration Data Section is used for the following functions e Monitoring the Power Supply Configuration Parameters e Display the communication statistics while performing a continuous update Section Descriptions Modbus Packets 1 Display the communication statistics of the continuous update Power Supply Settings 2 Display the power supply config
34. e sent to the register with address defined in section 13 15 When the Digital Write button is pressed the digital coil with address defined in section 13 will be written to the Modbus device The on and off radio buttons define whether the coil will be switched on or off 16 These two fields show whether the digital or analogue writes have been successful or failed Display 17 The display table is a summary of the Modbus poll configuration table in the tab Modbus Monitor Control Up to 28 polls can be configured and will be displayed here The user can enable or disable the individual polls via the E column Checking this field will Enable polling The column N is the Number reference of the poll and corresponds with the numbers in section 18 The descriptions in this table cannot be altered from here but from the Modbus Monitor Control tab 18 These radio buttons define which information is displayed in the table on the left hand side They correspond with the table in section 17 BE MODBUS MONITOR CONTROL Power EtherMBLink v1 0 Comm Settings A Power Supply Monitor Configuration Data A Modbus Monitor Modbus Monitor Control g Device Information f Innovative Energies Single Battery String Power Supply Monitor Failed Success AA 0 Interval ms _ ES Poll Control 192 168 8 60 Stat 192 168 8 60 192 158 8 60 192 1688 60 192 168 8 60 File Controls Modb CP Param
35. et for Negative Retry Battery Test on Fail Alarm Digitals Battery Bad Battery Missing Overload Communications Fail to Power Supply System Down Battery Low Mains Failure Type Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Read Write 22 2 22 20 U DI D D I 2222222 POWER SUPPLY READ ONLY COILS OLD REGISTER SET The following registers have been replaced with the ones in section POWER SUPPLY READ ONLY COILS NEW REGISTER SET The digital values in this section provide the same information as the revised ones but have a different interpretation It is recommended that these registers are not used for new applications They are included in this manual for backward compatibility with older devices Register Name Description Type CC 00001 Charge Cycle Normal Operation Bit OL 00002 Overload Bit MF 00003 Mains Failure Bit BCT 00004 Battery Condition Test Bit BP 00005 Battery Present Bit BM 00006 Battery Missing Bit BL 00007 Battery Low Bit BB 00008 Battery Bad Bit M 00009 Power Supply or Mains Failed Brown Out Bit B 00010 Possibly Battery Missing Bit SD 00011 System Down Bit BO 00012 Battery OK during mains psu fail Bit Bcond 00013 Battery Condition Test Enabled Bit Ret 00014 Retry Battery Test on Fail Bit TempSign 00015 Temperature Sign 1 Negative Positive Bit BatSign 00016 Battery Current Sign 1 Out O In Bit BCT Sta
36. eters eiojoiojoojioijoioijiojoojoijioioijojoioyoiojoioijoioijloiocio io Je Comms Timeout in ms 100 v w v v v v v wv v al v x v al v 7 2 al w xil v al v xi ejojojojojoilojojojoloiojo 40 0 ELE reer i aes Description _ Type Notice 03013 ra Updating of Information From Device With Address 1 Ended Table and Description 1 The maintitle is user definable and describes this set of Modbus polls In this case this Modbus poll definition is called Innovative Energies Single Battery String Power Supply Monitor because it will poll through 5 polls via the serial interface and 5 polls the Ethernet interface to display all the information from the Protocol converter connected to the Innovative Energies Power Supply 2 The E column is the Enable column for the individual polls In the example above only the serial polls are enabled The Ethernet polls are defined but not enabled therefore when continuous polling is started they will be ignored 3 The description column is user definable and will have a general description of the information retrieved in that poll In the example above part of the Analogue Parameters are located in addresses 1 to 30 and therefore the description reads Serial Analogue Monitoring Set 1 In this case there are two definition sets serial and Ethernet so the description als
37. herProtocon1 ieep1lIdentification sysCode sysDescription sysFWhRevision sysHWRevision sysPCManufacturer sysPSManufacturer ieep1Readings psOutputVoltage psBatteryCurrent psLoadCurrent psBatteryTemperature psWatchdog ieep1Settings setBatDetect setpsVPres setpsVShutd setpsVBatl setpsVDisco setpsBccl setpsBCTim setpsCCMins setpsCCHrs setpsCCDays setpsMfiBCT OID Number 1 3 6 1 4 1 38555 1 3 6 1 4 1 38555 1 1 3 6 1 4 1 38555 1 1 1 3 6 1 4 1 38555 1 1 1 1 3 6 1 4 1 38555 1 1 2 1 3 6 1 4 1 38555 1 1 3 1 3 6 1 4 1 38555 1 1 4 1 3 6 1 4 1 38555 1 1 5 1 3 6 1 4 1 38555 1 1 6 1 3 6 1 4 1 98555 1 2 1 3 6 1 4 1 38555 1 2 1 1 3 6 1 4 1 38555 1 2 2 1 3 6 1 4 1 38555 1 2 3 1 3 6 1 4 1 38555 1 2 4 1 3 6 1 4 1 38555 1 2 5 136 14 1 3855515 1 3 6 1 4 1 38555 1 3 1 1 3 6 1 4 1 38555 1 3 2 1 3 6 1 4 1 38555 1 3 3 1 3 6 1 4 1 38555 1 3 4 1 3 6 1 4 1 38555 1 3 5 1 3 6 1 4 1 38555 1 3 6 1 3 6 1 4 1 38555 1 3 7 1 3 6 1 4 1 38555 1 3 8 1 3 6 1 4 1 38555 1 3 9 1 3 6 1 4 1 38555 1 3 10 1 3 6 1 4 1 38555 1 3 11 String String String String String String Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer Integer R RW Long Description NV NV N J gt Device Code Device Description Device Firmware Revision Device Hardware Revision Protocol Converter Manufacturer Power Supply Man
38. ic Refresh Num Num Num Rate 9 10 11 12 h t m Possible Character alice Description Monitoring Digital Values On 1 Off 0 On Off Off On Alarm Off No Alarm On OK Off NOK On Full Off lt Blank gt On Empty Off lt Blank gt On High Off lt Blank gt On Low Off lt Blank gt On Hi Hi Off lt Blank gt On Hi Off lt Blank gt On Lo Off lt Blank gt On Lo Lo Off lt Blank gt Logic Direct Logic Indirect No Refresh Refresh Every 1 Sec Refresh Every 2 Sec Refresh Every 5 Sec Refresh Every 10 Sec Refresh Every 15 Sec Refresh Every 30 Sec Refresh Every 60 Sec Refresh Every 120 Sec Refresh Every 300 Sec Refresh Every 600 Sec 6 0 to 9 Variable Number to Monitor Hundreds 7 0 to 9 Variable Number to Monitor Tens 8 0 to 9 Variable Number to Monitor Units counmoou u nTznzuxc rounuUmaoouo ocxsc 9 10 h INI 11 The last four digits should always be htm 12 m Examples HTML Page Description Result Example Monitor Digital Variable 001 Will Display Alarm MDCAD001 htm when On and No Alarm when Off The value will Alarm No Alarm automatically refresh every 5 seconds Monitor Digital Variable 001 Will Display No MDCBD001 htm Alarm when On and Alarm when Off The value No Alarm Alarm will automatically refresh every 5 seconds 2
39. if available Outputs 5 Display of the digital outputs status if available ME Communications 6 10 The user can set the serial and Ethernet communication parameters in this section An IP address value of 0 0 0 0 disables Ethernet polling and enables serial polling Pressing the Set To Serial button will automatically set the IP address value fields to 0 The Address field is the Modbus Address of the protocol converter to be polled or controlled Pressing the Single Update Button will send a single poll to the protocol converter and request the information only once Pressing the Continuous Update button will disable all the buttons in the program except those in the Battery Condition Test and Digital Output Control sections A continuous update means that the software will update the values on the left hand side in real time Stop update will re enable all the buttons in the software and stop the continuous update The watchdog is a number that will increment from 0 to 65536 and reset back to O This should be used to confirm that the values from the protocol converters are being updated successfully If the watchdog stops changing while the software is doing a continuous update it means that an error has occurred and the values stopped updating Battery Condition Test 11 12 Buttons to Start and Stop the Battery Condition Test These buttons will set the Start or Stop bit of th
40. ign BatSign BCT Start BCT Stop BCT Enable BCT Disable CommsF b bM bO bL bP MonDO1 MonDO2 MonDI1 MonbDI2 MonbDI3 MonDI4 MonDI5 MonDI6 N 2 E HTML Address MDBAFOO1 htm MDBAFOO2 htm MDBAF003 htm MDBAF004 htm MDBAFOO5 htm MDBAFOO6 htm MDBAF007 htm MDBAF008 htm MDBAF009 htm MDBAF0010 htm MDBAF0011 htm MDBAFOO12 htm MDBAFOO13 htm MDBAF0014 htm MDBAF0015 htm MDBAF0016 htm MDBAF0017 htm MDBAF0018 htm MDBAF0019 htm MDBAF0020 htm MDBAF0021 htm MDBAF0022 htm MDBAF0023 htm MDBAF0024 htm MDBAF0025 htm MDBAF0026 htm MDBAF0027 htm MDBAF0028 htm MDBAF0029 htm MDBAF0030 htm MDBAF0031 htm MDBAF0032 htm MDBAF0033 htm MDBAF0034 htm Description Charge Cycle Normal Operation Overload Mains Failure Battery Condition Test Battery Present Battery Missing Battery Low Battery Bad Power Supply or Mains Failed Brown Out Possibly Battery Missing System Down Battery OK during mains psu fail Battery Condition Test Enabled Retry Battery Test on Fail Temperature Sign 1 Negative Positive Battery Current Sign 1 Out O In Battery Condition Test Started Battery Condition Test Stopped Battery Condition Test Enabled Battery Condition Test Disabled Communications Failure to Power Supply Possibly Battery Missing Battery Bad Battery Missing Battery Bad Battery OK during mains psu fail Battery Bad Battery Low Battery Bad Battery Present Battery Bad Monitor
41. ing of Digital Output 1 Optional Monitoring of Digital Output 2 Optional Monitoring of Digital Input 1 Optional Monitoring of Digital Input 2 Optional Monitoring of Digital Input 3 Optional Monitoring of Digital Input 4 Optional Monitoring of Digital Input 5 Optional Monitoring of Digital Input 6 Optional Type Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit Bit INTEGRATING ANALOGUE AND DIGITAL VALUES INTO WEB PAGE The previous section showed examples on how to set and display individual bits and analogue values This is not very useful unless the values can be placed in a complete real website PRE CONFIGURED WEB PAGES The screenshot below shows an example of how these values will be displayed in a web page This pre configured example is delivered as part of the EtherMBLink Software These websites can be used to monitor and set Analogue Values 1 to 200 and Digital Values 1 to 640 The contents of the analogue and digital values depend on the application The DoZeener Ethernet interface is a generic card which can be pre configured to display the desired parameters whether it is a protocol converter a dedicated or as user programmable controller Untitled Document Mozilla Firefox 22 5 X A 01 Dozener Controls 01 Design Centre 08 Projects DZC EtherCar
42. it E 38586 DoZeener 0001 ieEtherProtoconl Eig 0001 ieeplidentification QM 0001 sysCode 0002 sysDescription MANAGEMENT INFORMATION BASE MIB FILE y 0003 sysFWRevision 22 9 0004 sysHWRevision The picture on the right shows a graphical representation of the MIB file pron E de QY 0006 sysPSManufacturer configu ration for the device 0002 ieepl Readings 0001 psoutputvoltage This part of the tree structure in the MIB File can be found under 22 4 psBatteryCurrent iso 1 org 3 dod 6 internet 1 private 4 enterprises 1 in the standard 215 0003 pstoadCurrent RFC1155 Structure and Identification of Management Information pee for TCP IP based internets Sae 0003 a pal 9 0001 setBatDetect It is divided into the following sections M 0003 setpsvshutd TE 0004 setpsvBatl DEVICE IDENTIFICATION OID 1 3 6 1 4 1 38586 1 1 0005 setpsVDisco QM 0006 setpsBcci This set of information consists of information related to the device being 0007 setpsBCTim monitored They all string objects fixed for a particular unit renee 0009 setpsCCHrs 0010 setpsccDays ba 0011 setpsMfiBCT READINGS OID 1 3 6 1 4 1 38586 1 2 ange 0004 ieeplInfoDigitals QB 0001 idigichargecycte These variables are all integers For voltages and cur
43. layed For digital values the scaling factor should be set to 1 This column is user configurable and is used to display the engineering units of the register being monitored if applicable 2 O AN ME Modbus Monitoring Statistics and General Control 6 This field describes the Modbus set being monitored via the Modbus monitoring table The text in this field can be set via the Modbus Monitor Control Tab from the control table This description can be saved using the Save button in the File Controls section 7 This section shows the Modbus address of the device being polled If the IP address entered in the table in the Modbus Monitoring Control section is not 0 0 0 0 i e it is a valid address this value will be displayed under the Modbus Address and an IP device will be polled Failed Polls and Succeeded Polls will show the polling statistics When one Modbus packet is requested from the Modbus serial or Modbus TCP device and a reply is successfully received the succeeded polls counter will increment by one otherwise if it fails the Failed Polls counter will be incremented by one 8 Changing the decimal points value will change the values in section 4 Possible selections are 1 to 4 9 This section will change the values in section 4 This selection defines how the 16bit number received by the Modbus compatible device will be interpreted If signed is selected the value displayed will be between 32768 and 32767 If unsigned is
44. mnovative energies www innovative energies com User Manual Innovative Energies Power supply Serial Modbus Protocol Converter with Ethernet Port Supports Serial Modbus RTU Modbus TCP amp HTTP PROIOCONMB OE DZC eProtocon IE1 Revision 3 Revision Date Sep 2011 Innovative Energies 1 Heremai Street Henderson NZ Tel 64 9 835 0700 info innovative co nz www innovative co nz TABLE OF CONTENTS TABLE OF CONTENTS 2 Mese eere reno aes seno Pipe e ee een enn cinica 2 INTRODUCTION gf Ro i Eh c S s 4 DEVICE SCHEMATIC AND IO 5 4 5 CONNECTIONS AS 8 7 5 WIRING 1 4 anita raiione c oe 5 SERIAL PROGRAMMING 4 6 FRONT PANEL INDICATIONS 6 7 26 5 7 4 7 DEVICE SETUP rro rete een annuis 8 PROGRAMMING SOFTWARE 5 leeren e trao renean 8 RESETTING TO DEFAULT COMMUNICATION SETTINGS 1 21 11 nenne nnne enar 8 SPECIFICATION So og t ur Amm TUE TUM AME HERE o
45. o contains information that this forms part of the serial poll 4 Modbus Address of the device to be polled Valid values are 1 to 255 5 The IP Address column contains the IP Address of the device to be polled If this value is set to 0 0 0 0 Ethernet polling is disabled and serial polling enabled 6 The Start column defines the starting Modbus address of the register or coil to be requested Valid values are 1 to 9999 7 The Length column defines how many registers or coils will be requested Valid values are 1 to 30 8 The Func Column defines the Modbus function used to poll the information Valid selections are Fn1 Function 1 Modbus Coils and Fn3 Function 3 Modbus Registers 2 2 ME For example e if Add 1 IP Address 0 0 0 0 Start 1 Len 12 Function Fn3 the software will request registers 40001 to 40012 from a Modbus RTU device with address 1 if Add 12 IP Address 192 168 8 60 Start 23 Len 19 Function Fn1 the software will request coils 00023 to 00042 from a Modbus TCP device with IP Address 192 168 8 60 and Modbus address 12 9 The Failed and Success columns show statistics of the defined poll once the continuous poll is initiated General 10 The interval field is the time between individual polls The value is in milliseconds Valid values are 500 0 5 seconds to 30000 30 seconds 11 Pressing the Reset Stats button will reset the statistics in the col
46. polling an SNMP agent with address 192 168 8 60 and an SNMP walk starting from OID 1 3 6 1 4 1 The result is a list of all the parameters which can be monitored from the Innovative Energies Power Supply This list excludes all control digitals and traps Administrator C Windows system32 cmd exe Cix gt snmpwalk v 1 c public 192 16 12551 21 MSNMPu2 SMI enterprises 38586 1 SNMPyu2 SMI enterprises 38586 1 y with Ethernet Interface Module SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPyu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SSNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 IS NMPu2Z SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 MSNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 ESNMPu2 SMI enterprises 38586 1 MSNMPu2 SMI enterprises 38586 1 EBSNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 ESNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 ESNMP
47. r of digits after decimal point Above 3 Auto 5 No Refresh B Refresh Every 1 Sec C Refresh Every 2 Sec D Refresh Every 5 Sec E Refresh Every 10 Sec F Refresh Every 15 Sec G Refresh Every 30 Sec H Refresh Every 60 Sec Refresh Every 120 Sec Refresh Every 300 Sec K Refresh Every 600 Sec 6 0109 Variable Number to Monitor Hundreds 7 0 to 9 Variable Number to Monitor Tens 8 0 to 9 Variable Number to Monitor Units 9 10 h E i 11 The last four digits should always be htm 12 m HTML ADDRESS EXAMPLES HTML Page Description Result Example Monitor Analogue Variable No digits after decimal point will be displayed The value will MACAO Gim not automatically refresh Value 001 will be Pao monitored Monitor Analogue Variable Two digits after MA02B002 htm decimal point will be displayed The value will 4567 89 automatically refresh after 1 second Value 002 will be monitored 2 vu N 2 ME SCREENSHOT EXAMPLES MA03A001 htm Monitor Analogue Display 3 Decimal Places Auto Refresh Disabled Value 1 Mozilla Firefox 1254 560 MA01A001 htm Monitor Analogue Display 1 Decimal Place Auto Refresh Disabled Value 1 Mozilla Firefox MA02F123 htm Monitor Analogue Display 2 Decimal Places Refresh every 15 seconds Value 123 Mozilla Firefox 0 00 HTML STRING DECONSTRUCTION MONITORING OF A DIGITAL VALUE 1 2 3 4 5 6 7 8 0 0 0 Monitor Digita Messages Log
48. rents instead of values QW 0002 idigiBattok being in Volts and Amps they are represented in mVolts and mAmps 0003 idigiBattPres the reason for this is that SNMP cannot display floating point numbers P Network Management Software then divide these numbers 1000 0005 idigiTempNegative display the required values 0007 idigiRetryBCTOnFail 0008 idigiBCTActive EXC 0009 idigiAutoBCTEnabled INFORMATION DIGITALS OID 1 3 6 1 4 1 38586 1 3 Pe m bee 0012 idigiDigitalinput3 All digital values are displayed as integers 0 representing Off and 1 Danes Per 0013 idigiDigitalInput4 representing On These are the power supply digital values displaying only 0014 idigiDigitalOutputi information that are not deemed alarms ons idigiDigitalOutput Gig 0005 ieeplAlarmDigitals 0001 adigiBattBad 0002 adigiBattMissing ALARM DIGITALS OID 1 3 6 1 4 1 38586 1 4 B P asco ei 0004 adigiComsFail Similar to information digitals but for the power supply alarms ces acisisytembown All digital alarms are also sent as traps 0006 adigiBattLow is 9 0007 adigiMainsFail 0006 ieep1 Control CONTROL OID 1 3 6 1 4 1 38586 1 5 E Control digitals are represented by integers Setting any of these values 1 0003 i 0004 cdigiDisableAutoBCT will activate or deactivate the
49. riable Number to Monitor Hundreds Variable Number to Monitor Tens Variable Number to Monitor Units The last four digits should always be htm Description Result Example Toggle Digital Value 001 None Switch On Digital Value 001 None Switch Off Digital Value 001 None SCREENSHOT EXAMPLES Setting of Digital Value 1 using a Toggle Button 2 Toggle Mozilla Firefox C 7 Toggle onoff Toggle On http 1 192 168 8 60 CTODD001 htm Result when Pressing the button DZC Toggle Onoff Mozilla Firefox i C xX 46 ret 192 168 008 Q60 CTOBDOD1 him 2 vy 7 DZC Toggle Toggle Setting of Digital Value 1 using Button DZC Switch Mozilla Firefox Switch Off Setting of Digital Value 1 without using buttons Command is send there is no feedback zin x A https 192 168 ir http 192 1658 0 060 CSFADOO1 htm Mozilla Firefox POWER SUPPLY PARAMETERS IN HTML FORMAT READ ONLY ANALOGUE PARAMETERS Register Name Vout Ibat Ipsu Temp BatDetect Vpres Vshutd Vdisco Bccl BCTim CC Mins CC Hrs CC Days MfiBCT NA READ WRITE DIGITAL PARAMETERS Register Name BCTStart BCTStop BCTEnable BCTDisable CntDO1 CntDO2 HTML Address MA01F001 htm MA01F002 htm MA01F003 htm MA01F004
50. rt 00017 Battery Condition Test Started Bit BCT Stop 00018 Battery Condition Test Stopped Bit BCT Enable 00019 Battery Condition Test Enabled Bit BCT Disable 00020 Battery Condition Test Disabled Bit CommsF 00021 Communications Failure to Power Supply Bit b 00022 Possibly Battery Missing Battery Bad Bit bM 00023 Battery Missing Battery Bad Bit bO 00024 Battery OK during mains psu fail Battery Bad Bit bL 00025 Battery Low Battery Bad Bit bP 00026 Battery Present Battery Bad Bit DIGITAL I O READ ONLY COILS Register Name MonDO1 MonDO2 MonDI1 MonDI2 MonDI3 MonDI4 Modbus Address 00027 00028 00029 00030 00031 00032 READ WRITE COILS Register Name BCTStart BCTStop BCTEnable BCTDisable CntDO1 CntDO2 Once the bit commands are sent to the device they are automatically reset to 0 by the protocol converter Modbus Address 00161 00162 00163 00164 00165 00166 Description Monitoring of Digital Output 1 Optional Monitoring of Digital Output 2 Optional Monitoring of Digital Input 1 Optional Monitoring of Digital Input 2 Optional Monitoring of Digital Input 3 Optional Monitoring of Digital Input 4 Optional Description Start Battery Condition Test Stop Battery Condition Test Enable Battery Condition Test Disable Battery Condition Test Control of Digital Output 1 Optional Control of Digital Output 2 Optional Type Bit Bit Bit Bit Bit Bit Type Bit Bit Bit Bit Bit B
51. selected the value displayed will be between and 65535 10 The Start buttons starts Modbus polling of all the poll sets enabled in the Modbus Monitor Control Section or section 17 in this tab The software will poll the serial devices sequentially and the Ethernet devices sequentially Ethernet devices will be polled while serial devices are also polled i e serial devices will be polled in parallel with Ethernet devices Due to the mechanism which Windows uses to poll Ethernet devices if there are a lot of failures in Ethernet polling this may affect serial polling This is due to the fact that when the application tries to open a socket to an Ethernet device this tends to stop all other processes while the system is waiting for the device on the other end to respond It is recommended that Ethernet devices are not polled at the same time as serial devices Control 11 This is the Modbus address of the device to which the analogue value or digital bit is to be sent 12 This is the Ethernet address of the device to which the analogue value or digital bit is to be sent 13 This section applies to both register or coil address When a value of 1 is entered in this field and the Analogue Write button is pressed the software will send a value to register 40001 When the Digital Write is pressed the software will set or reset the digital coil 00001 14 When the Analogue Write button is pressed the value in the field New Value will b
52. to include SNMP information
53. to network switch Cross Over Cable to PC Ethernet port Serial Port Modbus Network SERIAL PROGRAMMING CABLE 1000 25 40 3 IWHITE MATE WHITE TERMINAL 2BLACK MATE YELLOW TERMINAL 2 3RED MATE ORANGE TERMINAL PIN OUT 2 RED 2 3 BLACK 3 2 WHITE 5 1 SHELL DRAIN Connections to protocol Converter White Common e Black RX e Red FRONT PANEL INDICATIONS Power On Output 1 Status Power S Transmit gt PTC Qo Output 2 Status Power S Receive gt PRC gt 11 lt Input 1 Status Comms Module OK m C 2 lt Input 2 Status Serial Com Activity C C I3 4 Input 3 Status lt input 4 Status Reset Comms Rst Parameters to gt Default LAN Activity _ Indication lt Ethernet Port LAN Link LA _ B Indication P Power On Solid RED when Power is available to the unit PT Power Supply Transmit Flashes when a packet is sent to the power supply RS485 Port PR Power Supply Receive Flashes when a packet is successfully received from the power supply RS485 Port W Communication Port Watchdog The LED flashes yellow every second when the Modbus RTU Modbus TCP and HTTP communications module is healthy C Communications activity on the Modbus RTU serial communication port Flashed yellow every time a Modbus packet is
54. u2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPyu2 SMI enterprises 38586 1 4 8 SNMPu2 SMI enterprises 38586 1 4 STRING i STRING G DZC PCON eProtoCon IE1 Innovative Energies Power Suppl STRING 1 2 STRING 1 1 STRING DoZeener Controls STRING Innovative Energies INTEGER 65106 INTEGER 67900 INTEGER 67988 INTEGER 43 INTEGER 688 INTEGER 29 INTEGER 122808 INTEGER 115808 INTEGER 118088 INTEGER 10606 INTEGER 106 INTEGER 5 INTEGER 2 INTEGER 1 INTEGER 24 INTEGER 2 INTEGER INTEGER INTEGER INTEGER INTEGER 6 INTEGER INTEGER INTEGER 6 INTEGER 1 INTEGER INTEGER INTEGER INTEGER INTEGER INTEGER INTEGER 6 INTEGER 1 INTEGER 1 INTEGER INTEGER INTEGER 6 INTEGER 6 Hu u m mu m m m H Hn W i M S uS uS uS uS CO 5 C3 C2 G2 G2 C2 2 EP EI RR IR xw NM wN WE SNMPu2 SMI enterprises 38586 1 4 1 BSNHPo2 SMI enterprises 38586 1 4 14 SNMPu2 SMI enterprises 38586 1 4 15 SSNMPu2 SMI enterprises 38586 1 5 1 SNMPu2 SMI enterprises 38586 1 5 SNMPu2 SMI enterprises 38586 1 SISNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 SNMPu2 SMI enterprises 38586 1 uw w u wu 98 OID DESCRIPTIONS OBJECTS OID Name DoZeener ieEt
55. ue Value 1 LE x mq 0 httpyf192 168 8 60 c valo01 htm C Val001 000 000 Command to set analogue value 1 to 0 0 E http 192 168 8 27 001 7 htm SE Set Setting of Analogue Value 151 E Mozilia rireton ix 211 htpf92 168 8 60 C vali51 277 htm http 192 158 8 C Yal151 222 htm 2 SP Set Setting of Analogue Value 151 Inputting a value of 583 354 3 Mozilla Firefox Ea Cg 168 lt htm l http 192 158 8 L Val151 htm SP 583 354 Set Result when pressing Set Button Mozilla Firefox Ea QU X lt ntpn92 168 8 2 151 583 354 cu http 192 168 8 C Yal151 583 354 SP Setpoint Active Set STRING DECONSTRUCTION CONTROL OF A DIGITAL VALUE HTML Code Bytes 1 2 C T Control Toggle Character 6 C 7 T 5 8 9 10 11 0 to 9 12 0 to 9 13 0 to 9 14 15 h 16 1 17 m Examples HTML Page CTODD001 CSNDD001 CSFDD001 3 4 5 6 7 8 0 0 0 Digital Num Num Num Description Control Request to Toggle Request to Switch Toggle Can only be O for On Off Switch Can be N for oN F for oFf Action Only No Display Returns Blank Page Display and Action Display Only No Action Always D for Digital Va
56. ufacturer Output Voltage in mV Battery Current in mA Load Current in mA Battery Temperature in DegC Watchdog Counter Time in minutes between battery detect tests in mins Minimum voltage to detect battery presence in Milli Volts Shutdown Voltage in Milli Volts Battery low alarm voltage level in Milli Volts Battery disconnect voltage in Milli Volts Battery charge current limit in 96 Length of battery condition test in mins Time interval between BCTs in mins Time interval between BCTs in hours Time interval between BCTs in days Mains fail check interval during BCT in mins yS ZOVEO QC EM Units NA NA NA NA NA NA mV mA mA DegC NA mins mV mV mV mV mV 90 mins hrs days mins Comment OID ieep1InfoDigitals idigiChargeCycle idigiBattOK idigiBattPres idigiBrownOut idigiBattCharge idigiTempNegative idigiRetryBCTOnFail idigiBCTActive idigiAutoBCTEnabled ieep1AlarmDigitals adigiBattBad adigiBattMissing adigiOverload adigiComsFail adigiSystemDown adigiBattLow adigiMainsFail ieep1Control cdigiStartBCT cdigiStopBCT cdigiEnableAutoBCT cdigiDisableAutoBCT cdigiEnableDigiOut1 cdigiDisableDigiOut1 cdigiEnableDigiOut2 cdigiDisableDigiOut2 OID Number 1 3 6 1 4 1 38555 1 4 1 3 6 1 4 1 38555 1 4 1 1 3 6 1 4 1 38555 1 4 2 1 3 6 1 4 1 38555 1 4 3 1 3 6 1 4 1 38555 1 4 4 1 3 6 1 4 1 38555 1 4 5 1 3 6 1 4 1 38555 1 4 6 1 3 6 1 4 1 38555 1 4 7 1 3 6 1 4 1
57. umns in section 9 Poll Control 12 The Start and Stop buttons will disable all the buttons and start stop the continuous polling File Controls 13 The Modbus monitoring feature in this software is compatible with all Modbus RTU and Modbus TCP devices Once configured for a particular device or set of devices the definition can be saved to a file The file extension is dmp which is an abbreviation of DoZeener Controls Modbus Poll Definition The following information can be saved and loaded Modbus Poll Set Main Description Modbus Poll Sets Descriptions e Modbus Poll Sets Address Modbus Poll Sets IP Address Modbus Poll Sets Start Address Modbus Poll Sets Length e Modbus Poll Sets Function Modbus Poll Registers description Modbus Poll Registers scaling Modbus Poll Registers units Modbus TCP Parameters 14 The Modbus TCP comms timeout defines how long the wait will be between pinging a device and giving up on the connection Before a socket is opened and a Modbus TCP poll is sent to the device a Ping is carried out to check whether the device exists on the network Following a Modbus ping a socket will be opened to the Modbus device DEVICE INFORMATION A Power ink 0 A Power ink w1 0 Comm Supply Morti Configuration Data Modbus Motori Modas Manto Corto 1 kiamon E Comm Pome Suppl Moni Configuration
58. uration parameters 3 Display the information related to each configuration parameters The information in this section will change as the mouse is hovered over the parameter fields in section 2 MODBUS MONITOR He Power EtherMBLink v1 0 Comm Settings I Power Supply Monitor Configuration Data I Modbus Monitor Modbus Monitor Control B Device Information Innovative Energies Single Battery String Power Supply Monitor Set Description Y Description E Serial Analogue Monitoring Set 1 Unused Output Voltage Modbus Address Failed Polls Succeeded Polls Unused 0 Battery Current Decimal Points Unused 0 3 Power Supply Current Minutes Volts IP Address w 15 eo Reg Coil Add New Value 1 BE 0 Battery disconnect voltage Unused Battery charge current li Minutes E NM Description 1 Serial Analogue Monitoring Set 1 Minutes 2 Serial Analogue Monitoring Set 2 amp 3 Serial Digital Monitoring 1 Hours 4 Serial Digital Monitoring 2 1 Days Minutes ime interval between BCTs N Time interval between BCTs Unused eijojojojiojoijojojojoijojoidc xjojoWwioijiojoioiduio dq C1 Mains fail check interval during BCT Description Type Notice 03013 asi Updating of Information From Device With Address 1 Ended The Modbus Monitor section should be use
Download Pdf Manuals
Related Search